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- Lehrstuhl für Tissue Engineering und Regenerative Medizin (11)
Sonstige beteiligte Institutionen
- Bio-Imaging Center Würzburg (1)
- CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - the development agency of the Brazilian Federal Government (1)
- DAAD - Deutscher Akademischer Austauschdienst (1)
- Deutsches Zentrum für Herzinsuffizienz (1)
- Fraunhofer Institut für Integrierte Schaltungen (IIS) (1)
- Fraunhofer-Institut für Chemische Technologie (ICT) (1)
- Fraunhofer-Institut für Silicatforschung ISC (1)
- Institut für Medizinische Lehre und Ausbildungsforschung, Universität Würzburg (1)
- Institut für Medizintechnik Schweinfurt (IMeS) (1)
- Institute for Biochemistry I, University of Cologne (1)
ResearcherID
- B-4606-2017 (1)
Kationenkanäle der Canonical Transient Receptor (TRPC)-Familie spielen eine wichtige Rolle in der pathologischen Herzhypertrophie. Neben anderen Isoformen besitzt TRPC4 die Potenz, den strukturellen und funktionellen Umbau des Herzens im Rahmen der pathologischen Hypertrophie über Ca2+-Transienten zu bestärken. TRPC4-Kanäle sind nicht-selektive Kationenkanäle, die für Na+ und Ca2+ durchlässig sind. Sie setzen sich in der Plasmamembran zu Homo- oder Heterotetrameren zusammen. Die TRPC4-Kanalaktivität wird durch die Stimulation von Gq-Protein-gekoppelten Rezeptoren (GPCR) reguliert und führt zu einem Ca2+-Einstrom, der für die Aktivierung von Calcineurin und des nuclear factor of activated T-cells (NFAT) notwendig ist. Eine weitere Aktivierungsform lässt sich über die Entleerung von intrazellulären Ca2+-Speichern (SOCE) aus dem Sarkoplasmatischen Retikulum (SR) nachweisen. Die funktionelle Wirkung des TRPC4 ist von der Expression der beiden Splice-Varianten TRPC4α und TRPC4β abhängig.
Um diese funktionelle Abhängigkeit der Splice-Variante C4β genauer zu charakterisieren, wurden in der vorliegenden Studie zytosolische Ca2+-Signale und deren Aktivierungsmechanismen analysiert. Für die Untersuchungen wurden neonatale Rattenkardiomyozyten (NRC) verwendet, die mit adenoviralen Vektoren infiziert wurden und TRPC4beta (Ad-TRPC4β), TRPC4alpha (Ad-TRPC4α) und beta-Galaktosidase (Ad-ßgal) als Kontrolle exprimierten. Es erfolgte eine Auswertung der Ca2+-Transienten, in der gezeigt werden konnte, dass TRPC4β den Ca2+-Einstrom in schlagenden Kardiomyozyten beeinflusst. Dies machte sich in einer erhöhten Ca2+-Amplitude unter basalen Bedingungen bemerkbar. Ebenfalls konnte deutlich gemacht werden, dass eine Ca2+-Entleerung des SR TRPC4β als sogenannten SOC (speicher-regulierten Kanal, store-operated channel) aktiviert. Außerdem reagierten TRPC4β-infizierte NRCs mit einem gesteigerten Ca2+-Maximalspitzenwert (peak) unter Stimulation mit dem GPCR-Agonisten Angiotensin II. Die Amplitude der Ca2+-Transienten bei Überexpression von Ad-TRPC4β war im Vergleich zur Ad-ßgal-Kontrollgruppe deutlich gesteigert. Darüber hinaus war der Abfall der Ca2+-Transienten der TRPC4β-exprimierenden Zellen beschleunigt. Dies lässt einen kompensatorischen Mechanismus vermuten, mit dem Ziel, einer Ca2+-Überladung der Zelle durch den TRPC4β-induzierten Ca2+-Einstrom entgegenzuwirken. In zusätzlichen Experimenten zeigte sich TRPC4β ebenfalls deutlich sensitiver gegenüber der Angiotensin II-Stimulation als TRPC4α. Weiterführende Untersuchungen ließen erkennen, dass TRPC4β, im Gegensatz zu anderen TRPC-Isoformen, keinen pro-hypertrophen, sondern vielmehr einen pro-apoptotischen Einfluss auf Kardiomyozyten ausübt.
Zusammenfassend zeigt die vorliegende Studie, dass eine erhöhte Aktivität der Splice-Variante TRPC4β mit kritischen Veränderungen zytosolischer Ca2+-Signale verbunden ist und somit ein entscheidender Faktor für die Entstehung und Progression kardialer Pathologien sein könnte.
Die photolytische Stickstoffabspaltung aus Azoalkanen vom DBH-Typ verläuft stereoselektiv unter bevorzugter Bildung des invertierten Hausans. Bei cyclopentenannelierten DBH-Derivaten kann die Selektivität in Abhängigkeit von den Brückenkopfsubstituenten auch umgekehrt sein. Bei der Photolyse von Azoalkan DBH-d2 zeigt sich, dass das Verhältnis von Inversions- zu von der Viskosität des Lösungsmittels abhängig ist. Die Viskosität wird sowohl durch Verwendung einer Serie von Alkoholen verschiedener Viskosität als auch durch Variation der Temperatur in n-Butanol geändert. Der Wert für die Photolyse in Acetonitril fügt sich in die Reihe der alkoholischen Solventien ein, womit eine Beteiligung von Wasserstoffbrücken ausgeschlossen ist. Der Viskositätseffekt ist mit einem schrittweisen Mechanismus der Stickstoffabspaltung vereinbar, der über ein unsymmetrisches Singulettdiazenyldiradikal verläuft. Die Abweichung der Viskositätprofile des kinv/kret-Verhältnisses für die Viskositätsänderung durch Lösungsmittel- und Temperaturvariation lässt einen kleinen aber messbaren Unterschied in der Aktivierungsenergie für den Inversions- und Retentionsprozess ableiten. Das kinv/kret-Verhältnis bei der Photolyse von DBH-d2 wird auch in Abhängigkeit vom Druck in superkritischem Ethan und Kohlendioxid untersucht, wofür zunächst eine spezielle Apparatur aufgebaut werden musste. Die Analyse der beobachteten Druckabhängigkeit im Hinblick auf Stoß- (Selbstdiffusionskoeffi-zient) und Reibungseffekte (Viskosität) lässt schließen, dass eine Behinderung des Inversionsprozesses durch Reibung mit Mediummolekülen die experimentellen Beobachtungen am besten erklärt. Dies entspricht den Beobachtungen in flüssiger Phase und bestätigt den Mechanismus. In einer vergleichenden Untersuchung der Photolyse (bei + 25 °C) von Azaolkan Ib und der thermischen (bei +25 °C) syn-zu-anti-Isomerisierung des entsprechenden Hausans IIb wird festgestellt, dass die kinv/kret-Verhältnisse bei der Photolyse des Azoalkans in einer Serie von Alkoholen und die Geschwindigkeitskonstanten kiso der Isomerisierung in der gleichen Reihe von Lösungsmitteln einer sehr ähnlichen Viskositätsabhängigkeit gehorchen. Daraus wird geschlossen, dass die Bewegung bei der Gerüstinversion in beiden Fällen durch Reibung mit Lösungsmittelmolekülen gehemmt und damit die Stereoselektivität bestimmt wird. Die Photolyse von DBH-d2 in Isooctan/Nujol-Gemischen zeigt die gleiche Viskositätsabhängigkeit des kinv/kret-Verhältnisses wie die in alkoholischen Medien. Aus dem Unterschied der absoluten kinv/kret-Werte der beiden Serien und durch die Verwendung weite-rer aprotischer Lösungsmittel wird eine Beeinflussung der Selektivität durch die "bulk" Polarität des Mediums festgestellt. Fazit: Durch die Untersuchung des Einflusses der Viskosität und Polarität des Lösungsmittels auf die Stereoselektivität bei der Photolyse von bicyclischen Azoalkanen und die thermi-sche Isomerisierung der entsprechenden Hausane wird das Auftreten eines Diazenyldiradi-kals als Schlüsselintermediat bestätigt und dynamische Effekte werden ausgeschlossen. Bei der Photolyse der cyclopentenannelierten Azoalkane Ic,d mit n-Propyl- und Acetoxy-methylsubstituenten an den Brückenkopfpositionen (Schema IV) entstehen unter Singulettbedingungen (direkte Photolyse bei höherer Temperatur) unter Retention hauptsächlich die anti-IIc,d Hausane. Unter Triplettbedingungen (direkte Photolyse bei tiefer Temperatur oder sensibilisierte Photolyse) wird das Inversionsprodukt syn-IIc,d bevorzugt. Die favorisierte Inversion beim Triplettweg wird mit der unsymmetrischen Natur der Brückenkopfsubstituenten nPropyl und Acetoxymethyl bei der Rotation um die Brückenkopfposition des planaren Cyclopentan-1,3-diyltriplettdiradikal erklärt. Die rotationsunsymmetrischen Brückenkopfsubstituenten stehen in ihrer Konformation niedrigster Energie (AM1-Rechnungen) auf der gegenüberliegenden Seite des Diylrings als der annelierte Cyclopentenring. Nach ISC führt der Ringschluss aufgrund sterischer Wechselwirkungen zwischen den Brückenkopfsubstituenten und der gem-dimethylsubstituierten Methylenbrücke bevorzugt zum syn-Hausan. Beim Vergleich des Verhältnisses von Inversion zu Retention bei der Photolyse des ungesät-tigten und gesättigten Azoalkans Ie und If (Schema IV) zeigt sich, dass bei beiden Derivaten unter Singulettbedingungen das syn-Hausan in etwa gleichem Ausmaß entsteht. Unter Triplettbedingungen führt die Photolyse zum Retentionsprodukt anti-IIe,f als Hauptdiastereomer, aber mit einem beträchtlichen Unterschied im syn/anti-Hausan-Verhältnis für Ie (38 : 62) und If (6 : 94). Dieser signifikante Unterschied der anti-Stereoselektivität im Triplettweg wird mechanistisch durch weitreichende sterische Wechselwirkungen zwischen dem annelierten Ring und der gem-dimethylsubstituierten Methylenbrücke während des Ringschlusses nach ISC des planaren Cyclopentan-1,3-diyltriplettdiradikals gedeutet. Im Gegensatz dazu ist die Denitrogenierung des intermediären Diazenyldiradikals Ie,f-1DZ (analog zu Ia-1DZ) im SH2-Prozess (Inversion) des Singulettwegs relativ unempfindlich gegenüber solchen sterischen Effekten zwischen den entfernten Substituenten. Fazit: Bei der Photolyse von fünfringannelierten Azoalkanen wirken sich kleinere strukturelle Variationen (rotationsunsymmetrische Brückenkopfsubstituenten oder die Hydrierung der Doppelbindung im annelierten Ring) vor allem im Triplettweg über sterische Wechselwirkungen im planaren Cyclopentan-1,3-diyltriplettdiradikal auf das Verhältnis der entstehenden syn/anti-Hausane aus. Der SH2-Prozess im Singulettweg ist relativ unempfindlich gegenüber solchen sterischen Effekten.
The aim of this work was the selective functionalisation of tribenzotriquinacene (TBTQ) in order to extend the aromatic system and tune the electronic properties. The synthesised molecules could be starting materials for a model system of a defective graphene fragment. The “triple cyclisation pathway” by Hopf et al. was adapted and fluorinated tribenzotriquinacenes were synthesised for the first time.
Phenanthrene groups were also introduced in other model systems and the crystal structures of phenanthrene functionalised TBTQs were compared with the parent molecules.
In addition, the arrangement of TBTQ and centro methyl functionalised TBTQ was investigated on a Ag(111) surface for the first time using scanning transmission microscopy (STM). Different arrangements were observed, depending on the coverage of the surface.
The insights gained about the interaction between TBTQs as well as their synthesis provide a foundation for further work and potential applications as components in organic electronic devices.
In der vorliegenden Arbeit werden die strukturellen und magnetischen Eigenschaften verschiedener 3d-Übergangsmetalloxidketten (TMO-Ketten) auf Ir(001) und Pt(001) untersucht. Diese weisen eine (3 × 1) Struktur mit periodisch angeordneten Ketten auf, die nur über die Sauerstoffbindung an das Substrat gekoppelt sind. Während die Struktur durch experimentelle und theoretische Untersuchungen bestätigt ist, liegen für die magnetischen Eigenschaften ausschließlich Rechnungen vor. Zur Überprüfung dieser theoretischen Vorhersagen wird die Methode der spinpolarisierten Rastertunnelmikroskopie (SP-STM) verwendet, die die Abbildung der magnetischen Ordnung mit atomarer Auflösung erlaubt.
Die Untersuchungen beginnen mit der Vorstellung der Ir(001) Oberfläche, die eine (5 × 1) Rekonstruktion aufweist. Eine Aufhebung dieser Rekonstruktion erreicht man durch das Heizen des Ir-Substrats in Sauerstoffatmosphäre unter Bildung einer (2 × 1) Sauerstoffrekonstruktion. Die Qualität der Oberfläche hängt dabei von der Wachstumstemperatur T und dem verwendeten Sauerstoffdruck pOx ab. Die bei T = 550°C und pOx = 1 × 10^−8 mbar hergestellte Sauerstoffrektonstruktion dient als Ausgangspunkt für die folgenden Präparationen von CoO2, FeO2 und MnO2-Ketten. Dazu wird jeweils eine drittel Monolage (ML) des Übergangsmetalls auf die Oberfläche des Substrates gedampft und die Probe unter Sauerstoffatmosphäre ein weiteres Mal geheizt. Auf diese Weise kann die (3 × 1) Struktur der bekannten Ketten bestätigt und die Gruppe der TMO-Ketten um die CrO2-Ketten erweitert werden.
In der einschlägigen Fachliteratur wurden Vorhersagen bezüglich der magnetischen Struktur der TMO-Ketten publiziert, wonach entlang und zwischen CoO2-Ketten eine ferromagnetische (FM) und für FeO2 und MnO2-Ketten eine antiferromagnetische (AFM-) Kopplung vorliegt.Während die Überprüfung dieser Vorhersagen mit SP-STM für CoO2 und CrO2-Ketten keine Hinweise auf magnetische Strukturen liefert, liegen bei FeO2 und MnO2-Ketten unterschiedliche magnetische Phasen vor. In der Tat kann
mit den experimentell gefundenen Einheitszellen die AFM-Kopplung entlang beider Ketten bestätigt werden. Im Gegensatz widersprechen die Kopplungen zwischen den Ketten den Berechnungen. Bei FeO2-Ketten liegt eine stabile FM Ordnung vor, die zu einer magnetischen (3 × 2) Einheitszelle mit einer leichten Magnetisierung in Richtung der Oberflächennormalen führt (out-of-plane). Die MnO2-Ketten weichen ebenfalls von der berechneten magnetischen kollinearen Ordnung zwischen benachbarten Ketten ab und zeigen eine chirale Struktur. Durch die Rotation der Mn-Spins um 120° in der Probenebenen (in-plane) entsteht eine magnetische (9 × 2) Einheitszelle, deren Periode durch neue DFT-Rechnungen bestätigt wird. Nach diesen Berechnungen handelt es sich um eine Spinspirale, die durch die Dzyaloshinskii-Moriya (DM-) Wechselwirkung bei einem Energiegewinn von 0,3 meV pro Mn-Atom gegenüber den kollinearen FM Zustand stabilisiert wird. Diese wird ähnlich wie bei bereits publizierten Clustern und Adatomen auf Pt(111) durch die Rudermann-Kittel-Kasuya-Yosida (RKKY-) Wechselwirkung vermittelt und erklärt den experimentell gefundenen einheitlichen Drehsinn der Spiralen.
Die RKKY-Wechselwirkung zeigt eine starke Abhängigkeit von der Fermi-Oberfläche des Substrats. Im folgenden Kapitel werden deshalb mit TMO-Ketten auf Pt(001) die strukturellen und magnetischen Eigenschaften auf einem weiteren Substrat analysiert, wobei zum Zeitpunkt der Arbeit nur die Existenz der CoO2-Ketten aus der Literatur bekannt war. Vergleichbar mit Ir(001) besitzt auch Pt(001) eine rekonstruierte Oberfläche, die sich aber stabil gegenüber Oxidation zeigt. Dadurch muss die drittel ML des Übergangsmetalls direkt auf die Rekonstruktion aufgedampft werden. Das Wachstum des Übergangsmetalls ist dabei von der Temperatur des Substrats abhängig und beeinflusst
das Ergebnis der nachfolgenden Oxidation. Diese erfolgt analog zum Wachstum der Ketten auf Ir(001) durch das Heizen der Probe in Sauerstoffatmosphäre und resultiert nur für das Aufdampfen des Übergangsmetalls auf kalte Pt(001) Oberflächen in Ketten mit der Periode von 3aPt. Auf diese Weise kann nicht nur die (3 × 1) Struktur der CoO2-Ketten bestätigt werden, sondern auch durch atomare Auflösung die Gruppe der TMO-Ketten um MnO2-Ketten auf Pt(001) erweitert werden. Im Gegensatz dazu sind die nicht magnetischen Messungen im Fall von Fe nicht eindeutig. Zwar liegen
auch hier Ketten im Abstand des dreifachen Pt Gittervektors vor, trotzdem ist die (3 × 1) Struktur nicht nachweisbar. Dies liegt an einer Korrugation mit einer Periode von 2aPt entlang der Ketten, was ein Hinweis auf eine Peierls Instabilität sein kann.
Entsprechend dem Vorgehen für Ir(001) werden für die TMO-Ketten auf Pt(001) SP-STM Messungen durchgeführt und die Vorhersage einer AFM-Kopplung für CoO2-Ketten überprüft. Auch hier können, wie im Fall von CoO2-Ketten und im Widerspruch zur Vorhersage, für beide Polarisationsrichtungen der Spitze keine magnetischen Strukturen gefunden werden. Darüber hinaus verhalten sich die MnO2-Ketten auf Pt(001) mit ihrer chiralen magnetischen Struktur ähnlich zu denen auf Ir(001). Dies bestätigt die Annahme einer indirekten DM-Wechselwirkung, wobei durch die 72° Rotation der Mn-Spins eine längere Periode der zykloidalen Spinspirale festgestellt wird. Die Erklärung dafür liegt in der Abhängigkeit der RKKY-Wechselwirkung vom Fermi-Wellenvektor des Substrats, während sich die DM-Wechselwirkung beim Übergang von Ir zu Pt nur wenig ändert.
The culture of human induced pluripotent stem cells (hiPSCs) at large-scale becomes feasible with the aid of scalable suspension setups in continuously stirred tank reactors (CSTRs). Suspension cul- tures of hiPSCs are characterized by the self-aggregation of single cells into macroscopic cell aggre- gates that increase in size over time. The development of these free-floating aggregates is dependent on the culture vessel and thus represents a novel process parameter that is of particular interest for hiPSC suspension culture scaling. Further, aggregates surpassing a critical size are prone to spon- taneous differentiation or cell viability loss. In this regard, and, for the first time, a hiPSC-specific suspension culture unit was developed that utilizes in situ microscope imaging to monitor and to characterize hiPSC aggregation in one specific CSTR setup to a statistically significant degree while omitting the need for error-prone and time-intensive sampling. For this purpose, a small-scale CSTR system was designed and fabricated by fused deposition modeling (FDM) using an in-house 3D- printer. To provide a suitable cell culture environment for the CSTR system and in situ microscope, a custom-built incubator was constructed to accommodate all culture vessels and process control devices. Prior to manufacture, the CSTR design was characterized in silico for standard engineering parameters such as the specific power input, mixing time, and shear stress using computational fluid dynamics (CFD) simulations. The established computational model was successfully validated by comparing CFD-derived mixing time data to manual measurements. Proof for system functionality was provided in the context of long-term expansion (4 passages) of hiPSCs. Thereby, hiPSC aggregate size development was successfully tracked by in situ imaging of CSTR suspensions and subsequent automated image processing. Further, the suitability of the developed hiPSC culture unit was proven by demonstrating the preservation of CSTR-cultured hiPSC pluripotency on RNA level by qRT-PCR and PluriTest, and on protein level by flow cytometry.
In this work, we elucidated recombination kinetics in organic and hybrid semiconductors by steady-state and time-resolved PL spectroscopy. Using these simple and very flexible experimental techniques, we probed the infrared emission from recombining free charge carriers in metal–halide perovskites, as well as the deep blue luminescence from intramolecular charge-transfer states in novel OLED emitters. We showed that similar state diagrams and kinetic models accurately describe the dynamics of excited species in these very different material systems.
In Chapters 4 and 5, we focused on lead iodide perovskites (MAPI and FAPI), whose comparatively developed deposition techniques suited the systematic material research. In MAPI, we harnessed the anomalous dependence of transient PL on the laser repetition rate in order to investigate the role of interfaces with the commonly used charge-selective layers: PC60BM, spiro-MeOTAD, and P3HT. The film was deposited on a large precut substrate and separated into several parts, which were then covered with the charge-selective layers. Thereby, the same bulk perovskite structure was maintained for all samples. Consequently, we were able to isolate interface-affected and bulk carrier recombination. The first one dominated the fast component of PL decay up to 300 ns, whereas the last was assigned to the remaining slow component. The laser repetition rate significantly prolonged PL decay in MAPI with additional interfaces while shortening the charge carrier lifetime in the pristine film. We qualitatively explained this effect by a kinetic model that included radiative electron–hole recombination and nonradiative trap-assisted recombination. All in all, we showed that the apparent PL lifetime in MAPI is to large extend defined by the laser repetition rate and by the adjacent interfaces.
Further, we studied photon recycling in MAPI and FAPI. We monitored how the microscopic PL transforms while propagating through the thin perovskite film. The emission was recorded within 5orders of magnitude in intensity up to 70μm away from the excitation spot. The Beer–Lambert law previously failed to describe the complex interplay of the intrinsic PL spectrum and the additional red-shifted peak. Therefore, we developed a general numerical model that accounts for self-absorption and diffusion of the secondary charge carriers. A simulation based on this model showed excellent agreement with the experimental spatially resolved PL maps. The proposed model can be applied to any perovskite film, because it uses easily measurable intrinsic PL spectrum and macroscopic absorption coefficient as seeding parameters.
In Chapter 6, we conducted an extensive photophysical study of a novel compact deep blue OLED emitter, SBABz4, containing spiro-biacridine and benzonitrile units. We also considered its single-donor monomer counterpart, DMABz4, in order to highlight the structure–property relationships. Both compounds exhibited thermally activated delayed fluorescence (TADF), which was independently proven by oxygen quenching and temperature-dependent transient PL measurements. The spiro-linkage in the double-donor core of SBABz4 rendered its luminescence pure blue compared to the blue-green emission from the single-donor DMABz4. Thus, the core-donor provided desirable color tuning in the deep blue region, as opposed to the common TADF molecular design with core-acceptor. Using PL lifetimes and efficiencies, we predicted EQEmax = 7.1% for SBABz4-based OLED, whereas a real test device showed EQEmax = 6.8%. Transient PL was recorded from the solutions and solid films in the unprecedentedly broad dynamic range covering up to 6orders of magnitude in time and 8orders of magnitude in intensity. The stretched exponent was shown to fit the transient PL in the films very well, whereas PL decay in dilute solution was found purely exponential. When the emitter was embedded in the host matrix that prevented aggregation, its TADF properties were superior in comparison with the pure SBABz4 film. Finally, using temperature-dependent transient PL data, we calculated the TADF activation energy of 70 meV.
To sum up, this Thesis contributes to the two fascinating topics of the last decade’s material research: perovskite absorbers for photovoltaics and TADF emitters for OLEDs. We were lucky to work with the emerging systems and tailor for them new models out of the well-known physical concepts. This was both exciting and challenging. In the end, science of novel materials is always a mess. We hope that we brought there a bit of clarity and light.
Supramolecular Block Copolymers by Seeded Living Supramolecular Polymerization of Perylene Bisimides
(2019)
The research on supramolecular polymerization has undergone a rapid development in the last two decades, particularly since supramolecular polymers exhibit a broad variety of functionalities and applications in organic electronics, biological science or as functional materials (Chapter 2.1). Although former studies have focused on investigation of the thermodynamics of supramolecular polymerization (Chapter 2.2), the academic interest in the recent years shifted towards gaining insight into kinetically controlled self-assembly and pathway complexity to generate novel out-of-equilibrium architectures with interesting nanostructures and features (Chapter 2.3). Along this path, the concepts of seeded and living supramolecular polymerization were recently developed to enable the formation of supramolecular polymers with controlled length and low polydispersity under precise kinetic control (Chapter 2.4). Besides that, novel strategies were developed to achieve supramolecular copolymerization resulting in complex multicomponent nanostructures with different structural motives. The classification of these supramolecular copolymers on the basis of literature examples and an overview of previously reported principles to create such supramolecular architectures are provided in Chapter 2.5.
The aim of the thesis was the non-covalent synthesis of highly desirable supramolecular block copolymers by the approach of living seeded supramolecular polymerization and to study the impact of the molecular shape of the monomeric building blocks on the supramolecular copolymerization. Based on the structure of the previously investigated PBI organogelator H-PBI a series of novel PBIs, bearing identical hydrogen-bonding amide side-groups in imide-position and various kind or number of substituents in bay-position, was synthesized and analyzed within this thesis. The new PBIs were successfully obtained in three steps starting from the respective bromo-substituted perylene-3,4:9,10-tetracarboxylic acid tetrabutylesters or from the N,N’-dicyclohexyl-1,7-dibromoperylene-3,4:9,10-tetracarboxylic acid bisimide. All target compounds were obtained in the final step by imidization reactions of the respective perylene tetracarboxylic acid bisanhydride precursors with N-(2-aminoethyl)-3,4,5-tris(dodecyloxy)-benzamide and were fully characterized by 1H and 13C NMR spectroscopy as well as high resolution mass spectrometry.
The variation of bay-substituents strongly changes the optical properties of the monomeric PBIs which were investigated by UV/vis and fluorescence spectroscopy. The increase of the number of the methoxy-substituents provokes, for example, a red-shift of the absorption maxima concomitant with a decrease of extinction coefficients and leads to a drastic increase of the fluorescence quantum yields. Furthermore, the molecular geometry of the PBIs is also affected by variations of the bay-substituents. Thus, increasing the steric demand of the bay-substituents leads to an enlargement of the twist angles of the PBI cores as revealed by DFT calculations.
Especially the 1,7-dimethoxy bay-substituted MeO-PBI proved to be very well-suited for the studies envisioned within this thesis. The self-assembly of this PBI derivative was analyzed in detail by UV/vis, fluorescence and FT-IR spectroscopy as well as atomic force microscopy (Chapter 3). These studies revealed that MeO-PBI forms in a solvent mixture of methylcyclohexane and toluene (2:1, v/v) kinetically trapped off-pathway H-aggregated nanoparticles upon fast cooling of a monomeric solution from 90 to 20 °C. However, upon slow cooling of the monomer solution fluorescent J-type nanofibers are formed by π π interactions and intermolecular hydrogen-bonding.
The kinetically metastable off-pathway H-aggregates can be transformed into the thermodynamically more favored J-type aggregates by addition of seeds, which are produced by ultrasonication of the polymeric nanofibers. Interestingly, the living character of this seed-induced supramolecular polymerization process was proven by a newly designed multicycle polymerization experimental protocol. This living polymerization experiment clearly proves, that the polymerization can only occur at the “active” ends of the polymeric seed and that almost no recombination or chain termination processes are present. Hence, the approach of living supramolecular polymerization enables the formation of supramolecular polymers with controlled length and narrow polydispersity.
In Chapter 4 the copolymerization of MeO-PBI with the structurally similar 1,7-dichloro (Cl-PBI) and 1,7-dimethylthio (MeS-PBI) bay-substituted PBIs is studied in detail. Both PBIs form analogous to MeO-PBI kinetically trapped off-pathway aggregates, which can be converted into the thermodynamically stable supramolecular polymers by seed-induced living supramolecular polymerization under precise kinetic control. However, the stability of the kinetically trapped aggregates of Cl-PBI and MeS-PBI is distinctly reduced compared to that of MeO-PBI, because the π-π-interactions of the kinetically metastable aggregates are hampered through the increased twisting of the PBI-cores of the former PBIs. UV/vis studies revealed that the two-component seeded copolymerization of the kinetically trapped state of MeO-PBI with seeds of Cl-PBI leads to the formation of unprecedented supramolecular block copolymers with A-B-A pattern by a living supramolecular polymerization process at the termini of the seeds. Remarkably, the resulting A-B-A block pattern of the obtained copolymers was clearly confirmed by atomic force microscopy studies as the respective blocks formed by the individual monomeric units could be distinguished by the pitches of the helical nanofibers.
Moreover, detailed UV/vis and AFM studies have shown that by inverted two-component seed-induced polymerization, e.g., upon addition of seeds of MeO-PBI to the kinetically trapped aggregates of Cl-PBI, triblock supramolecular copolymers with B-A-B pattern can be generated. The switching of the block pattern could only be achieved because of the perfectly matching conditions for the copolymerization process and the tailored molecular geometry of the individual building blocks of both PBIs. These studies have demonstrated for the first time, that the block pattern of a supramolecular copolymer can be modulated by the experimental protocol through the approach of living supramolecular polymerization. Furthermore, by UV/vis analysis of the living copolymerization of MeO-PBI and MeS-PBI similar results were obtained showing also the formation of both A-B-A and B-A-B type supramolecular block copolymers. Although for these two PBIs the individual blocks could not be identified by AFM because the helical nanofibers of both PBIs exhibit identical helical pitches, these studies revealed for the first time that the approach of seeded living polymerization is not limited to a special pair of monomeric building blocks.
In the last part of the thesis (Chapter 5) a systematic study on the two-component living copolymerization of PBIs with various sterical demanding bay-substituents is provided. Thus, a series of PBIs containing identical hydrogen-bonding amide groups in imide position but variable number (1-MeO-PBI, MeO-PBI, 1,6,7-MeO-PBI, 1,6,7,12-MeO-PBI) or size (EtO-PBI, iPrO-PBI) of alkoxy bay-substituents was investigated. The molecular geometry of the monomeric building blocks has a strong impact on the thermodynamically and even more pronounced on the kinetically controlled aggregation in solvent mixtures of MCH and Tol. While the mono- and dialkoxy-substituted PBIs form kinetically metastable species, the self-assembly of the tri- and tetramethoxy-substituted PBIs (1,6,7-MeO-PBI and 1,6,7,12-MeO-PBI) is completely thermodynamically controlled. The two 1,7-alkoxy substituted PBIs (EtO-PBI, iPrO-PBI) form very similar to MeO-PBI kinetically off-pathway H-aggregates and thermodynamically more favored J-type aggregates. However, the stability of the kinetically metastable state is drastically lower and the conversion into the thermodynamically favored state much faster than for MeO-PBI. In contrast, the monomethoxy-substituted PBI derivative (1-MeO-PBI) forms a kinetically trapped species by intramolecular hydrogen-bonding of the monomers, which can be transformed into the thermodynamically favored nanofibers by seeded polymerization.
Importantly, the two-component seeded copolymerization of the kinetically trapped MeO PBI with seeds of other PBIs of the present series was studied by UV/vis and AFM revealing that the formation of supramolecular block copolymers is only possible for appropriate combinations of PBI building blocks. Thus, the seeded polymerization of the trapped state of the moderately core-twisted MeO-PBI with the, according to DFT-calculations, structurally similar PBIs (EtO-PBI and iPrO-PBI) leads to the formation of A-B-A block copolymers, like in the seeded copolymerization of MeO-PBItrapped with seeds of Cl-PBI and MeS-PBI already described in Chapter 4. However, by addition of seeds of the almost planar PBIs (H-PBI and 1-MeO-PBI) or seeds of the strongly core-twisted PBIs (1,6,7-MeO-PBI and 1,6,7,12-MeO-PBI) to the kinetically trapped state of MeO-PBI no block copolymers can be obtained. The mismatching geometry of these molecular building blocks strongly hampers both the intermolecular hydrogen-bonding and the π-π-interactions between the two different PBIs and consequently prevents the copolymerization process.
Furthermore, the studies of the two-component seeded copolymerization of the kinetically trapped species of 1-MeO-PBI with seeds of the other PBIs also corroborated that a precise shape complementarity is crucial to generate supramolecular block copolymers. Thus, by addition of seeds of H-PBI to the kinetically trapped monomers of 1-MeO-PBI supramolecular block copolymers were generated. Both PBIs exhibit an almost planar PBI core according to DFT-calculations leading to strong non-covalent interactions between these PBIs. This perfectly matching geometry of both PBIs also enables the inverted seeded copolymerization of the kinetically trapped monomers of H-PBI with 1-MeO-PBIseed concomitant with a switching of the block pattern of the supramolecular copolymer from A-B-A to B-A-B type. In contrast, the seeding with the moderately twisted (MeO-PBI, EtO-PBI and iPrO-PBI) and the strongly twisted PBIs (1,6,7-MeO-PBI and 1,6,7,12 MeO-PBI) has no effect on the kinetically trapped state of 1-MeO-PBI, because the copolymerization of these PBIs is prevented by the mismatching geometry of the molecular building blocks.
In conclusion, the supramolecular polymerization and two-component seeded copolymerization of a series of PBI monomers was investigated within this thesis. The studies revealed that the thermodynamically and kinetically controlled self-assembly can be strongly modified by subtle changes of the monomeric building blocks. Moreover, the results have shown that living supramolecular polymerization is an exceedingly powerful method to generate unprecedented supramolecular polymeric nanostructures with controlled block pattern and length distribution. The formation of supramolecular block copolymers can only be achieved under precise kinetic control of the polymerization process and is strongly governed by the shape complementarity already imparted in the individual components. Thus, these insightful studies might enable a more rational design of monomeric building blocks for the non-covalent synthesis of highly complex supramolecular architectures with interesting properties for possible future applications, e.g., as novel functional materials.
Articular cartilage lesions that occur upon intensive sport, trauma or degenerative disease represent a severe therapeutic problem. At present, osteoarthritis is the most common joint disease worldwide, affecting around 10% of men and 18% of women over 60 years of age (302). The poor self-regeneration capacity of cartilage and the lack of efficient therapeutic treatment options to regenerate durable articular cartilage tissue, provide the rationale for the development of new treatment options based on cartilage tissue engineering approaches (281). The integrated use of cells, biomaterials and growth factors to guide tissue development has the potential to provide functional substitutes of lost or damaged tissues (2,3). For the regeneration of cartilage, the availability of mesenchymal stromal cells (MSCs) or their recruitment into the defect site is fundamental (281). Due to their high proliferation capacity, the possibility to differentiate into chondrocytes and their potential to attract other progenitor cells into the defect site, bone marrow-derived mesenchymal stromal cells (BMSCs) are still regarded as an attractive cell source for cartilage tissue engineering (80). However, in order to successfully engineer cartilage tissue, a better understanding of basic principles of developmental processes and microenvironmental cues that guide chondrogenesis is required.
Die Einhaltung eines gesunden Lebensstils, einschließlich der Behandlung modifizierbarer kardiovaskulärer Risikofaktoren, beeinflusst maßgeblich die Entstehung und Progression von Herz-Kreislauf-Erkrankungen (HKE). So reduziert eine ausgewogene Ernährungsweise, ausreichend körperliche Aktivität, Tabakverzicht, das Halten des Normalgewichtes sowie die Behandlung einer Hypertonie, Hyperlipidämie und Diabetes mellitus, die kardiovaskuläre Morbidität und Mortalität.
Die vorliegende Arbeit widmet sich (a) der Prävalenz und leitliniengerechten Kontrolle kardiovaskulärer Risikofaktoren von Teilnehmern aus der Allgemeinbevölkerung der STAAB Kohortenstudie („Häufigkeit und Einflussfaktoren auf frühe Stadien A und B der Herzinsuffizienz in der Bevölkerung“) sowie der Schätzung des 10-Jahres Risikos für tödliche HKE in diesem Kollektiv. Weiterhin wurde (b) der Einfluss von medikamentenbezogenen Überzeugungen auf die Blutdruckkontrolle von Teilnehmern der STAAB Kohortenstudie untersucht. Schließlich wurde (c) der Erhalt von ärztlichen Lebensstilempfehlungen sowie deren Determinanten bei Teilnehmern der STAAB Kohortenstudie sowie der EUROASPIRE IV Studie („European Action on Secondary and Primary Prevention by Intervention to Reduce
Events“) in Deutschland betrachtet.
Die STAAB Kohortenstudie untersucht die frühen asymptomatischen Formen der Herzinsuffizienz-Stadien A und B in einer repräsentativen Stichprobe von 5.000 Personen
ohne symptomatische Herzinsuffizienz im Alter von 30 bis 79 Jahren aus der Allgemeinbevölkerung mit Wohnsitz in der Stadt Würzburg.
Die EUROASPIRE IV Studie untersuchte bei 7.998 Koronarpatienten im Alter von 18 bis 79
Jahren aus insgesamt 24 Europäischen Ländern (536 Patienten aus Deutschland) im Zeitraum 2012 bis 2013 die Risikofaktoren sowie die Umsetzung der leitliniengerechten Versorgung und Prävention von HKE im europäischen Vergleich. Die Datenerhebung beider Studien erfolgte durch ein geschultes Studienpersonal nach standardisierten Vorgaben.
Die Prävalenz und Kontrolle kardiovaskulärer Risikofaktoren nach den aktuellen Vorgaben der „European Society of Cardiology“ (ESC) wurde bei insgesamt 1.379 Teilnehmern, die zwischen Dezember 2013 und April 2015 an der STAAB Kohortenstudie teilgenommen haben, untersucht. Es zeigte sich eine hohe Prävalenz der kardiovaskulären Risikofaktoren Hypertonie (31.8%), Hyperlipidämie (57.6%) und Diabetes mellitus (3.5%). Hierbei erreichten
trotz Pharmakotherapie über die Hälfte der Teilnehmer mit einem Bluthochdruck (52.7%) oder erhöhten LDL-Cholesterinwerten (56.7%) sowie 44.0% der Personen mit einem Diabetes mellitus die empfohlenen Grenzwerte nicht. Weiterhin wurde erstmalig zu Studienbesuch eine Hypertonie (36.0%), Hyperlipidämie (54.2%) oder ein Langzeitzuckerwert (HbA1c) >6.5% (23.3%) detektiert. In der jüngsten Altersgruppe (30-39 Jahre) fand sich der höchste Anteil von unbekanntem Bluthochdruck (76.5%) sowie hohem LDL-Cholesterin (78.0%) und die Altersgruppe 60-69 Jahren wies mit 43.5% die höchste Prävalenz für einen bislang nicht detektierten HbA1c >6.5% auf. Die Akkumulation von drei oder mehr kardiovaskulären Risikofaktoren war mit dem männlichen Geschlecht, einem höheren Alter und einem niedrigeren Bildungsgrad assoziiert. Von 980 mittels SCORE („Systematic Coronary Risk Evaluation“) Risiko-Chart untersuchten Teilnehmern befanden sich jeweils 56.6%, 35.8% und 7.5% in der niedrigen, mittleren und hohen bis sehr hohen SCORE-Risikogruppe für tödliche HKE. Das Hochrisiko-Kollektiv für tödliche HKE war vorwiegend männlich und wies häufiger eine Hypertonie oder ein hohes LDL-Cholesterin auf.
Der Einfluss von Überzeugungen gegenüber antihypertensiver Medikation auf die Blutdruckkontrolle wurde an 293 Teilnehmern, die von Oktober 2014 bis März 2017 an der STAAB Kohortenstudie teilgenommen haben, untersucht. Auf ihre Medikamente gesundheitlich angewiesen zu sein gaben 87% der Teilnehmer an, 78.1% stimmten der Aussage zu, dass ihre Medikamente sie vor einer Verschlechterung ihrer Gesundheit schützen. Es zeigte sich ein inverser Zusammenhang zwischen einem höheren Maß an Bedenken gegenüber der verordneten blutdrucksenkenden Medikation und einer besseren Blutdruckkontrolle bei Frauen. Ein signifikanter Zusammenhang zwischen Bedenken gegenüber einer antihypertensiven Medikation und der Blutdruckkontrolle bei Männern ließ sich hingegen nicht feststellen. Es konnten keine statistisch signifikanten Assoziationen für die Notwendigkeit von Medikation in der vorliegen Untersuchung gezeigt werden.
Die Häufigkeit und Determinanten für die Empfehlung eines ärztlichen Lebensstils wurde bei 665 Teilnehmern der STAAB Kohortenstudie ohne vorbestehende HKE (Primärprävention) und bei 536 Koronarpatienten der EUROASPIRE IV Studie (Sekundärprävention) untersucht.
Mit Ausnahme der Empfehlung zum Rauchverzicht erhielten die Patienten der EUROASPIRE IV Studie häufiger ärztliche Lebensstilempfehlungen verglichen mit Teilnehmern der STAAB Kohortenstudie: (Rauchverzicht: STAAB 44.0%, EUROASPIRE 36.7%; Gewichtsreduktion: STAAB 43.9%, EUROASPIRE 69.2%; körperliche Aktivität steigern: STAAB 52.1%, EUROASPIRE 71.4%; gesundes Ernährungsverhalten: STAAB 43.9%, EUROASPIRE 73.1%). Die Chance für den Erhalt von mindestens 50% aufgrund der individuellen Risikofaktoren adäquaten ärztlichen Lebensstilempfehlungen war bei STAAB Teilnehmern mit offensichtlichen oder beobachtbaren kardiovaskulären Risikofaktoren signifikant erhöht (BMI >25kg/m2, Hypertonie, Hyperlipidämie und Diabetes mellitus).
Hingegen erhielten Patienten mit einer vorbestehenden HKE signifikant häufiger eine ärztliche Lebensstilempfehlung bei einem Diabetes mellitus, wobei die Empfehlungshäufigkeit mit zunehmendem Alter abnahm. Die weitergehende nicht publizierte Analyse des Interaktions
Modells zeigte, dass der Zusammenhang zwischen dem Alter und der Empfehlungshäufigkeit bei Patienten mit bereits bestehender HKE stärker ausgeprägt war, als bei Teilnehmern der STAAB Kohortenstudie ohne koronare HKE. Weiterhin war der Zusammenhang zwischen einer adäquaten Lebensstilempfehlung und Hyperlipidämie bei Teilnehmern ohne koronares Ereignis signifikant stärker ausgeprägt, im Vergleich zu Patienten mit einer bereits bestehender HKE.
Die Ergebnisse zeigten ein erhebliches Potenzial für eine verbesserte Umsetzung leitliniengerechter Behandlung modifizierbarer kardiovaskulärer Risikofaktoren in der Primär- und Sekundärprävention. Vor dem Hintergrund einer hohen Anzahl kardiovaskulärer Risikofaktoren bei jungen Erwachsenen sollte die Bedeutung der Langzeitfolgen im Arzt
Patienten-Gespräch hervorgehoben und bei der Erarbeitung von Präventionsstrategien, insbesondere für junge Altersgruppen, Beachtung finden. Geschlechtsspezifische
Determinanten hinsichtlich der Kontrolle kardiovaskulärer Risikofaktoren sowie Befürchtungen gegenüber der Medikation sollten stärker im Arzt-Patientengespräch berücksichtigt werden.
Zur Stärkung der Compliance des Patienten bei der Umsetzung eines gesunden Lebensstils,
sollte der Arzt hinsichtlich der Bedeutung von Lebensstilintervention, aber auch im Umgang mit schwierigen Situationen, wie die Empfehlung einer Gewichtsreduktion, sensibilisiert und bei der richtigen Handhabung der Leitlinienempfehlung stärker unterstützt werden.
Ziel der vorliegenden Arbeit war es, die Biokompatibilität von Kollagen I-basierten ACL-Konstrukten in-vitro und in-vivo zu überprüfen. Zudem erfolgte eine histologische Charakterisierung der Konstrukte nach sechswöchiger bzw. sechsmonatiger Versuchslaufzeit im Minipig-Tiermodell.
Das Kollagen I wurde durch eine neuartige Methode aus Rattenschwänzen isoliert und zu einem Implantat geknotet und gewickelt. Die Fasern wurden mittels Proliferationsmessung, Proteinbestimmung, Zellzählung und Zellmorphologie auf in-vitro-Biokompatibilität getestet. Hier zeigte sich eine gute Biokompatibilität sowohl für γ-sterilisierte Fasern als auch für nicht sterilisierte Fasern. In der Sterilitätsüberprüfung waren nach Anpassung des Sterilisationsverfahrens weder Bakterien- noch Pilzwachstum nachweisbar. Diese Ergebnisse sind vergleichbar mit vielfältigen Studien zur Biokompatibilität von Kollagen, in denen jeweils gute Zellviabilität und –proliferation im direkten oder indirekten Kontakt mit Kollagen gezeigt werden konnte.
Anschließend wurde das Konstrukt im Tierversuch direkt im Kniegelenk als vorderer Kreuzbandersatz implantiert. Nach Ablauf der Standzeit und Explantation der Kniegelenke wurden Paraffinschnittpräparate der Implantate sowie Paraffinschnittpräparate und Kunststoffschnittpräparate der ossa femora angefertigt und durchlichtmikroskopisch deskriptiv ausgewertet. Zusätzlich wurden die immunhistochemischen Färbungen Kollagen I des Schweins und der Ratte und Faktor VIII angefertigt, wobei in der Faktor VIII-Färbung zusätzlich eine quantitative Auswertung der Gefäßzahl vorgenommen wurde. Es wurde in der Kollagenfärbung ein Ersatz des Rattenkollagens durch das Schweinekollagen einhergehend mit einer hohen Zellzahl gezeigt. Eine synoviale Deckschicht und eine fortschreitende Vaskularisierung, sowie Form und Anordnung der Zellen zeigten Vorgänge des Remodeling. Innerhalb von 6 Monaten nahm die Vaskularisierung zu und neu gebildeter Geflechtknochen verengte die Bohrkanäle. Die Knochen-Implantat-Heilung war im Bohrkanal durch Sharpey´sche Fasern gekennzeichnet. Am Tunnelausgang fanden sich von sechs Wochen zu sechs Monaten Hinweise auf die fortschreitende Entwicklung einer direkten Bandinsertion.
Diese Ergebnisse entsprechen weitgehend den in der Literatur beschriebenen Remodelingvorgängen bei Studien zum Thema Kreuzbandersatz. Die beginnende direkte Bandinsertion spricht für eine gute Fixation und die Einheilung begünstigende Eigenschaften des Implantates. Dies ist ein geeigneter Ansatz für weitere Untersuchungen. Von Seiten der Biokompatibilität und der Integration des Gewebes ist das Implantat zum Kreuzbandersatz geeignet. Es bleibt abzuwarten, inwieweit die erforderlichen mechanischen Eigenschaften erreicht werden können.
Aim of this thesis was the development of functionalizable hydrogel coatings for melt electrowritten PCL scaffolds and of bioprintable hydrogels for biofabrication.
Hydrogel coatings of melt electrowritten scaffolds enabled to control the surface hydrophilicity, thereby allowing cell-material interaction studies of biofunctionalized scaffolds in minimal protein adhesive environments. For this purpose, a hydrophilic star- shaped crosslinkable polymer was used and the coating conditions were optimized. Moreover, newly developed photosensitive scaffolds facilitated a time and pH independent biofunctionalization.
Bioprintable hydrogels for biofabrication were based on the allyl-functionalization of gelatin (GelAGE) and modified hyaluronic acid-products, to enable hydrogel crosslinking by means of the thiol-ene click chemistry. Optimization of GelAGE hydrogel properties was achieved through an in-depth analysis of the synthesis parameters, varying Ene:SH ratios, different crosslinking molecules and photoinitiators. Homogeneity of thiol-ene crosslinked networks was compared to free radical polymerized hydrogels and the applicability of GelAGE as bioink for extrusion-based bioprinting was investigated. Purely hyaluronic acid-based bioinks were hypothesized to maintain mechanical- and rheological properties, cell viabilities and the processability, upon further decreasing the overall hydrogel polymer and thiol content.
Hydrogel coatings: Highly structured PCL scaffolds were fabricated with MEW and subjected to coatings with six-armed star-shaped crosslinkable polymers (sP(EO-stat-PO)). Crosslinking results from the aqueous induced hydrolysis of reactive isocyanate groups (NCO) of sP(EO-stat-PO) and increased the surface hydrophilicity and provided a platform for biofunctionalizations in minimal protein adhesive environments. Not only the coating procedure was optimized with respect to sP(EO-stat-PO) concentrations and coating durations, instead scaffold pre-treatments were developed, which were fundamental to enhance the final hydrophilicity to completely avoid unspecific protein adsorption on sP(EO-stat-PO) coated scaffolds. The sP(EO-stat-PO) layer thickness of around 100 nm generally allows in vitro studies not only in dependence on the scaffold biofunctionalization but also on the scaffold architecture. The hydrogel coating extent was assessed via an indirect quantification of the NCO-hydrolysis products. Knowledge of NCO-hydrolysis kinetics enabled to achieve a balance of sufficiently coated scaffolds while maintaining the presence of NCO-groups that were exploited for subsequent biofunctionalizations. However, this time and pH dependent biofunctionalization was restricted to small biomolecules. In order to overcome this limitation and to couple high molecular weight biomolecules another reaction route was developed. This route was based on the photolysis of diazirine moieties and enabled a time and pH independent scaffold biofunctionalization with streptavidin and collagen type I. The fibril formation ability of collagen was used to obtain different collagen conformations on the scaffolds and a preliminary in vitro study demonstrated the applicability to investigate cell-material interactions.
The herein developed scaffolds could be applied to gain deeper insights into the fundamentals of cellular sensing. Especially the complexity by which cells sense e.g. collagen remain to be further elucidated. Therefore, different hierarchies of collagen-like conformations could be coupled to the scaffolds, e.g. gelatin or collagen-derived peptide sequences, and the activation of DDR receptors in dependence on the complexity of the coupled substances could be determined. Due to the strong streptavidin-biotin bond, streptavidin functionalized scaffolds could be applied as a versatile platform to allow immobilization of any biotinylated molecules.
Gelatin-based bioinks: First the GelAGE products were synthesized with respect to molecular weight distributions and amino acid composition integrity. A detailed study was conducted with varying molar ratios of reactants and synthesis durations and implied that gelatin degradation was most dominant for high alkaline synthesis conditions with long reaction times. Gelatin possesses multiple functionalizable groups and the predominant functionalization of amine groups was confirmed via different model substances and analyses. Polymer network homogeneity was proven for the GelAGE system compared to free radical polymerized hydrogels with GelMA. A detailed analysis of hydrogel compositions with varying functional group ratios and UV- or Vis-light photoinitiators was executed. The UV-initiator concentration is restricted due to cytotoxicity and potential cellular DNA damages upon UV-irradiation, whereas the more cytocompatible Vis- initiator system enabled mechanical stiffness tuning over a wide range by controlling the photoinitiator concentration at constant Ene:SH ratios and polymer weight percentages. Versatility of the GelAGE bioink for different AM techniques was proved by exploiting the thermo-gelling behavior of differently degraded GelAGE products for stereolithography and extrusion-based printing. Moreover, the viability of cell-laden GelAGE constructs was demonstrated for extrusion-based bioprinting. By applying different multifunctional thiol-macromolecular crosslinkers the mechanical and rheological properties improved concurrently to the processability. Importantly, lower thiol-crosslinker concentrations were required to yield superior mechanical strengths and physico-chemical properties of the hydrogels as compared to the small bis-thiol-crosslinker. Extrusion-based bioprinting with distinct encapsulated cells underlined the need for individual optimization of cell-laden hydrogel formulations.
Not only the viability of encapsulated cells in extrusion-based bioprinted constructs should be assessed, instead other parameters such as cell morphology or production of collagen or glycosaminoglycans should be considered as these represent some of the crucial prerequisites for cartilage Tissue Engineering applications. Moreover, these studies should be expanded to the stereolithographic approach and ultimately the versatility and cytocompatibility of formulations with macromolecular crosslinkers would be of interest. Macromolecular crosslinkers allowed reducing polymer weight percentages and amounts of thiol groups and are thus expected to contribute to increased cytocompatibility, especially in combination with the more cytocompatible Vis-initiator system, which remains to be elucidated.
Hyaluronic acid-based bioinks: Different molecular weight hyaluronic acid (HA) products were synthesized to bear ene- (HAPA) or thiol-functionalities (LHASH) to enable pure HA thiol-ene crosslinked hydrogels. Depending on the molecular weight of modified HA products, polymer weight percentages and Ene:SH ratios, a wide range of mechanical stiffness was covered. However, the manageability of high molecular weight HA (HHAPA) product solutions (HHAPA + LHASH) was restricted to 5.0 wt.-% as a consequence of the high viscosity. Based on the same HA thiol component (LHASH), hybrid hydrogels of HA with GelAGE were compared to pure HA hydrogels. Although the overall polymer weight percentage of HHAPA + LHASH hydrogels was significantly lowered compared to hybrid hydrogels (GelAGE + LHASH), similar mechanical and physico-chemical properties of pure HA hydrogels were determined with maintained Ene:SH ratios. Low viscous low molecular weight HA precursor solutions (LHAPA + LHASH) prevented the applicability for extrusion-based bioprinting, whereas the non-thermoresponsive HHAPA + LHASH system could be bioprinted with only one-fourth of the polymer content of hybrid formulations. The high viscous behavior of HHAPA + LHASH solutions, lower polymer weight percentages, decreased printing pressures and consequently declined shear stress during printing, were hypothesized to contribute to high cell viabilities in extrusion-based bioprinted constructs compared to the hybrid bioink.
The low molecular weight HA precursor formulation (LHAPA + LHASH) was not applicable for extrusion-based printing, but this system has potential for other AM techniques such as stereolithography. Similar to the GelAGE system a more detailed study on the functions of encapsulated cells would be useful to further develop this system. Moreover, the initiation with the Vis-initiator should be conducted.
In dieser Dissertation wurden Unterschiede hinsichtlich der Fähigkeit zur Erfassung depressiver Symp¬to¬matik der drei Screeninginstrumente PHQ-2, ESAS-Dpr und DT im palliativ-onkologischen Kontext für den deutschsprachigen Raum untersucht. Ziel war es eine Empfehlung abzugeben, ob für das Screening nach depressiver Symptomatik, die Empfehlungen der kanadischen Guideline von Cancer Care Ontario oder die Empfehlungen der S3-Leitlinie Palliativmedizin anzuwenden sind. Weiterhin sollte die Frage geklärt werden, ob im deutschsprachigen Raum die Instrumente ESAS-Dpr und DT als äquivalente Instrumente verwendet werden können.
Die Ergebnisse der Hauptfragestellung dieser Dissertation demonstrieren die schwache Übereinstimmung von ESAS-Dpr mit den anderen Ultra-Kurz-Screening-Instrumenten PHQ-2 und DT. Dabei wurde zum ersten Mal ein Vergleich zwischen ESAS-Dpr und PHQ-2 durchgeführt und eine limitierte Screening-Fähigkeit von ESAS-Dpr bei palliativ erkrankten Patienten gemessen. Des Weiteren konnte in dieser Arbeit gezeigt werden, dass im vorliegenden Patientenkollektiv das DT und ESAS-Dpr keine ausreichende Übereinstimmung besitzen um im deutschen Raum synonym verwendet werden zu können. Die zugrundeliegende deutsche Übersetzung der englischen Begrifflichkeiten 'distress' als Belastung und 'depression' als Depression wurde als ausschlaggebend für dieses Ergebnis vermutet.
In der Zusammenschau der Ergebnisse dieser Studie entstand ein Algorithmus für das Erfassen von Depressivität bei palliativ-onkologisch erkrankten Erwachsenen im alltäglichen und praktischen Gebrauch.
Zahlreiche humanpathogene bakterielle Erreger können ihre Fähigkeit zur Kolonisation epithelialer Barrieren optimieren, indem sie mit dem Zellzyklus der infizierten Wirtszelle in Wechselwirkung treten und so die Abschilferung und Erneuerung des Epithels verzögern. Die hierbei wirksamen bakteriellen Effektoren sind als „Cyclomoduline“ bekannt und gelten als neue Klasse bakterieller Pathogenitätsfaktoren. Ziel der vorliegenden Promotionsarbeit war es zu untersuchen, ob durch die Infektion menschlicher pharyngealer Epithelzellen mit N. meningitidis der Zellzyklus der Wirtszelle beeinflusst wird. Mit zwei verschiedenen Untersuchungsmethoden konnte übereinstimmend gezeigt werden, dass die Infektion der Epithelzelllinie Detroit 562 mit verschiedenen Meningokokkenisolaten zu einer signifikanten Akkumulation von Epithelzellen in der G1-Phase führte. Dieser Effekt wurde sowohl von pathogenen Meningokokkenstämmen als auch von Trägerstämmen ausgelöst, jedoch nur durch Isolate, die fähig zur Adhärenz und zur Invasion in die Epithelzelle waren. Durch Hitzebehandlung der Bakterien konnte der Zellzyklusarrest vollständig aufgehoben werden. Ebenso konnte der Effekt durch Inkubation der Epithelzellen mit bakteriellen Kulturüberständen und durch Infektion der Zellen mit E. coli-Stämmen, welche die Meningokokkenadhäsine Opa und Opc überexprimieren, nicht ausgelöst werden.
Es konnte weiterhin nachgewiesen werden, dass die Infektion mit N. meningitidis in der Zielzelle zu einer signifikant gesteigerten Expression des CDK-Inhibitors p21WAF1/Cip1 führte, begleitet von einer vermehrten Lokalisation im Zellkern. Auch zeigte sich eine veränderte Proteinexpression der für die G1-Phase relevanten Cycline D und E. Diese scheint sich erst posttranslational zu ereignen, da die unterschiedliche Expression auf mRNA-Ebene nicht festgestellt werden konnte.
Zusammenfassend konnte dargestellt werden, dass die Infektion von Pharynxepithelzellen mit lebenden, zur Adhärenz und Invasion fähigen Meningokokkenstämmen in der menschlichen Zielzelle einen Zellzyklusarrest in der G1-Phase verursacht, vermutlich durch veränderte Expression der Zellzyklusregulatoren p21WAF1/Cip1, Cyclin D und Cyclin E. Möglicherweise stellt die Induktion dieses Zellzyklusarrestes einen wichtigen Schritt in der Pathogenese der bakteriellen Kolonisation des oberen Atemwegsepithels durch N. meningitidis dar.
Cancer remains after cardiovascular diseases the leading cause of death worldwide and an estimated 8.2 million people died of it in 2012. By 2030, 13 million cancer deaths are expected due to the growth and ageing of the population. Hereof, colorectal cancer (CRC) is the third most common cancer in men and the second in women with a wide geographical variation across the world. Usually, CRC begins as a non-cancerous growth leading to an adenomatous polyp, or adenoma, arising from glandular cells. Since research has brought about better understanding of the mechanisms of cancer development, novel treatments such as targeted therapy have emerged in the past decades. Despite that, up to 95% of anticancer drugs tested in clinical phase I trials do not attain a market authorisation and hence these high attrition rates remain a key challenge for the pharmaceutical industry, making drug development processes enormously costly and inefficient. Therefore, new preclinical in vitro models which can predict drug responses in vivo more precisely are urgently needed. Tissue engineering not only provides the possibility of creating artificial three-dimensional (3D) in vitro tissues, such as functional organs, but also enables the investigation of drug responses in pathological tissue models, that is, in 3D cancer models which are superior to conventional two-dimensional (2D) cell cultures on petri dishes and can overcome the limitations of animal models, thereby reducing the need for preclinical in vivo models. In this thesis, novel 3D CRC models on the basis of a decellularised intestinal matrix were established. In the first part, it could be shown that the cell line SW480 exhibited different characteristics when grown in a 3D environment from those in conventional 2D culture. While the cells showed a mesenchymal phenotype in 2D culture, they displayed a more pronounced epithelial character in the 3D model. By adding stromal cells (fibroblasts), the cancer cells changed their growth pattern and built tumour-like structures together with the fibroblasts, thereby remodelling the natural mucosal structures of the scaffold. Additionally, the established 3D tumour model was used as a test system for treatment with standard chemotherapeutic 5-fluorouracil (5-FU). The second part of the thesis focused on the establishment of a 3D in vitro test system for targeted therapy. The US Food and Drug Administration has already approved of a number of drugs for targeted therapy of specific types of cancer. For instance, the small molecule vemurafenib (PLX4032, Zelboraf™) which demonstrated impressive response rates of 50–80% in melanoma patients with a mutation of the rapidly accelerated fibrosarcoma oncogene type B (BRAF) kinase which belongs to the mitogen active protein kinase (MAPK) signalling pathway. However, only 5% of CRC patients harbouring the same BRAF mutation respond to treatment with vemurafenib. An explanation for this unresponsiveness could be a feedback activation of the upstream EGFR, reactivating the MAPK pathway which sustains a proliferative signalling. To test this hypothesis, the two early passage cell lines HROC24 and HROC87, both presenting the mutation BRAF V600E but differing in other mutations, were used and their drug response to vemurafenib and/or gefitinib was assessed in conventional 2D cell culture and compared to the more advanced 3D model. Under 3D culture conditions, both cell lines showed a reduction of the proliferation rate only in the combination therapy approach. Furthermore, no significant differences between the various treatment approaches and the untreated control regarding apoptosis rate and viability for both cell lines could be found in the 3D tumour model which conferred an enhanced chemoresistance to the cancer cells. Because of the observed unresponsiveness to BRAF inhibition by vemurafenib as can be seen in the clinic for patients with BRAF mutations in CRC, the cell line HROC87 was used for further xenografting experiments and analysis of activation changes in the MAPK signalling pathway. It could be shown that the cells presented a reactivation of Akt in the 3D model when treated with both inhibitors, suggesting an escape mechanism for apoptosis which was not present in cells cultured under conventional 2D conditions. Moreover, the cells exhibited an activation of the hepatocyte growth factor receptor (HGFR, c-Met) in 2D and 3D culture, but this was not detectable in the xenograft model. This shows the limitations of in vivo models. The results suggest another feedback activation loop than that to the EGFR which might not primarily be involved in the resistance mechanism. This reflects the before mentioned high attrition rates in the preclinical drug testing.
Advanced Analytics in Operations Management and Information Systems: Methods and Applications
(2019)
The digital transformation of business and society presents enormous potentials for companies across all sectors. Fueled by massive advances in data generation, computing power, and connectivity, modern organizations have access to gigantic amounts of data. Companies seek to establish data-driven decision cultures to leverage competitive advantages in terms of efficiency and effectiveness. While most companies focus on descriptive tools such as reporting, dashboards, and advanced visualization, only a small fraction already leverages advanced analytics (i.e., predictive and prescriptive analytics) to foster data-driven decision-making today. Therefore, this thesis set out to investigate potential opportunities to leverage prescriptive analytics in four different independent parts.
As predictive models are an essential prerequisite for prescriptive analytics, the first two parts of this work focus on predictive analytics. Building on state-of-the-art machine learning techniques, we showcase the development of a predictive model in the context of capacity planning and staffing at an IT consulting company. Subsequently, we focus on predictive analytics applications in the manufacturing sector. More specifically, we present a data science toolbox providing guidelines and best practices for modeling, feature engineering, and model interpretation to manufacturing decision-makers. We showcase the application of this toolbox on a large data-set from a German manufacturing company.
Merely using the improved forecasts provided by powerful predictive models enables decision-makers to generate additional business value in some situations. However, many complex tasks require elaborate operational planning procedures. Here, transforming additional information into valuable actions requires new planning algorithms. Therefore, the latter two parts of this thesis focus on prescriptive analytics. To this end, we analyze how prescriptive analytics can be utilized to determine policies for an optimal searcher path problem based on predictive models. While rapid advances in artificial intelligence research boost the predictive power of machine learning models, a model uncertainty remains in most settings. The last part of this work proposes a prescriptive approach that accounts for the fact that predictions are imperfect and that the arising uncertainty needs to be considered. More specifically, it presents a data-driven approach to sales-force scheduling. Based on a large data set, a model to predictive the benefit of additional sales effort is trained. Subsequently, the predictions, as well as the prediction quality, are embedded into the underlying team orienteering problem to determine optimized schedules.
Aufgrund verbesserter Diagnostik und Therapie sowie hierdurch verlängerter Überlebensraten kann der Bedarf an Unterstützungsmöglichkeiten bei Karzinompatienten in den nächsten Jahren steigen. Das Versorgungsangebot für Patienten und deren Angehörige muss sich dieser Entwicklung anpassen. Vor diesem Hintergrund wurden im Rahmen der vorliegenden Arbeit der Bedarf und die Inanspruchnahme von spezialisierten Unterstützungsmöglichkeiten (Palliativmedizin, Psychoonkologie, Sozialdienst und Ernährungsberatung) durch Gastrointestinal- und Bronchialkarzinompatienten im metastasierten und/oder rezidivierten Stadium analysiert. Dabei richtete sich das besondere Interesse auf den Zusammenhang zwischen den Faktoren Tumorentität, Geschlecht, Alter, Informationsbedarf, Symptomlast und der Inanspruchnahme der o.g. Unterstützungsmöglichkeiten.
Grundlage dieser Arbeit waren Daten von 205 Patienten des „BUKA-Projektes“ aus dem Interdisziplinären Zentrum für Palliativmedizin des Universitätsklinikums Würzburg.
60% waren Gastrointestinaltumorpatienten und 40% Bronchialkarzinompatienten. Der Allgemeinzustand der Bronchialkarzinompatienten war signifikant schlechter. Die häufigsten genannten Symptome im ESASr waren Erschöpfung, Müdigkeit, Appetitverlust und reduziertes Allgemeinbefinden.
Informationsbedarf zu Unterstützungsmöglichkeiten äußerten 67,3%, Informationsbedarf zur Erstellung einer Patientenverfügung hatten 35,3% der befragten Patienten.
Der Bedarf an Unterstützung war im Bereich der Psychoonkologie (Cut-off DT ≥5) mit 50,5% am höchsten, somit zeigten etwas mehr als die Hälfte der Patienten eine interventionsbedürftige psychische Belastung. Gefolgt von der Ernährungsberatung (auffälliges aNRS) mit 42,4% und der spezialisierten Palliativmedizin (ESASr ≥7) mit 35,6 %.
Bei der Inanspruchnahme lag die spezialisierte Palliativmedizin prozentual (19,5%) vor der Psychoonkologie (17,6%) und der Ernährungsberatung (17,1%). Abhängig von der jeweiligen Unterstützungsmöglichkeit haben 65,8 - 80,4% derer, die einen Bedarf gehabt hätten, diese nicht in Anspruch genommen.
Einen statistisch signifikanten Einfluss auf die Inanspruchnahme von Unterstützungsmöglichkeiten ergab sich für folgende Faktoren:
•Das Geschlecht (Frauen) und min. ein ESAS-Wert ≥7, stellten sich als Prädiktoren für die Inanspruchnahme der spezialisierten Palliativmedizin dar.
•Das Geschlecht (Frauen), war Prädiktor für die Inanspruchnahme der Psychoonkologie.
•Die Tumorentität (Gastro) sowie eine vorhandene Mangelernährung (auffälliger aNRS) waren Prädiktoren für die Inanspruchnahme einer Ernährungsberatung.
Für die Faktoren Alter und Informationsbedarf konnte für die Inanspruchnahme der untersuchten Unterstützungsmöglichkeiten kein signifikanter Zusammenhang festgestellt werden.
Auf die Inanspruchnahme des Sozialdienstes hatte keiner der untersuchten Faktoren einen signifikanten Einfluss.
Zukünftige Forschung sollte untersuchen, welche Gründe für eine Nicht-Inanspruchnahme von Unterstützungsmöglichkeiten bestehen, um hierdurch die Versorgungskonzepte zu verbessern und dadurch mehr Patienten einen Zugang zu den für sie nötigen Unterstützungsbereichen zu ermöglichen.
Die Studienergebnisse stützen das Konzept, dass das periphere Nervensystem zu Schmerzen beim Fibromyalgie-Syndrom (FMS) beiträgt. An der Neurologischen Universitätsklinik Würzburg wurden 53 FMS Patientinnen und 35 gesunde Kontrollen rekrutiert, ausführlich anamnestiziert inklusive spezieller Schmerzfragebögen, neurologisch und mittels spezieller Tests auf eine Störung der kleinkalibrigen A-delta- und C-Nervenfasern untersucht. Hierzu gehörte eine quantitative sensorische Testung mit Pleasant touch Untersuchung und die schmerz-assoziierten elektrisch-evoziierten Potentiale für die Kleinfaserfunktion und die corneale confocale Mikroskopie, sowie die Analyse von Hautstanbiopsien für die Kleinfasermorphologie.
Im Unterschied zu gesunden Kontrollen wiesen die FMS Patientinnen eine Reduktion, als auch eine Funktionsänderung der kleinkalibrigen Nervenfasern auf. Des Weiteren konnten wir aus der heterogenen Patientenpopulation anhand von unterschiedlichen Nervenfaserdichten der Haut eine Subgruppe mit generalisierter Reduktion der Hautinnervation identifizieren, die besonders schwer betroffen ist.
Diese Subgruppenanalysen können künftig von großer Bedeutung für die
Therapiewahl sein.
In 2006, 0.18 Mio pediatric nuclear medicine diagnostic exams were performed worldwide. However, for most of the radiopharmaceuticals used data on biokinetics and, as a consequence on dosimetry, are missing or have not been made publicly available. Therefore, most of the dosimetry assessments presented today for diagnostic agents in children and adolescents rely on the biokinetics data of adults. Even for one of the most common nuclear medicine exams for this patient group, renal scintigraphy with 99mTc-MAG3 for assessing renal function measured data on biokinetics is available only from a study performed on four children of different ages. In particular, renal scans are among the most frequent exams performed on infants and toddlers. Due to the young age, this patient group can be classified as a risk group with a higher probability of developing stochastic radiation effects compared to adults. As there are only limited data on biokinetics and dosimetry in this patient group, the aim of this study is to reassess the dosimetry and the associated radiation risk for a larger number of infants undergoing 99mTc-MAG3 renal scans based on a retrospective analysis of existing patient data.
Data were collected retrospectively from 34 patients younger than 20 months with normal (20 patients) and abnormal renal function (14 patients) undergoing 99mTc-MAG3 scans. The patient-specific organ activity was estimated based on a retrospective calibration which was performed based on a set of two 3D-printed infant kidneys (newborns: 8.6 ml; 1-year-old: 23.4 ml) filled with known activities. Both phantoms were scanned at different positions along the anteroposterior axis inside a water phantom, providing depth- and size-dependent attenuation correction factors for planar imaging. Time-activity curves were determined by drawing kidney, bladder, and whole body regions-of-interest for each patient, and subsequently applying the calibration factor for conversion of counts to activity. Patient-specific time-integrated activity coefficients were obtained by integrating the organ-specific time-activity curves. Absorbed and effective dose coefficients for each patient were assessed with OLINDA/EXM for the provided newborn and 1-year-old phantom. Based on absorbed dose values, the radiation risk estimation was performed individually for each of the 34 patients with the National Cancer Institute’s Radiation Risk Assessment Tool.
The patients’ organ-specific mean absorbed dose coefficients for the patients with normal renal function were 0.04±0.03 mGy/MBq for the kidneys and 0.27±0.24 mGy/MBq for the bladder. This resulted in a mean effective dose coefficient of 0.02±0.02 mSv/MBq. Based on the dosimetry results, the evaluation of the excess lifetime risk (ELR) for the development of radiation-induced cancer showed that the group of newborns has an ELR of 16.8 per 100,000 persons, which is higher in comparison with the 1-year-old group with an ELR of 14.7 per 100,000 persons. With regard to the 14 patients with abnormal renal function, the mean values for the organ absorbed dose coefficients for the patients were: 0.40±0.34 mGy/MBq for the kidneys and 0.46±0.37 mGy/MBq for the bladder. The corresponding effective dose coefficients (mSv/MBq) was: 0.05±0.02 mSv/MBq. The mean ELR (per 100,000 persons) for developing cancer from radiation exposure for patients with abnormal renal function was 29.2±18.7 per 100,000 persons.
As a result, the radiation-associated stochastic risk increases with the organ doses, taking age- and gender-specific influences into account. Overall, the lifetime radiation risk associated with the 99mTc-MAG3 scans is very low in comparison to the general population risk for developing cancer.
Furthermore, due to the increasing demand for PET-scans in children and adolescents with 68Ga-labelled peptides, in this work published data sets for those compounds were analyzed to derive recommendations for the administered activities in children and adolescents. The recommendation for the activities to be administered were based on the weight-independent effective dose model, proposed by the EANM Pediatric Dosage Card for application in pediatric nuclear medicine. The aim was to derive recommendations on administered activities for obtaining age-independent effective doses. Consequently, the corresponding weight-dependent effective dose coefficients were rescaled according to the formalism of the EANM dosage card, to determine the radiopharmaceutical class of 68Ga-labeled peptides (“multiples”), and to calculate the baseline activities based on the biokinetics of these compounds and an upper limit of the administered activity of 185 MBq for an adult. Analogous to 18F-fluoride, a minimum activity of 14 MBq is recommended. As a result, for those pediatric nuclear medicine applications involving 68Ga-labeled peptides, new values for the EANM dosage card were proposed and implemented based on the results derived in this work.
Overall, despite the low additional radiation-related cancer risk, all efforts should be undertaken to optimize administered activities in children and adolescents for obtaining sufficient diagnostic information with minimal associated radiation risk.
Cardiovascular diseases are considered the leading cause of death worldwide according to the World Health Organization. Heart failure is the last stage of most of these diseases, where loss of myocardium leads to architectural and functional decline.
The definitive treatment option for patients with CVDs is organ or tissue transplantation, which relies on donor availability. Therefore, generating an autologous bioengineered myocardium or heart could overcome this limitation. In addition, generating cardiac patches will provide ventricular wall support and enable reparative stem cells delivery to damaged areas. Although many hurdles still exist, a good number of researches have attempted to create an engineered cardiac tissue which can induce endogenous cardiac repair by replacing damaged myocardium.
The present study provided cardiac patches in two models, one by a detergent coronary perfusion decellularization protocol that was optimized, and the other that resulted in a 3D cell-free extracellular matrix with intact architecture and preserved s-glycosaminoglycan and vasculature conduits. Perfusion with 1% Sodium dodecyle sulfate (SDS) under constant pressure resulted in cell-free porcine scaffold within two and cell-free rat scaffold in 7 days, whereas scaffold perfused with 4% sodium deoxycholate (SDO) was not able to remove cells completely. Re-reendothelialization of tissue vasculature was obtained by injecting human microvascular endothelial cell and human fibroblast in 2:1 ratio in a dynamic culture. One-week later, CD31 positive cells and endothelium markers were observed, indicating new blood lining. Moreover, functionality test of re-endothelialized tissue revealed improvement in clotting seen in decellularized tissues. When the tissue was ready to be repopulated, porcine induced pluripotent stem cells (PiPSc) were generated by transfected reprogramming of porcine skin fibroblast and then differentiated to cardiac cells following a robust protocol, for an autologous cardiac tissue model. However, due to the limitation in the PiPSc cell number, alternatively, human induced pluripotent stem cells generated cardiac cells were used.
For reseeding a coculture of human iPSc generated cardiac cells, human mesenchymal stem cells and human fibroblast in 2:1:1 ratio respectively were used in a dynamic culture for 6-8 weeks. Contractions at different areas of the tissue were recorded at an average beating rate of 67 beats/min. In addition, positive cardiac markers (Troponin T), Fibroblast (vemintin), and mesenchymal stem cells (CD90) were detected. Not only that, but by week 3, MSC started differentiating to cardiac cells progressively until few CD90 positive cells were very few by week 6 with increasing troponin t positive cells in parallel. Electrophysiological and drug studies were difficult to obtain due to tissue thickness and limited assessment sources. However, the same construct was established using small intestine submucosa (SISer) scaffold, which recorded a spontaneous beating rate between 0.88 and 1.2 Hz, a conduction velocity of 23.9 ± 0.74 cm s−1, and a maximal contraction force of 0.453 ± 0.015 mN. Moreover, electrophysiological studies demonstrated a drug-dependent response on beating rate; a higher adrenalin frequency was revealed in comparison to the untreated tissue and isoproterenol administration, whereas a decrease in beating rate was observed with propranolol and untreated tissue.
The present study demonstrated the establishment of vascularized cardiac tissue, which can be used for human clinical application.
Einführung
Der laterale Zugang nach Bauer ist weiterhin einer der etabliertesten Standardzugänge für die Hüftendoprothetik in Deutschland und weltweit. Im Zuge der Entwicklung in Richtung „Fast-Track“ Endoprothetik gewinnt die frühe postoperative Phase zunehmend an Bedeutung.
Material und Methoden:
Die vorliegende Arbeit untersucht die Ergebnisse des lateralen OP-Zugangs bis sechs Wochen postoperativ, die in einer übergeordneten prospektiv randomisierten Studie zum Vergleich des lateralen mit dem anterioren MIS-Zugangs erhoben wurden. Diese Studie wurde bereits international publiziert. In der vorliegenden Arbeit sollte ermittelt werden, welche Änderungen sich in den Outcome-Kriterien Aktivität, Funktion und Lebensqualität durch den lateralen Zugang bis sechs Wochen postoperativ ergeben. Hierfür wurden neben den etablierten Scores HHS, AP, SF-36 und PHQ-D der Aktivitätsscore TWB sowie der Funktionsscore XSMFA-D erstmalig in der frühen postoperativen Phase eingesetzt.
Ergebnisse:
Maßgeblich für die Bewertung der Ergebnisqualität sind neben den Ergebnissen der Scores auch die intra- und postoperativen Komplikationen, welche auf einem vergleichsweise niedrigen Niveau waren. 7,5 % der Patienten mit lateralem Zugang zeigten Hinweise für eine Schwächung der Hüftabduktoren, die häufig mit dem transglutealen Zugangsweg in Verbindung gebracht wird. Der laterale Zugang konnte bis sechs Wochen postoperativ und auch im Gesamtkontext der Studie nicht mit einem erhöhten peri- und postoperativen Komplikationsrisiko in Zusammenhang gebracht werden.
Das Outcome in Aktivität, Funktion und Lebensqualität zeigte im prä- und postoperativen W6-Vergleich signifikante Zunahmen in den Scores HHS, XSMFA-D, SF-36 und AP mit hohen Korrelationen untereinander und jeweils anhand der Score-Outcome-Kriterien und im Literaturvergleich guten bis sehr guten Ergebnissen. Dies trifft ebenfalls auf den Einsatz des StepWatch™ präoperativ und im weiteren Verlauf der Studie zu. Im Gesamtkontext der bereits publizierten übergeordneten Studie konnten jedoch für den MIS-Zugang in einzelnen Scores bessere Ergebnisse in den Outcome-Kategorien erzielt werde.
Schlussfolgerungen:
Die Ergebnisse des erstmalig früh postoperativ eingesetzten TWB lassen die Eignung des Scores zur validen Datenerhebung unter diesen Bedingungen fraglich erscheinen. Eine evtl. Revalidierung des TWB sollte deshalb, bei Bestätigung der vorliegenden Beobachtungen im weiteren klinischen Gebrauch in Betracht gezogen werden. Auch der PHQ-D konnte seine in der Literatur beschriebene Eignung zur postoperativen Datenerhebung von psychischen Komorbitäten bei chirurgischen Patienten bis W6 nicht unterstreichen.
Im Gegensatz zu TWB und PHQ-D hat sich der erstmalige Einsatz des XSMFA-D im frühen Nachuntersuchungsintervall bewährt. Es konnten Verbesserungen für Funktion und Beeinträchtigung sechs Wochen postoperativ bereits auf vergleichbarem Niveau wie zu den späteren Nachuntersuchungen ermittelt werden.
Schlussfolgern lässt sich, dass die frühe postoperative Phase eine in der klinischen Bedeutung und postoperativen Ergebnisbeurteilung zunehmend wichtige Zwischenstation darstellt, bei der die bis dort in den Outcome-Kriterien Aktivität, Funktion und Lebensqualität auftretenden signifikanten Verbesserungen auch Rückschlüsse auf die weitere Prognose und Outcome-Entwicklung zulassen. Der in der vorliegenden Arbeit speziell untersuchte laterale OP-Zugang konnte im Gesamtkontext der übergeordneten prospektiven randomisierten Studie die Ergebnisqualität des MIS-Verfahrens sechs Wochen postoperativ nicht erreichen. Die Ergebnisqualität des lateralen Zugangs zur Behandlung der Coxarthrose ist aber anhand der Score-Outcome-Kriterien und den verglichenen Literaturergebnissen bis sechs Wochen postoperativ dennoch als gut zu bewerten. Vorteilhaft und von Bedeutung sind diese Erkenntnisse insbesondere für diejenigen Patienten, welche nicht für das MIS-Verfahren, sondern den lateralen OP-Zugang in Frage kommen.
Forward Collision Alarms (FCA) intend to signal hazardous traffic situations and the need for an immediate corrective driver response. However, data of naturalistic driving studies revealed that approximately the half of all alarms activated by conventional FCA systems represented unnecessary alarms. In these situations, the alarm activation was correct according to the implemented algorithm, whereas the alarms led to no or only minimal driver responses. Psychological research can make an important contribution to understand drivers’ needs when interacting with driver assistance systems.
The overarching objective of this thesis was to gain a systematic understanding of psychological factors and processes that influence drivers’ perceived need for assistance in potential collision situations. To elucidate under which conditions drivers perceive alarms as unnecessary, a theoretical framework of drivers’ subjective alarm evaluation was developed. A further goal was to investigate the impact of unnecessary alarms on drivers’ responses and acceptance. Four driving simulator studies were carried out to examine the outlined research questions.
In line with the hypotheses derived from the theoretical framework, the results suggest that drivers’ perceived need for assistance is determined by their retrospective subjective hazard perception. While predictions of conventional FCA systems are exclusively based on physical measurements resulting in a time to collision, human drivers additionally consider their own manoeuvre intentions and those attributed to other road users to anticipate the further course of a potentially critical situation. When drivers anticipate a dissolving outcome of a potential conflict, they perceive the situation as less hazardous than the system. Based on this discrepancy, the system would activate an alarm, while drivers’ perceived need for assistance is low. To sum up, the described factors and processes cause drivers to perceive certain alarms as unnecessary. Although drivers accept unnecessary alarms less than useful alarms, unnecessary alarms do not reduce their overall system acceptance. While unnecessary alarms cause moderate driver responses in the short term, the intensity of responses decrease with multiple exposures to unnecessary alarms. However, overall, effects of unnecessary alarms on drivers’ alarm responses and acceptance seem to be rather uncritical.
This thesis provides insights into human factors that explain when FCAs are perceived as unnecessary. These factors might contribute to design FCA systems tailored to drivers’ needs.
T-Zell-Charakterisierung im peripheren Blut bei Kindern mit chronisch entzündlichen Darmerkrankungen
(2019)
Die Inzidenz von chronisch entzündlichen Darmerkrankungen (CED), insbesondere von Morbus Crohn (MC), nimmt weltweit zu, was auch eine Vielzahl an Kindern betrifft. Obwohl die Krankheit in den letzten Jahrzehnten Gegenstand zahlreicher Forschungsarbeiten war, ist die Pathogenese nicht abschließend geklärt.
Diese Arbeit vergleicht T-Zellen gesunder pädiatrischer Probanden mit T-Zellen pädiatrischer CED Patienten mittels Flowcytometrie unter Berücksichtigung von Differenzierungsstadium, Krankheitsaktivität, Therapie und CMV-Status.
Die Verteilung der T-Zell-Subpopulationen zeigt keine signifikanten Unterschiede zwischen Patienten und Kontrollen, jedoch zeigen sich für TH1 und TH17 Zellen Unterschiede zwischen MC Patienten und Kontrollen, welche auch mit Krankheitsaktivität und Therapie korrelieren. Der Anteil von CXCR3+ Zellen ist innerhalb der CD4+ Memory-Populationen und innerhalb der CD8+ Memory- und Effektor-Populationen bei MC Patienten – vor allem mit aktiver Erkrankung bzw. ohne Therapie – deutlich geringer als bei Kontrollen. Gleichzeitig zeigt sich der Anteil an CCR6+ Zellen sowie der Anteil an IL 17+CCR6+ Zellen bei MC Patienten in Remission sowie unter Therapie mit TNFα-Blockern höher als bei Kontrollen. Zudem sind die Effektor-Zell-Gleichgewichte bei MC zugunsten von TH17 Zellen verschoben. Somit unterstützt die Arbeit die weitverbreitete Hypothese einer gesteigerten TH17-Antwort bei MC. Auch zeigt sich eine Verminderung der TH1-Zellen im peripheren Blut bei aktiv erkrankten MC Patienten im Vergleich zu Kontrollen, was sich möglicherweise durch eine Abwanderung oder Umwandlung dieser Zellen bei aktivem MC erklären lässt.
Desweiteren zeigt sich, dass CED Patienten eine verstärkte Neigung zur vorzeitigen Immunoseneszenz aufzuweisen scheinen, was durch eine latente CMV-Infektion nochmals verstärkt erscheint. Einige CMV-assoziierte Veränderungen der T-Zell-Differenzierung, wie z.B. die CD45RA-Reexpression sowie die TNFα- und IFNγ-Mehrexpression, zeigen sich bei CMV+ CED Patienten zudem ausgeprägter als bei CMV+ Kontrollen. Interessant ist daher, dass CMV+ Probanden und CED Patienten Veränderungen aufweisen, die sich teilweise zu addieren scheinen.
Da mit der derzeitigen Therapie des Glioblastom bei Kindern die 2-Jahres Überlebensrate bei 26% liegt, wird die Suche nach neuen Therapiemöglichkeiten vorangetrieben. Die Immuntherapie könnte die Möglichkeiten einer spezifischen möglichst nebenwirkungsarmen Therapie bieten. Bereits bei Rezidiven werden bestehende Therapieverfahren z.B. mit monoklonalen Antikörpern wie Bevazizumab (Anti-VEGF) kombiniert und getestet. Auch die adoptive T-Zell-Therapie ist ein vielversprechender Ansatz. Ein wichtiger Faktor für eine erfolgreiche Therapie ist aber die Auswahl geeigneter Tumorantigene. Melan-A ist ein in der Immuntherapie der malignen Melanome gut charakterisiertes und mehrfach eingesetztes Ziel. Dies beruht unter anderem auf der Eigenschaft, in vitro tumorspezifische CD8+ T-Zellen in großer Zahl expandieren zu können. Angesichts der gemeinsamen neuroektodermalen Herkunft von Melanozyten und glialen Zellen gibt es Berichte, in denen MelanA in Gliomen nachgewiesen werden konnte.
In dieser Arbeit wurde mit eigenen experimentellen Daten nochmals exakt nachvollzogen, inwieweit Melan-A als Tumorantigen bei Glioblastomen eine relevante Zielstruktur sein könnte. Dies wurde mit verschiedenen Methoden wie intrazelluläre Färbung, Cytospins, Realtime PCR, Westernblot und Immunhistochemie untersucht.
Darüber hinaus unterstreichen die Ergebnisse auch die Bedeutung von potenziellen Kreuzreaktionen, die grundsätzlich für jeden T-Zell-Rezeptor auftreten können, möglicherweise aber gerade bei dem Melan-A-Epitop eine größere Relevanz haben.
In mammals, anucleate platelets circulate in the blood flow and are primarily responsible for maintaining functional hemostasis. Platelets are generated in the bone marrow (BM) by megakaryocytes (MKs), which mainly reside directly next to the BM sinusoids to release proplatelets into the blood. MKs originate from hematopoietic stem cells and are thought to migrate from the endosteal to the vascular niche during their maturation, a process, which is, despite being intensively investigated, still not fully understood.
Long-term intravital two photon microscopy (2PM) of MKs and vasculature in murine bone marrow was performed and mean squared displacement analysis of cell migration was performed. The MKs exhibited no migration, but wobbling-like movement on time scales of 3 h. Directed cell migration always results in non-random spatial distribution. Thus, a computational modelling algorithm simulating random MK distribution using real 3D light-sheet fluorescence microscopy data sets was developed. Direct comparison of real and simulated random MK distributions showed, that MKs exhibit a strong bias to vessel-contact. However, this bias is not caused by cell migration, as non-vessel-associated MKs were randomly distributed in the intervascular space. Furthermore, simulation studies revealed that MKs strongly impair migration of other cells in the bone marrow by acting as large-sized obstacles. MKs are thought to migrate from the regions close to the endosteum towards the vasculature during their maturation process. MK distribution as a function of their localization relative to the endosteal regions of the bones was investigated by light sheet fluorescence microscopy (LSFM). The results show no bone-region dependent distribution of MKs. Taken together, the newly established methods and obtained results refute the model of MK migration during their maturation.
Ischemia reperfusion (I/R) injury is a frequent complication of cerebral ischemic stroke, where brain tissue damage occurs despite successful recanalization. Platelets, endothelial cells and immune cells have been demonstrated to affect the progression of I/R injury in experimental mouse models 24 h after recanalization. However, the underlying Pathomechanisms, especially in the first hours after recanalization, are poorly understood.
Here, LSFM, 2PM and complemental advanced image analysis workflows were established for investigation of platelets, the vasculature and neutrophils in ischemic brains. Quantitative analysis of thrombus formation in the ipsilateral and contralateral hemispheres at different time points revealed that platelet aggregate formation is minimal during the first 8 h after recanalization and occurs in both hemispheres. Considering that maximal tissue damage already is present at this time point, it can be concluded that infarct progression and neurological damage do not result from platelet aggregated formation. Furthermore, LSFM allowed to confirm neutrophil infiltration into the infarcted hemisphere and, here, the levels of endothelial cell marker PECAM1 were strongly reduced. However, further investigations must be carried out to clearly identify the role of neutrophils and the endothelial cells in I/R injury.
Introduction: During inflammation, reactive oxygen species (ROS) such as Hydrogen peroxide accumulate at the inflammation site and by oxidizing lipids, they produce metabolites such as 4-hydroxynonenal (4-HNE) and oxidized phospholipids (OxPLs). Transient receptor potential ankyrin 1 (TRPA1) and vanilloid 1 (TRPV1) are ligand gated ion channels that are expressed on nociceptors and their activation elicits pain. Hydrogen peroxide and 4-HNE are endogenous ligands for TRPA1 and their role in inflammatory pain conditions has been shown. OxPLs play a major pro-inflammatory role in many pathologies including atherosclerosis and multiple sclerosis. E06/T15 is a mouse IgM mAb that specifically binds oxidized phosphatidylcholine. D-4F is an apolipoprotein A-I mimetic peptide with a very high affinity for OxPLs and possess anti-inflammatory properties. E06 mAb and D-4F peptide protect against OxPLs-induced damage in atherosclerosis in vivo.
Methods: To investigate the role of ROS and their metabolites in inflammatory pain, I utilized a combination of diverse and complex behavioral pain measurements and binding assays. I examined E06 mAb and D-4F as local treatment options for hypersensitivity evoked by endogenous and exogenous activators of TRPA1 and TRPV1 as well as in inflammatory and OxPL-induced pain models in vivo. 4-HNE, hydrogen peroxide as ROS source and mustard oil (AITC) were used to activate TRPA1, while capsaicin was used to activate TRPV1.
Results: Intraplantar injection of oxidized 1-palmitoyl-2-arachidonoyl-sn-glycero-3-phosphocholine (OxPAPC) into rats’ hind paw elicited thermal and mechanical hypersensitivity. Genetic and pharmacological evidence in vivo confirmed the role of TRPA1 in OxPLs-induced hypersensitivity. OxPLs formation increased in complete Freund’s adjuvant (CFA)-induced inflamed rats’ paw. E06 mAb and D-4F prevented OxPAPC–induced mechanical and thermal hypersensitivity (hyperalgesia) as well as CFA-induced mechanical hypersensitivity. Also, all irritants induced thermal and mechanical hypersensitivity as well as affective-emotional responses and spontaneous nocifensive behaviors. E06 mAb blocked prolonged mechanical hypersensitivity by all but hydrogen peroxide. In parallel, D-4F prevented mechanical hypersensitivity induced by all irritants as well as thermal hypersensitivity induced by capsaicin and 4-HNE. In addition, competitive binding assays showed that all TRPA1/V1 agonists induced prolonged formation of OxPLs in the paw tissue explaining the anti-nociceptive properties of E06 mAb and D-4F. Finally, the potential of gait analysis as a readout for non-provoked pain behavioral measurements were examined.
Conclusion and implications: OxPLs were characterized as novel targets in inflammatory pain. Treatment with the monoclonal antibody E06 or apolipoprotein A-I mimetic peptide D-4F are suggested as potential inflammatory pain medications. OxPLs’ role in neuropathic pain is yet to be investigated.
ADHS-Patienten im Alter von 8-12 Jahren wurde ein Ruhe-EEG von 10 Minuten jeweils mediziert sowie medikamentennüchtern abgeleitet und mittels des Vigilanzalgorithmus Leipzig von Hegerl und Hensch (2012) ausgewertet und den bei gesunden Kontrollkindern gleichen Alters gemessenen EEG-Frequenzen nach Auswertung durch die gleiche Methode gegenübergestellt.
Nowadays, the management of infectious diseases is especially threatened by the rapid emergence of drug resistance. It has been suggested that the medicine quality assurance combined with good medication adherence may help to reduce this impendence. Moreover, the search for new antimicrobial agents from medicinal plants is strongly encouraged for the exploration of alternatives to existing therapies. In this context, the present work focused on both the quality evaluation of commercialized antimalarial medicines from the Democratic Republic of the Congo and on the phytochemical investigations of a Congolese Ancistrocladus species.
Due to their complex chemical structure transition metal oxides display many fascinating properties which conventional semiconductors lack.
For this reason transition metal oxides hold a lot of promise for novel electronic functionalities.
Just as in conventional semiconductor heterostructures, the interfaces between different materials play a key role in oxide electronics.
The textbook example is the (001) interface between the band insulators LaAlO\(_3\) and SrTiO\(_3\) at which a two-dimensional electron system (2DES) forms.
In order to utilize such a 2DES in prospective electronic devices, it is vital that the electronic properties of the interface can be controlled and manipulated at will.
Employing photoelectron spectroscopy as well as electronic transport measurements, this thesis examines how such interface engineering can be realized in the case of the LaAlO\(_3\)/SrTiO\(_3\) heterostructure:
By photoemission we manage to unambiguously distinguish the different mechanisms by which SrTiO\(_3\) can be doped with electrons.
An electronic reconstruction is identified as the driving mechanism to render stoichiometric LaAlO\(_3\)/SrTiO\(_3\) interfaces metallic.
The doping of the LaAlO\(_3\)/SrTiO\(_3\) heterointerface can furthermore be finely adjusted by changing the oxygen vacancy \(V_{\mathrm{O}}\) concentration in the heterostructure.
Combining intense x-ray irradiation with oxygen dosing, we even achieve control over the \(V_{\mathrm{O}}\) concentration and, consequently, the doping in the photoemission experiment itself.
Exploiting this method, we investigate how the band diagram of SrTiO\(_3\)-based heterostructures changes as a function of the \(V_{\mathrm{O}}\) concentration and temperature by hard x-ray photoemission spectroscopy.
With the band bending in the SrTiO\(_3\) substrate changing as a function of the \(V_{\mathrm{O}}\) concentration, the interfacial band alignment is found to vary as well.
The relative permittivity of the SrTiO\(_3\) substrate and, in particular, its dependence on temperature and electric field is identified as one of the essential parameters determining the electronic interface properties.
That is also why the sample temperature affects the charge carrier distribution.
The mobile charge carriers are shown to shift toward the SrTiO\(_3\) bulk when the sample temperature is lowered.
This effect is, however, only pronounced if the total charge carrier concentration is small.
At high charge carrier concentrations the charge carriers are always confined to the interface, independent of the sample temperature.
The dependence of the electronic interface properties on the \(V_{\mathrm{O}}\) concentration is also investigated by a complementary method, viz. by electronic transport measurements.
These experiments confirm that the mobile charge carrier concentration increases concomitantly to the \(V_{\mathrm{O}}\) concentration.
The mobility of the charge carriers changes as well depending on the \(V_{\mathrm{O}}\) concentration.
Comparing spectroscopy and transport results, we are able to draw conclusions about the processes limiting the mobility in electronic transport.
We furthermore build a memristor device from our LaAlO\(_3\)/SrTiO\(_3\) heterostructures and demonstrate how interface engineering is used in practice in such novel electronic applications.
This thesis furthermore investigates how the electronic structure of the 2DES is affected by the interface topology:
We show that, akin to the (001) LaAlO\(_3\)/SrTiO\(_3\) heterointerface, an electronic reconstruction also renders the (111) interface between LaAlO\(_3\) and SrTiO\(_3\) metallic.
The change in interface topology becomes evident in the Fermi surface of the buried 2DES which is probed by soft x-ray photoemission.
Based on the asymmetry in the Fermi surface, we estimate the extension of the conductive layer in the (111)-oriented LaAlO\(_3\)/SrTiO\(_3\) heterostructure.
The spectral function measured furthermore identifies the charge carriers at the interface as large polarons.
Das menschliche Gehirn ist ein Organ, das aufgrund seiner Komplexität und zellulären Diversität noch am wenigsten verstanden ist. Eine der Ursachen dafür sind zahlreiche Herausforderungen in diversen neurobiologischen Bild-gebungsverfahren. Erst seit der Erfindung der hochauflösenden Fluoreszenz-mikroskopie ist es möglich, Strukturen unterhalb der Beugungsgrenze zu visua-lisieren und somit eine maximale Auflösung von bis zu 20 nm zu erreichen. Zusätzlich hängt die Fähigkeit, biologische Strukturen aufzulösen, von der Markierungs-größe und -dichte ab. Derzeit ist die häufigste Methode zur Proteinfärbung die indirekte Antikörperfärbung, bei der ein Fluorophor-markierter Sekundärantikörper an einen Epitop-spezifischen Primärantikörper bindet. Dabei kann der Abstand von Zielstruktur und Fluorophor bis zu 30 nm betragen, was eine Auflösungs-verminderung zur Folge haben kann. Aufgrund dessen wurden in dieser Arbeit alternative Markierungsmethoden getestet, um postsynaptische Proteine sicht-bar zu machen.
Zunächst wurde der postsynaptische N-Methyl-D-Aspartat (NMDA)-Rezeptor mit Hilfe konventioneller indirekter Antikörperfärbung markiert. Hier war die NR1-Untereinheit des NMDA-Rezeptors von besonderem Interesse, da diese in der Autoimmunerkrankung Anti-NMDA-Rezeptor-Enzephalitis invol-viert ist.
Patienten dieser seltenen Krankheit bilden Autoantikörper gegen die NR1-Untereinheit, wodurch ein schneller reversibler Verlust der NMDA-Rezeptoren auf der Postsynapse induziert wird. Wichtige Informationen können nicht mehr ausreichend weitergegeben werden, was psychiatrische und neurologi-sche Störungen zur Folge hat. In dieser Arbeit wurden sowohl kommerzielle NR1-Antikörper, als auch rekombinante monoklonale NR1-Antikörper von Patien-ten mit Anti-NMDA-Rezeptor-Enzephalitis getestet. In konfokalen und in hochaufgelösten SIM- (engl. structured illumination microscopy) und dSTORM- (engl. direct stochastic optical reconstruction microscopy) Messun-gen konnten kommerzielle NR1-Antikörper keine erfolgreichen Färbungen erzielen. Dagegen erwiesen sich die rekombinanten monoklonalen NR1-Patientenantikörper als sehr spezifisch, sowohl in primären Neuronen als auch im Hippocampus von murinen Gehirnschnitten und lieferten gute Kolokalisati-onen mit dem postsynaptischen Markerprotein Homer.
Um die optische Auflösung zu verbessern, wurde eine neue Markierungs-methode mit sog. „Super-Binde-Peptiden“ (SBPs) getestet. SBPs sind modifi-zierte Peptide, die erhöhte Affinitäten und Spezifitäten aufweisen und mit ei-ner Größe von ~ 2,5 nm wesentlich kleiner als Antikörper sind. In dieser Arbeit bestätigte sich ein kleines hochspezifisches SPB, das an den Fluoreszenzfarb-stoff Tetra-
methylrhodamin (TMR) gekoppelt ist, als effektiver Marker für das Ankerpro-tein Gephyrin. Gephyrin ist für die Lokalisation und Verankerung einiger post-synaptischer Rezeptoren zuständig, indem es sie mit dem Cytoskelett der Zelle verbindet. SIM-Messungen in primären Neuronen zeigten eine bessere Clus-terrepräsentation bei der Färbung von Gephyrin mit SBPs, als mit Antikörper-färbung. Zusätzlich wurden Kolokalisationsanalysen von Gephyrin zusammen mit dem inhibito-rischen präsynaptischen vesikulären GABA-Transporter VGAT durchgeführt.
Eine weitere Färbemethode stellte die bioorthogonale Click-Färbung durch die Erweiterung des eukaryotischen genetischen Codes (engl. genetic code ex-pansion, GCE) dar. Dabei wurde eine unnatürliche, nicht-kanonische Amino-säure (engl. non-canonical amino acid, ncAA) ins Zielprotein eingebaut und in Kombination mit der Click-Chemie ortsspezifisch mit organischen Tetrazin-Farbstoff-Konjugaten angefärbt. Organische Fluorophore haben den Vorteil, dass sie mit einer Größe von 0,5 – 2 nm sehr klein sind und damit die natürli-chen Funktionen der Proteine in der Zelle kaum beeinflussen. In dieser Arbeit wurde zum ersten Mal gezeigt, dass der tetramere postsynaptische NMDA-Rezeptor durch die Amber-Supres-sionsmethode bioorthogonal angefärbt werden konnte. Aus sieben verschiede-nen Amber-Mutanten der NR1-Untereinheit stellte sich die Y392TAG-NR1-Mutante als diejenige mit der besten Proteinexpression, Färbeeffizienz und rezeptorfunktionalität heraus. Dies konnte durch Fluoreszenzmikroskopie- und Whole-Cell Patch-Clamp-Experimenten gezeigt werden. Die bioorthogo-nale Click-Färbung durch GCE eignete sich für die Färbung des NMDA-Rezeptors in verschiedenen Zelllinien, mit unterschiedlichen Tetrazin-Farbstoff-Konjugaten und für Lebendzellexperimente. In dSTORM-Messungen erwies sich das Tetrazin-Cy5-Farbstoff-Konjugat als ideal aufgrund seiner Grö-ße, Photostabilität, Helligkeit und seines geeigneten Blinkverhaltens, sodass eine homogene NMDA-Rezeptorverteilung auf der Zellmembran gezeigt wer-den konnte. NR1-Antikörperfärbungen wiesen dagegen starke Clusterbildun-gen auf. Die Ergebnisse konnten belegen, dass kleinere Farbstoffe eine deut-lich bessere Zugänglichkeit zu ihrem Zielprotein haben und somit besser für die hochauflösende Fluoreszenzmikroskopie geeignet sind.
Obwohl Pflanzenwurzeln mit einer Vielzahl von Pathogenen in Kontakt kommen, sind induzierbare Abwehrreaktionen der Wurzel bisher kaum beschrieben. Aufgrund der konzentrischen Zellschicht-Organisation der Wurzel wird angenommen, dass bei einer Immunantwort in jeder Zellschicht ein spezifisches genetisches Programm aktiviert wird. Eine Überprüfung dieser Hypothese war bisher wegen methodischen Limitierungen nicht möglich. Die zellschichtspezifische Expression Epitop-markierter ribosomaler Proteine erlaubt eine Affinitätsaufreinigung von Ribosomen und der assoziierten mRNA. Diese Methodik, als TRAP (Translating Ribosome Affinity Purification) bezeichnet, ermöglicht die Analyse des Translatoms und wurde dahingehend optimiert, pflanzliche Antworten auf Befall durch bodenbürtige Mikroorganismen in Rhizodermis, Cortex, Endodermis sowie Zentralzylinder spezifisch zu lokalisieren. Die Genexpression in der Arabidopsis-Wurzel nach Inokulation mit drei Bodenorganismen mit unterschiedlichen Lebensweisen wurde vergleichend betrachtet: Piriformospora indica kann als mutualistischer Pilz pflanzliches Wachstum und Erträge positiv beeinflussen, wohingegen der vaskuläre Pilz Verticillium longisporum für erhebliche Verluste im Rapsanbau verantwortlich ist und der hemibiotrophe Oomycet Phytophthora parasitica ein breites Spektrum an Kulturpflanzen befällt und Ernten zerstört. Für die Interaktionsstudien zwischen Arabidopsis und den Mikroorganismen während ihrer biotrophen Lebensphase wurden sterile in vitro-Infektionssysteme etabliert und mittels TRAP und anschließender RNA-Sequenzierung eine zellschichtspezifische, genomweite Translatomanalyse durchgeführt (Inf-TRAP-Seq). Dabei zeigten sich massive Unterschiede in der differentiellen Genexpression zwischen den Zellschichten, was die Hypothese der zellschichtspezifischen Antworten unterstützt. Die Antworten nach Inokulation mit pathogenen bzw. mutualistischen Mikroorganismen unterschieden sich ebenfalls deutlich, was durch die ungleichen Lebensweisen begründbar ist. Durch die Inf-TRAP-Seq Methodik konnte z.B. im Zentralzylinder der Pathogen-infizierten Wurzeln eine expressionelle Repression von positiven Regulatoren des Zellzyklus nachgewiesen werden, dagegen in den mit P. indica besiedelten Wurzeln nicht. Dies korrelierte mit einer Pathogen-induzierten Inhibition des Wurzelwachstums, welche nicht nach Inokulation mit P. indica zu beobachten war. Obwohl keines der drei Mikroorganismen in der Lage ist, den Zentralzylinder direkt zu penetrieren, konnte hier eine differentielle Genexpression detektiert werden. Demzufolge ist ein Signalaustausch zu postulieren, über den äußere und innere Zellschichten miteinander kommunizieren. In der Endodermis konnten Genexpressionsmuster identifiziert werden, die zu einer Verstärkung der Barriere-Funktionen dieser Zellschicht führen. So könnte etwa durch Lignifizierungsprozesse die Ausbreitung der Mikroorganismen begrenzt werden. Alle drei Mikroorganismen lösten besonders im Cortex die Induktion von Genen für die Biosynthese Trp-abhängiger, antimikrobieller Sekundärmetaboliten aus. Die biologische Relevanz dieser Verteilungen kann nun geklärt werden. Zusammenfassend konnten in dieser Dissertation erstmals die durch Mikroorganismen hervorgerufenen zellschichtspezifischen Antworten der pflanzlichen Wurzel aufgelöst werden. Vergleichende bioinformatische Analyse dieses umfangreichen Datensatzes ermöglicht nun, gezielt testbare Hypothesen zu generieren. Ein Verständnis der zellschichtspezifischen Abwehrmaßnahmen der Wurzel ist essentiell für die Entwicklung neuer Strategien zur Ertragssteigerung und zum Schutz von Nutzpflanzen gegen Pathogene in der Landwirtschaft.
In the „Position Paper of the Division of Clinical Pharmacy of the German Pharmaceutical Society (DPhG)” clinical pharmacy is defined as the science and practice of the rational use of drugs1, which includes the individualization of drug therapy. Clinical pharmacists therefore need a profound knowledge of the pharmacokinetic properties of relevant drugs, and clinical factors that are influencing these properties.
Against the background of individualizing drug therapy, pharmacokinetic and clinical factors are studied in this thesis.
In order to obtain an overview of the existing data on the pharmacokinetics of imipenem / cilastatin and meropenem in critically ill patients, a literature review for each of these carbapenem antibiotics was performed. These reviews included studies in critically ill patients as well as studies in healthy volunteers. While the reported results of studies in healthy volunteers had a small variability, studies in critically ill patients show significant differences in the resulting pharmacokinetics. These differences were not only between, but also within these studies, resulting in a high variability of the pharmacokinetic parameters of the carbapenems in critically ill patients. Furthermore, the results of studies in critically ill patients indicate that clinical factors and in particular renal function have different effects on the pharmacokinetics of imipenem and cilastatin.
A therapeutic drug monitoring (TDM) program for antibiotics was initiated in an intensive care unit. The calculation of the pharmacokinetics of imipenem / cilastatin and meropenem was carried out with a population pharmacokinetic approach (POP-PK) and in addition with a non-compartmental approach (NCA).
The POP-PK analysis showed that the pharmacokinetics of imipenem and cilastatin could be described adequately with a 1-compartment model. The resulting mean total body clearance (CL) of imipenem and cilastatin was 11.6 L/h (4.24 to 27.5) and 6.14 L/h (0.520 to 26.6 L/h). The nonrenal clearance was estimated to be 5.30 L / h (24.9% CV) for imipenem and 0.138 L / h (33.3% CV) for cilastatin.
The results of the NCA were in good agreement with the results of the POP-PK approach, as the NCA resulted in an imipenem clearance of 15.5 ± 7.3 L / hr and cilastatin clearance of 10.1 ± 9.9 L / h. The individual clearances resulting from the different pharmacokinetic approaches were in good correlation showing correlation coefficients (r) of 0.882 (p <0.001) and 0.908 (p <0.001) for imipenem and cilastatin.
In summary, this study identified and quantified significant differences between the individual clearance mechanisms of imipenem and cilastatin. This is particularly true for patients with impaired renal function and sepsis. As imipenem / cilastatin is only available in a fixed dose combination, those patients might be treated inadequately with this combination. The great variability in the pharmacokinetics of imipenem and cilastatin in septic patients underscores the importance of a TDM program of both substances.
For meropenem, a PK/PD model was developed that predicts the concentration gradients of meropenem, serum creatinine, C-reactive protein and procalcitonin simultaneously. A non-linear relationship between the clearance of creatinine and meropenem was identified and the resulting equation for the calculation of the total body clearance of meropenem (for a 70 kg patient) was: 0.480 L/h + 9.86 L/h. (CLCR/6L/h)0.593, with 0.480 L/h representing the nonrenal clearance of meropenem.
The resulting mean meropenem clearance of the NCA was 11.9 ± 8.7 L/h. The individual clearances resulting from the different pharmacokinetic approaches were poorly correlated showing a correlation coefficient (r) of 0.502 (p <0.001).
In summary, this study showed a non-linear relationship of meropenem clearance and creatinine clearance. The model shows that the renal function may change rapidly and to a significant extent in patients with sepsis and septic shock, which in turn, underscores that creatinine concentrations are not in steady state in these patients. Conversely, dose adjustment based on creatinine values might lead to inappropriate therapy. This underlines the importance of a TDM program for meropenem in critically ill patients.
The two most important considerations when choosing an antibiotic for the prophylaxis of postoperative bone infections are its activity against the whole spectrum of bacteria, which might be involved in bone infections, and its ability to penetrate bone tissue and thus to achieve concentrations above the minimum inhibitory concentration (MIC) of the corresponding pathogens.
In order to gain information on this data, a study was conducted which investigated the pharmacokinetics of ampicillin / sulbactam in plasma, cortical and cancellous bone. Pharmacokinetic parameters in plasma were determined using NCA. The bone penetration represents the ratio of the concentration in the bone tissue to plasma concentration at the time of bone removal. The resulting half-life of ampicillin and sulbactam in plasma was 1.60 0.37 h and 1.70 0.42 h. The elimination of both substances was in a good correlation with creatinine clearance and resulted in correlation coefficients (r) of 0.729 (p = 0.003) for ampicillin and 0.699 (p = 0.005) for sulbactam. The mean clearance and the mean volume of distribution of ampicillin and sulbactam were 10.7 3.9 and 10.3 3.3 L/h, and 23.9 7.9 and 24.3 6.8 L. The mean concentrations of ampicillin in the cortical and cancellous bone were 6.60 4.22 and 10.15 7.40 µg/g, resulting in bone penetration ratios of 9.1 5.7 and 16.2 16.9 %. For sulbactam the corresponding concentrations were 3.91 2.52 and 5.73 4.20 µg/g, resulting in bone penetration ratios of 10.6 6.3 and 17.5 16.1 %.
In summary, this study shows that the bone penetration of both substances is on average rather unsatisfactory and has a high variability, which can lead to inadequate bone concentrations for the prophylaxis of bone infections. One factor that could be identified for the penetration of both substances into cancellous bone was the period between the application of the drug and the removal of the bone. Therefore, a time interval between the administration of the antibiotic and the incision should be considered.
Immunosuppression is a risk factor for the development of various malignancies, including hematologic diseases. While the relationship between the use of immunosuppressive therapy with methotrexate and the development of an Epstein-Barr virus (EBV) associated lymphoproliferative disease (LPD) has been well established, this connection is less evident for immunosuppressive therapy with azathioprine.
The patient presented by us was immunosuppressed with azathioprine for autoimmune hepatitis. The development of an EBV-associated Hodgkin-like lymphoma under this immunosuppressive therapy and especially the regression of the lymphoma after cessation of azathioprine confirms the relationship between this immunosuppressant, EBV-infection and the development of Hodgkin-like lymphoma. Therefore, albeit in rare cases, azathioprine-related lymphomas may respond to mere cessation of immunosuppressive therapy without need for chemotherapy.
Apart from viral infections, drugs are a major cause of acute liver failure. Due to the lack of specific symptoms or tests, it is difficult to diagnose a drug-induced liver injury. We report a case of a young patient in whom different antibiotics, the analgesic and antipyretic acetaminophen or a combination of these drugs may have led to DILI resulting in life-threatening ALF. Based on this case report, we describe a procedure to exclude non-drug related causes and discuss the hepatotoxic potential of the involved drugs in this case.
Background and Purpose: Internal carotid artery stenosis ≥70% is a leading cause of ischemic cerebrovascular events. However, a considerable percentage of stroke survivors with symptomatic internal carotid artery stenosis have <70% stenosis with a vulnerable plaque. Whether the length of internal carotid artery stenosis is associated with high risk of ischemic cerebrovascular events or with white matter lesions is poorly investigated. Our main aim was to investigate the relation between the length of internal carotid artery stenosis and the development of ischemic cerebrovascular events as well as ipsi-, contralateral as well as mean white matter lesion load.
Methods: In a retrospective cross-sectional study, 168 patients with 208 internal carotid artery stenosis were identified. The degree and length of internal carotid artery stenosis as well as plaque morphology (hypoechoic, mixed or echogenic) were assessed on ultrasound scans. The white matter lesions were assessed in 4 areas separately, (periventricular and deep white matter lesions on each hemisphere), using the Fazekas scale. The mean white matter lesions load was calculated as the mean of these four values.
Results: A statistically significant inverse correlation between the ultrasound-measured length and degree of internal carotid artery stenosis was detected for symptomatic internal carotid artery stenosis ≥70% (Spearman correlation coefficient ρ = –0.57, p < 0.001, n = 51) but neither for symptomatic internal carotid artery stenosis <70% (ρ = 0.15, p = 0.45, n = 27) nor for asymptomatic internal carotid artery stenosis (ρ = 0.07, p = 0.64, n = 54). The median (IQR) length for symptomatic internal carotid artery stenosis <70% and ≥70% was 17 (15–20) and 15 (12–19) mm (p = 0.06), respectively, while that for symptomatic internal carotid artery stenosis <90% and symptomatic internal carotid artery stenosis 90% was 18 (15–21) and 13 (10–16) mm, respectively (p < 0.001). Among patients with internal carotid artery stenosis <70%, a cut-off length of ≥16 mm was found for symptomatic internal carotid artery stenosis rather than asymptomatic internal carotid artery stenosis with a sensitivity and specificity of 74.1% and 51.1%, respectively. Irrespective of the stenotic degree, plaques of the symptomatic internal carotid artery stenosis compared to asymptomatic internal carotid artery stenosis were significantly more often echolucent (43.2 vs. 24.6%, p = 0.02). The length but not the degree of internal carotid artery stenosis showed a very slight trend toward association with ipsilateral white matter lesions and with mean white matter lesions load.
Conclusion: We found a statistically insignificant tendency for the ultrasound-measured length of symptomatic internal carotid artery stenosis <70% to be longer than that of symptomatic internal carotid artery stenosis ≥70%. Moreover, the ultrasound-measured length of symptomatic internal carotid artery stenosis <90% was significantly longer than that of symptomatic internal carotid artery stenosis 90%. Among patients with symptomatic internal carotid artery stenosis ≥70%, the degree and length of stenosis were inversely correlated. Furthermore, we have shown that a slight correlation exists between the length of stenosis and the presence of ipsilateral white matter lesions which might be due to microembolisation originating from the carotid plaque. Larger studies are needed before a clinical implication can be drawn from these results.
An experimental setup for probing ultrafast dynamics at the diffraction limit was developed, characterized and demonstrated in the scope of the thesis, aiming for optical investigations while simultaneously approaching the physical limits on the length and timescale.
An overview of this experimental setup was given in Chapter 2, as well as the considerations that led to the selection of the individual components. Broadband laser pulses with a length of 9.3 fs, close to the transform limit of 7.6 fs, were focused in a NA = 1.4 immersion oil objective, to the diffraction limit of below 300 nm (FWHM).
The spatial focus shape was characterized with off-resonance gold nanorod scatterers scanned through the focal volume. For further insights into the functionality and limitations of the pulse shaper, its calibration procedure was reviewed. The deviations between designed and experimental pulse shapes were attributed to pulse-shaper artifacts, including voltage-dependent inter-layer as well as intra-layer LCD-pixel crosstalk, Fabry-Pérot-type reflections in the LCD layers, and space-time coupling. A pixel-dependent correction was experimentally carried out, which can be seen as an extension of the initial calibration to all possible voltage combinations of the two LCD layers.
The capabilities of the experimental setup were demonstrated in two types of experiments, targeting the nonlinearity of gold (Chapter 3) as well as two-dimensional spectroscopy at micro-structured surfaces (Chapter 4).
Investigating thin films, an upper bound for the absolute value for the imaginary part of the nonlinear refractive index of gold could be set to |n′′ 2 (Au)| < 0.6·10−16 m2/W, together with |n′ 2 (Au)| < 1.2·10−16 m2/W as an upper bound for the absolute value of the real part. Finite-difference time-domain simulations on y-shaped gold nanostructures indicated that a phase change of ∆Φ ≥ 0.07 rad between two plasmonic modes would induce a sufficient change in the spatial contrast of emission to the far-field to be visible in the experiment. As the latter could not be observed, this value of ∆Φ was determined as the upper bound for the experimentally induced phase change. An upper bound of 52 GW/cm2 was found for the damage threshold.
In Chapter 4, a novel method for nonlinear spectroscopy on surfaces was presented. Termed coherent two-dimensional fluorescence micro-spectroscopy, it is capable of exploring ultrafast dynamics in nanostructures and molecular systems at the diffraction limit. Two-dimensional spectra of spatially isolated hotspots in structured thin films of fluorinated zinc phthalocyanine (F16ZnPc) dye were taken with a 27-step phase-cycling scheme. Observed artifacts in the 2D maps were identified as a consequence from deviations between the desired and the experimental pulse shapes. The optimization procedures described in Chapter 2 successfully suppressed the deviations to a level where the separation from the nonlinear sample response was feasible.
The experimental setup and methods developed and presented in the scope of this thesis demonstrate its flexibility and capability to study microscopic systems on surfaces. The systems exemplarily shown are consisting of metal-organic dyes and metallic nanostructures, represent samples currently under research in the growing fields of organic semiconductors and plasmonics.
Summary
Introduction. Rapid and uncontrolled industrialisation and urbanisation in most developing countries are resulting in land, air and water pollution at rates that the natural environment cannot fully renew. These contemporary environmental issues have attracted local, national and international attention. The problem of urban garbage management is associated with rapid population growth in developing countries. These are pertinent environmental crises of sustainability and sanitation in Sub-Saharan Africa and other Third World countries. Despite efforts of the various tiers of government (the case of Nigeria with three tiers: Federal, State and Local governments) in managing solid waste in urban centres, it is still overflowing open dumpsites, litters streets and encroaches into water bodies. These affect the quality of urban living conditions and the natural environment.
Sub-Saharan and other developing countries are experiencing an upsurge in the accumulation and the diversity of waste including E-waste, waste agricultural biomass and waste plastics. The need for effective, sustainable and efficient management of waste through the application of 3Rs principle (Reduce, Reuse, and Recycle) is an essential element for promoting sustainable patterns of consumption and production. This study examined waste management in Imo State, Nigeria as an aspect correlated to the sustainability of its environment.
Materials and methods. To analyse waste management as a correlate of environmental sustainability in Sub-Saharan Africa, Imo State, in eastern Nigeria was chosen as a study area. Issues about waste handling and its impact on the environment in Imo have been reported since its creation in 1976; passing through the State with the cleanest State capital in 1980 to a ‘dunghill’ in 2013 and a ‘garbage capital’ on October 1, 2016. Within this State, three study sites were selected – Owerri metropolis (the State capital) Orlu and Okigwe towns. At these sites, households, commercial areas, accommodation and recreational establishments and schools, as well as dumpsites were investigated to ascertain the composition, quantity, distribution, handling patterns of waste in relation to the sustainability of the State’s environment. This was done conveniently but randomly through questionnaires, interviews, focus group discussions and non-participant observation; these were all heralded by a detailed deskwork. Data were entered using Microsoft Office Excel and were explored and analysed using the Statistical Package for Social Sciences - SPSS.
Data were made essentially of categorical variables and were analysed using descriptive statistics. The association between categorical variables was measured using Cramer’s V the Chi-Square that makes the power and the reliability of the test. Cramer’s V is a measure of association tests directly integrated with cross-tabulation. The Chi-Square test of equal proportions was used to compare proportions for significant differences at 0.05 levels. The statistical package - the Epi Info 6.04d was also used since a contingency table had to be created from several sub-outputs and determine the extent of association between the row and column categories.
The scale variable ‘quantity of waste generated’ was described using measures of central tendency. It was screened for normality using the Kolmogorov-Smirnov and Shapiro-Wilk tests for normality; in all context, the normality assumption was violated (P<0.05). Five null hypotheses were tested using Logistic Regression model. The explanatory power of individual conceptual component was calculated using the Cox & Snell R2 and that of individual indicators was also appraised using the Likelihood Ratio test.
In the context of this work, the significance of the variability explained by the model (baseline model) was appraised using the Omnibus Tests of Model Coefficients, the magnitude of this variability explained by the model using the Cox & Snell R2 and the effects of individual predictors using the Likelihood Ratio test.
Qualitatively, data from open-ended items, observations and interviews were analysed using the process of thematic analysis whereby concepts or ideas were grouped under umbrella terms or keywords. The results were presented using tables, charts, graphs, photos and maps.
Findings and discussions. The total findings and analyses indicated that proper waste handling in Imo State, Nigeria has a positive impact on the environment. This was assessed by the community’s awareness of waste management via sources like the radio and the TV, their education on waste management and schools’ integration of environmental education in their program. Although most community members perceived the State’s environment as compared to it about 10 years’ back has worsened, where they were conscious of proper waste handling measures, the environment was described to be better. This influence of environmental awareness and education on environmental sustainability appraised using Logistic Regression Model, portrayed a significant variability (Omnibus Tests of Model Coefficients: χ2=42.742; P=0.014), inferring that environmental awareness and education significantly predict environmental sustainability.
The findings also revealed that organic waste generation spearheaded amongst other waste types like paper, plastic, E-waste, metal, textile and glass. While waste pickers always sorted paper, plastics, aluminium and metal, some of them also sorted out textile and glass. Statistically (P<0.05), in situations where waste was least generated (i.e., 1-2kg per day), community members maintained that the environmental quality was better in comparison to 10 years’ back. Waste items like broken glass and textile as well as the remains of E-waste after the extraction of copper and brass were not sorted for and these contributed more to environmental degradation.
Similarly, the influence of wealth on environmental sustainability was appraised using Logistic Regression Model including development index related indicators like education, occupation, income and the ability to pay for waste disposal. Harmonising the outcome, farmers, who were mostly the least educated claimed to notice more environmental improvement. In addition, those who did not agree to pay for waste disposal who were mostly those with low income (less than 200,000 Naira, i.e. about 620 Euros monthly) perceived environmental improvement more than those with income above 200,000 Naira. This irony can be attributed to the fact that those with low educational backing lack the capacity to appreciate environmental sustainability pointers well as compared to those with a broader educational background with critical thinking.
The employment and poverty reduction opportunities pertaining to waste management on environmental sustainability was appraised using qualitative thematic analysis. All community members involved in sorting, buying and selling of waste items had no second job. They attested that the money earned from their activities sustained their livelihood and families. Some expressed love for the job, especially as they were their own masters. Waste picking and trading in waste items are offering employment opportunities to many communities around the world. For instance, in the waste recycling, waste composting, waste-to-energy plants and die Stadtreiniger in Würzburg city. The workers in these enterprises have jobs as a result of waste.
Waste disposal influence on environmental sustainability was appraised using the Binary Logistic Regression Model and the variability explained by the model was significant. The validity was also supported by the Wald statistics (P<0.05), which indicates the effect of the predictors is significant. Environmental sustainability was greatly reliant on indicators like the frequency at which community members emptied their waste containers; how/where waste is disposed of, availability of disposal site or public bin near the house, etc. Imolites who asserted to have public waste bins or disposal sites near their houses maintained that the quality of the State’s environment had worsened as such containers/disposal sites were always stinking as well as had animals and smoke around them. Imolites around disposal sites complained of traits like diarrhoea, catarrh, insect bites, malaria, smoke and polluted air.
Conclusions. The liaison between poor waste management strategies and the sustainability of the Imo State environment was considered likely as statistically significant ineffectiveness, lack of awareness, poverty, insufficient and unrealistic waste management measures were found in this study area. In these situations, the environment was said to have not improved. Such inadequacies in the handling of generated waste did not only expose the citizenry to health dangers but also gave rise to streets and roads characterized by filth and many unattended disposal sites unleashing horrible odour to the environment and attracting wild animals. This situation is not only prevalent in Imo State, Nigeria but in many Sub-Saharan cities.
Future Perspectives. To improve the environment in Sub-Saharan Africa, it is imperative to practice an inclusive and integrated sustainable waste management system. The waste quantity in this region is fast growing, especially food/organic waste. The region should aim at waste management laws and waste reduction strategies, which will help save and produce more food that it really needs. Waste management should be dissociated from epidemic outbreaks like cholera, typhoid, Lassa fever and malaria, whose vectors thrive in filthy environments. Water channels and water bodies should not be waste disposal channels or waste disposal sites.
Der allgemeinradiologische Ultraschall leistet einen wichtigen Beitrag in der Routinediagnostik der akuten Appendizitis bei Kindern und Erwachsenen. Die Zusammenschau aller verfügbaren diagnostischen Befunde sollte zur Entscheidung für oder gegen eine Operation herangezogen werden. Die sonographische Untersuchung kann dazu beitragen, die Negativ Appendektomierate zu senken.
The present dissertation includes three research papers dealing with the following banking topics: (dis-) incentives and risk taking, earnings management and the regulation of supervisory boards.
„Do cooperative banks suffer from moral hazard behaviour? Evidence in the context of efficiency and risk“:
We use Granger-causality techniques to evaluate the intertemporal relationships among risk, efficiency and capital. We use two different measures of bank efficiency, i.e., cost and profit efficiency, since these measures reflect different managerial abilities. One is the ability to manage costs, and the other is the ability to maximize profits. We find that lower cost and profit efficiency Granger-cause increases in liquidity risk. We also identify that credit risk negatively Granger-causes cost and profit efficiency. Most importantly, our results show a positive relationship between capital and credit risk, thus displaying that moral hazard (due to limited liability and deposit insurance) does not apply to our sample of cooperative banks. On the contrary, we find evidence that banks with low capital are able to improve their loan quality in subsequent periods. These findings may be important to regulators, who should consider banks’ business models when introducing new regulatory capital constraints.
„Earnings Management Modelling in the Banking Industry – Evaluating valuable approaches“:
Accounting research has separately studied the field of Earnings Management (EM) for non-financial and financial industries. Since EM cannot be observed directly, it is important for every research question in any setting to find a verifiable proxy for EM. However, we still lack a thorough understanding of what regressors can add value to the estimation process of EM in banks. This study tries to close this gap and analyses existing model specifications of discretionary loan loss provisions (LLP) in the banking sector to identify common pattern groups and specific patterns used. Thereupon, we use an US-dataset from 2005-2015 and apply prevalent test procedures to examine the extent of measurement errors, extreme performance and omitted-variable biases and predictive power of the discretionary proxies of each of the models. Our results indicate that a thorough understanding about the methodological modelling process of EM in the banking industry is important. The currently established models to estimate EM are appropriate yet optimizable. In particular, we identify non-performing asset patterns as the most important group, while loan loss allowances and net charge offs can add some value, though do not seem to be indispensable. In addition, our results show that non-linearity of certain regressors can be an issue, which should be addressed in future research, while we identify some omitted and possibly correlated variables that might add value to specifications in identifying non-discretionary LLP. Results also indicate that a dynamic model and endogeneity robust estimation approach is not necessarily linked to better prediction power.
„Board Regulation and its Impact on Composition and Effects – Evidence from German Cooperative Bank“:
This study employs a system GMM framework to examine the impact of potential regulatory intervention regarding the occupations of supervisory board members in cooperative banks. To achieve insights the study proceeds in two different ways. First, the author investigates the changes in board structure prior and following to the German Act to Strengthen Financial Market and Insurance Supervision (FinVAG). Second, the author estimates the influence of Ph.D. degree holders and occupational concentration on bank-risk changes in consideration of the implementation of FinVAG. Therefore, the sample consists of 246 German cooperative banks from 2006-2011. Regarding bank-risk the author applies four different measures: credit-, equity-, liquidity-risk and the Z-Score, with the former three also being addressed in FinVAG. Results indicate that the implementation of FinVAG results in structural changes in board composition, especially at the expense of farmers. In addition, the implementation affects all risk-measures and relations between risk-measures and supervisory board characteristics in a risk-reducing and therefore intended way.
To disentangle the complex relationship between board characteristics and risk measures the study utilizes a two-step system GMM estimator to account for unobserved heterogeneity, and simultaneity in order to reduce endogeneity problems. The findings may be especially relevant for stakeholders, regulators, supervisors and managers.
Wer war Erich Welter? Geboren 1900 in Straßburg, gelebt in Berlin, Frankfurt am Main und Mainz, gestorben 1982 in Frankfurt am Main. Sohn eines preußischen Beamten,
Weltkriegsveteran des Ersten und Zweiten Weltkriegs, Wirtschaftsredakteur, wissenschaftlicher Autor, Politikberater, Professor für Volkswirtschaftslehre und
Gründungsherausgeber der Frankfurter Allgemeinen Zeitung.
Erich Welter war vieles, vor allem war er jedoch ein anpackender Unternehmer. Über 30 Jahre prägte er die Geschicke der F.A.Z. Sein Name findet sich mit der Betitelung Gründungsherausgeber bis heute im täglichen Impressum der F.A.Z., trotzdem ist er selbst langjährigen Lesern der Zeitung nicht geläufig. Erich Welter agierte nicht gerne im grellen Licht der Öffentlichkeit, er stand im Hintergrund. In der vorliegenden Biografie werden die vielfältigen Facetten des Mannes hinter der F.A.Z. verfolgt und in ihrer Gesamtheit beschrieben.
Active galactic nuclei (AGN) are among the brightest and most frequent sources on the extragalactic X-ray and gamma-ray sky. Their central supermassive blackhole generates an enormous luminostiy through accretion of the surrounding gas. A few AGN harbor highly collimated, powerful jets in which are observed across the entire electromagnetic spectrum. If their jet axis is seen in a small angle to our line-of-sight (these objects are then called blazars) jet emission can outshine any other emission component from the system. Synchrotron emission from electrons and positrons clearly prove the existence of a relativistic leptonic component in the jet plasma. But until today, it is still an open question whether heavier particles, especially protons, are accelerated as well. If this is the case, AGN would be prime candidates for extragalactic PeV neutrino sources that are observed on Earth. Characteristic signatures for protons can be hidden in the variable high-energy emission of these objects. In this thesis I investigated the broadband emission, particularly the high-energy X-ray and gamma-ray emission of jetted AGN to address open questions regarding the particle acceleration and particle content of AGN jets, or the evolutionary state of the AGN itself. For this purpose I analyzed various multiwavelength observations from optical to gamma-rays over a period of time using a combination of state-of-the-art spectroscopy and timing analysis. By nature, AGN are highly variable. Time-resolved spectral analysis provided a new dynamic view of these sources which helped to determine distinct emission processes that are difficult to disentangle from spectral or timing methods alone.
Firstly, this thesis tackles the problem of source classification in order to facilitate the search for interesting sources in large data archives and characterize new transient sources. I use spectral and timing analysis methods and supervised machine learning algorithms to design an automated source classification pipeline. The test and training sample were based on the third XMM-Newton point source catalog (3XMM-DR6). The set of input features for the machine learning algorithm was derived from an automated spectral modeling of all sources in the 3XMM-DR6, summing up to 137200 individual detections. The spectral features were complemented by results of a basic timing analysis as well as multiwavelength information provided by catalog cross-matches. The training of the algorithm and application to a test sample showed that the definition of the training sample was crucial: Despite oversampling minority source types with synthetic data to balance out the training sample, the algorithm preferably predicted majority source types for unclassified objects. In general, the training process showed that the combination of spectral, timing and multiwavelength features performed best with the lowest misclassification rate of \\sim2.4\\%.
The methods of time-resolved spectroscopy was then used in two studies to investigate the properties of two individual AGN, Mrk 421 and PKS 2004-447, in detail. Both objects belong to the class of gamma-ray emitting AGN. A very elusive sub-class are gamma-ray emitting Narrow Line Seyfert 1 (gNLS1) galaxies. These sources have been discovered as gamma-ray sources only recently in 2010 and a connection to young radio galaxies especially compact steep spectrum (CSS) radio sources has been proposed. The only gNLS1 on the Southern Hemisphere so far is PKS2004-447 which lies at the lower end of the luminosity distribution of gNLS1. The source is part of the TANAMI VLBI program and is regularly monitored at radio frequencies. In this thesis, I presented and analyzed data from a dedicated multiwavelength campaign of PKS 2004-447 which I and my collaborators performed during 2012 and which was complemented by individual observations between 2013 and 2016. I focussed on the detailed analysis of the X-ray emission and a first analysis of its broadband spectrum from radio to gamma-rays. Thanks to the dynamic SED I could show that earlier studies misinterpreted the optical spectrum of the source which had led to an underestimation of the high-energy emission and had ignited a discussion on the source class. I show that the overall spectral properties are consistent with dominating jet emission comprised of synchrotron radiation and inverse Compton scattering from accelerated leptons. The broadband emission is very similar to typical examples of a certain type of blazars (flat-spectrum radio quasars) and does not present any unusual properties in comparison. Interestingly, the VLBI data showed a compact jet structure and a steep radio spectrum consistent with a compact steep spectrum source. This classified PKS 2004-447 as a young radio galaxy, in which the jet is still developing.
The investigation of Mrk 421 introduced the blazar monitoring program which I and collaborator have started in 2014. By observing a blazar simultaneously from optical, X-ray and gamma-ray bands during a VHE outbursts, the program aims at providing extraordinary data sets to allow for the generation of a series of dynamical SEDs of high spectral and temporal resolution. The program makes use of the dense VHE monitoring by the FACT telescope. So far, there are three sources in our sample that we have been monitoring since 2014. I presented the data and the first analysis of one of the brightest and most variable blazar, Mrk 421, which had a moderate outbreak in 2015 and triggered our program for the first time. With spectral timing analysis, I confirmed a tight correlation between the X-ray and TeV energy bands, which indicated that these jet emission components are causally connected. I discovered that the variations of the optical band were both correlated and anti-correlated with the high-energy emission, which suggested an independent emission component. Furthermore, the dynamic SEDs showed two different flaring behaviors, which differed in the presence or lack of a peak shift of the low-energy emission hump. These results further supported the hypothesis that more than one emission region contributed to the broadband emission of Mrk 421 during the observations.
Overall,the studies presented in this thesis demonstrated that time-resolved spectroscopy is a powerful tool to classify both source types and emission processes of astronomical objects, especially relativistic jets in AGN, and thus provide a deeper understanding and new insights of their physics and properties.
Current preclinical models used to evaluate novel therapies for improved healing include both in vitro and in vivo methods. However, ethical concerns related to the use of animals as well as the poor physiological translation between animal and human skin wound healing designate in vitro models as a highly relevant and promising platforms for healing investigation. While current in vitro 3D skin models recapitulate a mature tissue with healing properties, they still represent a simplification of the in vivo conditions, where for example the inflammatory response originating after wound formation involves the contribution of immune cells. Macrophages are among the main contributors to the inflammatory response and regulate its course thanks to their plasticity. Therefore, their implementation into in vitro skin could greatly increase the physiological relevance of the models. As no full-thickness immunocompetent skin model containing macrophages has been reported so far, the parameters necessary for a successful triple co-culture of fibroblasts, keratinocytes and macrophages were here investigated. At first, cell source and culture timed but also an implementation strategy for macrophages were deter-mined. The implementation of macrophages into the skin model focused on the minimization of the culture time to preserve immune cell viability and phenotype, as the environment has a major influence on cell polarization and cytokine production. To this end, incorporation of macrophages in 3D gels prior to the combination with skin models was selected to better mimic the in vivo environment. Em-bedded in collagen hydrogels, macrophages displayed a homogeneous cell distribution within the gel, preserving cell viability, their ability to respond to stimuli and their capability to migrate through the matrix, which are all needed during the involvement of macrophages in the inflammatory response. Once established how to introduce macrophages into skin models, different culture media were evaluated for their effects on primary fibroblasts, keratinocytes and macrophages, to identify a suitable medium composition for the culture of immunocompetent skin. The present work confirmed that each cell type requires a different supplement combination for maintaining functional features and showed for the first time that media that promote and maintain a mature skin structure have negative effects on primary macrophages. Skin differentiation media negatively affected macrophages in terms of viability, morphology, ability to respond to pro- and anti-inflammatory stimuli and to migrate through a collagen gel. The combination of wounded skin equivalents and macrophage-containing gels con-firmed that culture medium inhibits macrophage participation in the inflammatory response that oc-curs after wounding. The described macrophage inclusion method for immunocompetent skin creation is a promising approach for generating more relevant skin models. Further optimization of the co-cul-ture medium will potentially allow mimicking a physiological inflammatory response, enabling to eval-uate the effects novel drugs designed for improved healing on improved in vitro models.
Metal nanostructures have been known for a long time to exhibit optical resonances via localized surface plasmons. The high electric fields in close proximity to the metal surface have prospects to dramatically change the dynamics of electronic transitions, such as an enhanced spontaneous decay rate of a single emitter. However, there have been two major issues which impede advances in the experimental realization of enhanced light-matter interaction. (i) The fabrication of high-quality resonant structures requires state-of-the-art patterning techniques in combination with superior materials. (ii) The tiny extension of the optical near-field requires precise control of the single emitter with respect to the nanostructure. This work demonstrates a solution to these problems by combining scanning probe and optical confocal microscopy. Here, a novel type of scanning probe is introduced which features a tip composed of the edge of a single crystalline gold sheet. The patterning via focused ion beam milling makes it possible to introduce a plasmonic nanoresonator directly at the apex of the tip. Numerical simulations demonstrate that the optical properties of this kind of scanning probe are ideal to analyze light-matter interaction. Detailed experimental studies investigate the coupling mechanism between a localized plasmon and single colloidal quantum dots by dynamically changing coupling strength via their spatial separation. The results have shown that weak interaction affects the shape of the fluorescence spectrum as well as the polarization. For the best probes it has been found that it is possible to reach the strong coupling regime at the single emitter level at room temperature. The resulting analysis of the experimental data and the proposed theoretical models has revealed the differences between the established far-field coupling and near-field coupling. It has been found that the broad bandwidth of plasmonic resonances are able to establish coherent coupling to multiple transitions simultaneously giving rise to an enhanced effective coupling strength. It has also been found that the current model to numerically calculate the effective mode volume is inaccurate in case of mesoscopic emitters and strong coupling. Finally, light-matter interaction is investigated by the means of a quantum-dot-decorated microtubule which is traversing a localized nearfield by gliding on kinesin proteins. This biological transport mechanism allows the parallel probing of a meta-surface with nm-precision. The results that have been put forward throughout this work have shed new light on the understanding of plasmonic light-matter interaction and might trigger ideas on how to more efficiently combine the power of localized electric fields and novel excitonic materials.
Erwin Lendvai (1882-1949) und sein Beitrag zur Reform des Laienchorwesens in der Weimarer Republik
(2019)
„Nicht nur ein ausserordentlicher Kuenstler, sondern auch ein ganz vorzueglicher Paedagoge.“
So urteilte die Schülerschaft der von Fritz Jöde (1887-1970) gegründeten Volksmusikschule Hamburg bereits 1924 über den gebürtigen Ungarn und Wahldeutschen Erwin Lendvai (1882-1949). Wie kaum einem Zweiten gelang es Lendvai nach dem I. Weltkrieg sowohl die musikalischen Bedürfnisse der großen deutschsprachigen Sängerbünde wie dem DSB und dem D.A.S. zu erfüllen als auch seine Vorstellungen einer qualitativen Chorschulung und Chorbildung in seinen beiden selbst herausgegebenen Chorsammlungen „Schola Cantorum – Sammlung klassischer gemischter a cappella Chöre in Form einer systematischen Chorschulung“ (1927; mit einem Geleitwort von Hans Joachim Moser [1889-1967]) und „Der polyphone Männerchor. Sammlung originaler und bearbeiteter Vokalwerke aus drei Jahrhunderten“ (1928) umzusetzen, was Rezensionen zu seinen Werken, Briefe an ihn und Äußerungen über ihn, z. B. von Hanns Eisler (1898-1962), Franz Josef Ewens (1899-1974), Leo Kestenberg (1882-1962) und Hugo Leichtentritt (1874-1974), nahelegen. Auch seine Mitarbeit bei den „Lobeda-Singebücher“ (1931/1933) und seine Beiträge im „Volksliederbuch für die Jugend“ (1930) dokumentieren seine Bedeutung in jenen Jahren. Seine Leistungen ließen ihn während der Weimarer Republik zu einem der gefeiertsten Komponisten innerhalb der deutschsprachigen Laienchorbewegung und einem der führenden Chorpädagogen seiner Zeit werden. Nach der Machtergreifung Adolf Hitlers und der NSDAP 1933, emigrierte er 1938 nach Großbritannien, wo er als namenloser Musiker verstarb und in Vergessenheit geriet.
In der vorliegenden Dissertation „Erwin Lendvai (1882-1949) und sein Beitrag zur Reform der Laienchorbewegung während der Weimarer Republik“ wird umfassender als bisher geschehen das Leben und Werk dieser für die Chorforschung bedeutenden Persönlichkeit wieder in Erinnerung gerufen und kritisch gewürdigt.
Supramolecular self-assembly of perylene bisimide (PBI) dyes via non-covalent forces gives rise to a high number of different PBI architectures with unique optical and functional properties. As these properties can be drastically influenced by only slightly structural changes of the formed supramolecular ensembles (Chapter 2.1) the controlled self-assembly of PBI dyes became a central point of current research to design innovative materials with a high potential for different applications as for example in the fields of organic electronics or photovoltaics.
As PBI dyes show a strong tendency to form infinite aggregated structures (Chapter 2.2) the aim of this thesis was to precisely control their self-assembly to create small, structurally well-defined PBI assemblies in solution. Chapter 2.3 provides an overview on literature known strategies that were established to realize this aim. It could be demonstrated that especially backbone-directed intra- and intermolecular self-assembly of covalently linked Bis-PBI dyes evolved as one of the most used strategies to define the number of stacked PBI chromophores by using careful designed spacer units with regard to their length and flexibility.
By using conventional spectroscopic methods like UV/Vis and fluorescence experiments in combination with NMR measurements an in-depth comparison of the molecular and optical properties in solution both in the non-stacked and aggregated state of the target compounds could be elucidated to reveal structure-property relationships of different PBI architectures. Thus, it could be demonstrated, that spacer units that pre-organize two PBI chromophores with an inter-planar distance of r < 7 Å lead to an intramolecular folding, whereas linker moieties with a length between 7 to 11 Å result in an intermolecular self-assembly of the respective Bis-PBIs dyes via dimerization to form well-defined quadruple PBI pi-stacks. Hence, if the used spacer units ensure an inter-planar distance r > 14 Å larger oligomeric PBI pi-stacks are generated.
In Chapter 4 a detailed analysis of the exciton coupling in a highly defined H-aggregate quadruple PBI pi-stack is presented. Therefore, bay-tethered PBI dye Bis-PBI 1 was investigated by concentration-dependent UV/Vis spectroscopy in THF and toluene as well as by 2D-DOSY-NMR spectroscopy, ESI mass spectrometry and AFM measurements confirming that Bis-PBI 1 self-assembles exclusively into dimers with four closely pi-stacked PBI chromophores. Furthermore, with the aid of broadband fluorescence upconversion spectroscopy (FLUPS) ensuring broadband detection range and ultrafast time resolution at once, ultrafast Frenkel exciton relaxation and excimer formation dynamics in the PBI quadruple pi-stack within 1 ps was successfully investigated in cooperation with the group of Dongho Kim. Thus, it was possible to gain for the first time insights into the exciton dynamics within a highly defined synthetic dye aggregate beyond dimers. By analysing the vibronic line shape in the early-time transient fluorescence spectra in detail, it could be demonstrated that the Frenkel exciton is entirely delocalized along the quadruple stack after photoexcitation and immediately loses its coherence followed by the formation of the excimer state.
In Chapter 5 four well-defined Bis-PBI folda-dimers Bis-PBIs 2-4 were introduced, where linker units of different length (r < 7 Å) and steric demand were used to gain distinct PBI dye assemblies in the folded state. Structural elucidation based on in-depth UV/Vis, CD and fluorescence experiments in combination with 1D and 2D NMR studies reveals a stacking of the two PBI chromophores upon folding, where geometry-optimized structures obtained from DFT calculations suggest only slightly different arrangements of the PBI units enforced by the distinct spacer moieties. With the resulting optical signatures of Bis-PBIs 2-4 ranging from conventional Hj-type to monomer like absorption features, the first experimental proof of a PBI-based “null-aggregate” could be presented, in which long- and short-range exciton coupling fully compensate each other. Hence, the insights of this chapter pinpoint the importance of charge-transfer mediated short-range exciton coupling that can significantly influence the properties of pi-stacked PBI chromophores
In the last part of this thesis (Chapter 6), spacer-controlled self-assembly of four bay-linked Bis-PBI dyes Bis-PBIs 5-8 into well-defined supramolecular architectures was investigated, where the final aggregate structures are substantially defined by the nature of the used spacer units. By systematically extending the backbone length from 7 to 15 Å defining the inter-planar distance between the tethered chromophores, different assemblies from defined quadruple PBI pi-stacks to larger oligomeric pi-stacks could be gained upon aggregation.
In conclusion, the synthesis of nine covalently linked PBI dyes in combination with a detailed investigation of their spacer-mediated self-assembly behaviour in solution concerning structure-properties-relationships was presented within this thesis. The results confirm a strong exciton coupling in different types of Bis-PBI architectures e.g. folda-dimers or highly defined quadruple pi-stacks, which significantly influences their optical properties upon self-assembly.
This thesis elucidates patterns and drivers of invertebrate herbivory, herbivore diversity, and community-level biomass along elevational and land use gradients at Mt. Kilimanjaro, Tanzania.
Chapter I provides background information on the response and predictor variables, study system, and the study design. First, I give an overview of the elevational patterns of species diversity/richness and herbivory published in the literature. The overview illuminates existing debates on elevational patterns of species diversity/richness and herbivory. In connection to these patterns, I also introduce several hypotheses and mechanisms put forward to explain macroecological patterns of species richness. Furthermore, I explain the main variables used to test hypotheses. Finally, I describe the study system and the study design used.
Chapter II explores the patterns of invertebrate herbivory and their underlying drivers along extensive elevational and land use gradients on the southern slopes of Mt. Kilimanjaro. I recorded standing leaf herbivory from leaf chewers, leaf miners and gall-inducing insects on 55 study sites located in natural and anthropogenic habitats distributed from 866 to 3060 meters above sea level (m asl) on Mt. Kilimanjaro. Standing leaf herbivory was related to climatic variables [mean annual temperature - (MAT) and mean annual precipitation - (MAP)], net primary productivity (NPP) and plant functional traits (leaf traits) [specific leaf area (SLA), carbon to nitrogen ratio (CN), and nitrogen to phosphorous ratio (NP)]. Results revealed an unimodal pattern of total leaf herbivory along the elevation gradient in natural habitats. Findings also revealed differences in the levels and patterns of herbivory among feeding guilds and between anthropogenic and natural habitats. Changes in NP and CN ratios which were closely linked to NPP were the strongest predictors of leaf herbivory. Our study uncovers the role of leaf nutrient stoichiometry and its linkages to climate in explaining the variation in leaf herbivory along climatic gradients.
Chapter III presents patterns and unravels direct and indirect effects of resource (food) abundance (NPP), resource (food) diversity [Functional Dispersion (FDis)], resource quality (SLA, NP, and CN rations), and climate variables (MAT and MAP) on species diversity of phytophagous beetles. Data were collected from 65 study sites located in natural and anthropogenic habitats distributed from 866 to 4550 m asl on the southern slopes of Mt. Kilimanjaro. Sweep net and beating methods were used to collect a total of 3,186 phytophagous beetles representing 21 families and 304 morphospecies. Two groups, weevils (Curculionidae) and leaf beetles (Chrysomelidae) were the largest and most diverse families represented with 898 and 1566 individuals, respectively. Results revealed complex (bimodal) and dissimilar patterns of Chao1-estimated species richness (hereafter referred to as species diversity) along elevation and land use gradients. Results from path analysis showed that temperature and climate-mediated changes in NPP had a significant positive direct and indirect effect on species diversity of phytophagous beetles, respectively. The results also revealed that the effect of NPP (via beetles abundance and diversity of food resources) on species diversity is stronger than that of temperature. Since we found that factors affecting species diversity were intimately linked to climate, I concluded that predicted climatic changes over the coming decades will likely alter the species diversity patterns which we observe today.
Chapter IV presents patterns and unravels the direct and indirect effects of climate, NPP and anthropogenic disturbances on species richness and community-level biomass of wild large mammals which represent endothermic organisms and the most important group of vertebrate herbivores. Data were collected from 66 study sites located in natural and anthropogenic habitats distributed from 870 to 4550 m asl on the southern slopes of Mt. Kilimanjaro. Mammals were collected using camera traps and used path analysis to disentangle the direct and indirect effects of climatic variables, NPP, land use, land area, levels of habitat protection and occurrence of domesticated mammals on the patterns of richness and community-level biomass of wild mammals, respectively. Results showed unimodal patterns for species richness and community-level biomass of wild mammals along elevation gradients and that the patterns differed depending on the type of feeding guild. Findings from path analysis showed that net primary productivity and levels of habitat protection had a strong direct effect on species richness and community-level biomass of wild mammals whereas temperature had an insignificant direct effect. Findings show the importance of climate-mediated food resources in determining patterns of species richness of large mammals. While temperature is among key predictors of species richness in several ectotherms, its direct influence in determining species richness of wild mammals was insignificant. Findings show the sensitivity of wild mammals to anthropogenic influences and underscore the importance of protected areas in conserving biodiversity.
In conclusion, despite a multitude of data sets on species diversity and ecosystem functions along broad climatic gradients, there is little mechanistic understanding of the underlying causes. Findings obtained in the three studies illustrate their contribution to the scientific debates on the mechanisms underlying patterns of herbivory and diversity along elevation gradients. Results present strong evidence that plant functional traits play a key role in determining invertebrate herbivory and species diversity along elevation gradients and that, their strong interdependence with climate and anthropogenic activities will shape these patterns in future. Additionally, findings from path analysis demonstrated that herbivore diversity, community-level biomass, and herbivory are strongly influenced by climate (either directly or indirectly). Therefore, the predicted climatic changes are expected to dictate ecological patterns, biotic interactions, and energy and nutrient fluxes in terrestrial ecosystems in the coming decades with stronger impacts probably occurring in natural ecosystems. Furthermore, findings demonstrated the significance of land use effects in shaping ecological patterns. As anthropogenic pressure is advancing towards more pristine higher elevations, I advocate conservation measures which are responsive to and incorporate human dimensions to curb the situation. Although our findings emanate from observational studies which have to take several confounding factors into account, we have managed to demonstrate global change responses in real ecosystems and fully established organisms with a wide range of interactions which are unlikely to be captured in artificial experiments. Nonetheless, I recommend additional experimental studies addressing the effect of top-down control by natural enemies on herbivore diversity and invertebrate herbivory in order to deepen our understanding of the mechanisms driving macroecological patterns along elevation gradients.
Das anaplastische Schilddrüsenkarzinom ist eine seltene Erkrankung mit schlechter Prognose. Standardtherapieempfehlungen sind nicht etabliert.
Das Ziel dieser Arbeit war eine multizentrische Datenbank für seltene maligne Schilddrüsen- und Nebenschilddrüsentumoren in Deutschland zu entwerfen und in einem zweiten Schritt sowohl die klinische Präsentation, gegenwärtig eingesetzte Therapieregime und das Überleben des anaplastischen Schilddrüsenkarzinoms in Deutschland zu beschreiben, als auch klinische und therapieassoziierte Faktoren zu identifizieren, welche mit besserer Prognose verbunden waren.
Insgesamt wurden 129 Patienten mit anaplastischem Schilddrüsenkarzinom, die zwischen 2000 und 2018 an fünf deutschen Kliniken mit Schwerpunktversorgung diagnostiziert wurden, in die Analyse eingeschlossen. Das krankheitsspezifische Überleben (KSÜ) wurde mit Kaplan-Meier-Kurven und dem log-rank-Test verglichen; Risikofaktoren wurden mit Cox-Regression identifiziert.
Retrospektiv betrug das 6-Monats-, 1-Jahres- und 5-Jahres KSÜ 33, 23 und 5%. Das 6-Monats-KSÜ betrug 70, 52 und 22% für Stadium IVA, B und C. 26% der Patienten überleben ein Jahr und länger. In einer multivariaten Analyse des KSÜ zeigten sich Alter ≥70 Jahre, die lokal inkomplette Resektion, das Fehlen eines differenzierten Tumoranteils und das Vorhandensein von Fernmetastasen bei Erstdiagnose als signifikant mit längerem Überleben assoziiert. Bezüglich therapieassoziierter Faktoren zeigten sich in einer univariaten Analyse die lokale Strahlentherapie ≥40 Gy im Stadium IVB (p=0,020) sowie ebendiese und jegliche Form der medikamentösen Therapie in Stadium IVC (p=0,028 und <0,0001) signifikant mit längerem Überleben assoziiert. Ein multimodales Therapieregime war signifikant mit einem Überlebensvorteil in Stadium IVB und IVC (IVC: HR 0,1; 95%-KI 0,04-0,27; p<0,0001) verbunden.
Die Prognose des anaplastischen Schilddrüsenkarzinoms ist weiterhin schlecht. Die gefundenen Assoziationen von Therapieregimen mit verlängertem KSÜ liefern eine Rationale für deren Einsatz in der Standardbehandlung dieser Patienten. Multizentrische Forschungsstrukturen sollten weiter angestrebt werden um die Therapie des anaplastischen Schilddrüsenkarzinoms zu verbessern.
In der vorliegenden Dissertation - Kathoden für Metall-Luft Batterien - steht die Komponente Gasdiffusionselektrode (GDE) – oftmals auch als Luft-Kathode bezeichnet – einer wässrigen Metall-Luft Batterie im Fokus.
Ziel dieser Arbeit ist die Synthese und Charakterisierung verschiedener Katalysatorsysteme für die Sauerstoffreduktion und -evolution. Dabei soll auf die Verwendung von Edelmetallen verzichtet und der Einsatz von verfügbaren und günstigen Materialien bzw. Herstellungsprozessen favorisiert werden. Auf Basis von bekannten Materialklassen sollen repräsentative Katalysatoren synthetisiert und ihre katalytischen Aktivitäten für die Sauerstoffreduktion und -evolution bestimmt werden. Im Detail wird eine mögliche Korrelation der strukturellen Eigenschaften der Katalysatoren auf die katalytische Aktivität untersucht. Auf Basis dieser Erkenntnisse sollen die Katalysatoren modifiziert werden, um die katalytischen Eigenschaften weiter zu optimieren. Um einen geschlossenen Entwicklungszyklus in dieser Arbeit realisieren zu können, wird parallel ein kostengünstiger und skalierbarer Herstellungsprozess von GDEs entwickelt.
Ein weiteres Ziel dieser Arbeit ist es, Konzepte für sekundäre Zink-Luft Energiespeicher zu erarbeiten und deren Umsetzung zu untersuchen. Dabei kommen die zuvor entwickelten Katalysatoren zum Einsatz.
Die vorliegende Arbeit gliedert sich, nach der Darlegung der relevanten Grundlagen mit Stand der Wissenschaft und Technik, in vier Teilkapitel, in denen die einzelnen Ziele adressiert sind. Dies sind die Erforschung reiner Katalysatoren und hybrider Katalysatoren sowie die Etablierung eines Herstellungsprozesses für GDEs und die Implementierung dieser in sekundäre Zink-Luft Energiespeicher. Die experimentellen Grundlagen befinden sich im darauffolgenden Kapitel.
Die MP4-induzierte experimentelle autoimmune Encephalomyelitis (EAE) erlaubt eine fokussierte Betrachtung von B-Zellen, die eine wichtige Rolle bei der Pathogenese der Multiplen Sklerose (MS) spielen. Es konnte zum Beispiel gezeigt werden, dass das Vorhandensein von B-Zell-Aggregaten im zentralen Nervensystem (ZNS) von MS-Patienten mit einem aggravierten Krankheitsverlauf assoziiert war. Diese Follikel könnten dabei als ektope lymphatische Strukturen den Immunprozess aktiv gestalten und somit ein therapeutisches Ziel darstellen. In der vorliegenden Studie wurde der Effekt des Sphingosin-1-Phosphat-Rezeptor-Modulators Fingolimod (FTY720) auf die autoreaktive B-Zell-Antwort und speziell die Bildung von B-Zell-Aggregaten im Kleinhirn der MP4-EAE-Mäuse untersucht.
Breast cancer is the most common cancer among women worldwide and the second most common cause of cancer death in the developed countries. As the current state of the art in first-line drug screenings is highly ineffective, there is an urgent need for novel test systems that allow for reliable predictions of drug sensitivity.
In this study, a tissue engineering approach was used to successfully establish and standardize a 3-dimensional (3D) mamma carcinoma test system that was optimized for the testing of anti-tumour therapies as well as for the investigation of tumour biological issues. This 3D test system is based on the decellularised scaffold of a porcine small intestinal segment and represents the three molecular subsets of oestrogen receptor-positive, HER2/Neu-overexpressing and triple negative breast cancer (TNBC). The characterization of the test system with respect to morphology as well as the expression of markers for epithelial-mesenchymal transition (EMT) and differentiation indicate that the 3D tumour models cultured under static and dynamic conditions reflect tumour relevant features and have a good correlation with in vivo tumour tissue from the corresponding xenograft models. In this respect, the dynamic culture in a flow bioreactor resulted in the generation of tumour models that exhibited best reflection of the morphology of the xenograft material. Furthermore, the proliferation indices of 3D models were significantly reduced compared to 2-dimensional (2D) cell culture and therefore better reflect the in vivo situation. As this more physiological proliferation index prevents an overestimation of the therapeutic effect of cytostatic compounds, this is a crucial advantage of the test system compared to 2D culture. Moreover, it could be shown that the 3D models can recapitulate different tumour stages with respect to tumour cell invasion. The scaffold SISmuc with the preserved basement membrane structure allowed the investigation of invasion over this barrier which tumour cells of epithelial origin have to cross in in vivo conditions during the process of metastasis formation. Additionally, the data obtained from ultrastructural analysis and in situ zymography indicate that the invasion observed is connected to a tumour cell-associated change in the basement membrane in which matrix metalloproteinases (MMPs) are also involved. This features of the model in combination with the mentioned methods of analysis could be used in the future to mechanistically investigate invasive processes and to test anti-metastatic therapy strategies.
The validation of the 3D models as a test system with respect to the predictability of therapeutic effects was achieved by the clinically relevant targeted therapy with the monoclonal antibody trastuzumab which induces therapeutic response only in patients with HER2/Neu-overexpressing mamma carcinomas due to its specificity for HER2. While neither in 2D nor in 3D models of all molecular subsets a clear reduction of cell viability or an increase in apoptosis could be observed, a distinct increase in antibody-dependent cell-mediated cytotoxicity (ADCC) was detected only in the HER2/NEU-overexpressing 3D model with the help of an ADCC reporter gene assay that had been adapted for the application in the 3D model in the here presented work. This correlates with the clinical observations and underlines the relevance of ADCC as a mechanism of action (MOA) of trastuzumab. In order to measure the effects of ADCC on the tumour cells in a direct way without the indirect measurement via a reporter gene, the introduction of an immunological component into the models was required. This was achieved by the integration of peripheral blood mononuclear cells (PBMCs), thereby allowing the measurement of the induction of tumour cell apoptosis in the HER2/Neu-overexpressing model. Hence, in this study an immunocompetent model could be established that holds the potential for further testing of therapies from the emergent field of cancer immunotherapies.
Subsequently, the established test system was used for the investigation of scientific issues from different areas of application. By the comparison of the sensitivity of the 2D and 3D model of TNBC towards the water-insoluble compound curcumin that was applied in a novel nanoformulation or in a DMSO-based formulation, the 3D test system was successfully applied for the evaluation of an innovative formulation strategy for poorly soluble drugs in order to achieve cancer therapy-relevant concentrations. Moreover, due to the lack of targeted therapies for TNBC, the TNBC model was applied for testing novel treatment strategies. On the one hand, therapy with the WEE1 kinase inhibitor MK 1775 was evaluated as a single agent as well as in combination with the chemotherapeutic agent doxorubicin. This therapy approach did not reveal any distinct benefits in the 3D test system in contrast to testing in 2D culture. On the other hand, a novel therapy approach from the field of cellular immunotherapies was successfully applied in the TNBC 3D model. The treatment with T cells that express a chimeric antigen receptor (CAR) against ROR1 revealed in the static as well as in the dynamic model a migration of T cells into the tumour tissue, an enhanced proliferation of T cells as well as an efficient lysis of the tumour cells via apoptosis and therefore a specific anti-cancer effect of CAR-transduced T cells compared to control T cells. These results illustrate that the therapeutic application of CAR T cells is a promising strategy for the treatment of solid tumours like TNBC and that the here presented 3D models are suitable for the evaluation and optimization of cellular immunotherapies.
In the last part of this work, the 3D models were expanded by components of the tumour stroma for future applications. By coculture with fibroblasts, the natural structures of the intestinal scaffold comprising crypts and villi were remodelled and the tumour cells formed tumour-like structures together with the fibroblasts. This tissue model displayed a strong correlation with xenograft models with respect to morphology, marker expression as well as the activation of dermal fibroblasts towards a cancer-associated fibroblast (CAF) phenotype. For the integration of adipocytes which are an essential component of the breast stroma, a coculture with human adipose-derived stromal/stem cells (hASCs) which could be successfully differentiated along the adipose lineage in 3D static as well as dynamic models was established. These models are suitable especially for the mechanistic analysis of the reciprocal interaction between tumour cells and adipocytes due to the complex differentiation process.
Taken together, in this study a human 3D mamma carcinoma test system for application in the preclinical development and testing of anti-tumour therapies as well as in basic research in the field of tumour biology was successfully established. With the help of this modular test system, relevant data can be obtained concerning the efficacy of therapies in tumours of different molecular subsets and different tumour stages as well as for the optimization of novel therapy strategies like immunotherapies. In the future this can contribute to improve the preclinical screening and thereby to reduce the high attrition rates in pharmaceutical industry as well as the amount of animal experiments.
Die optimale Therapie einer Skaphoidpseudarthrose wird kontrovers diskutiert. Ziel dieser Studie war es, einen Überblick über die realistischen Ergebnisse der Standardtherapie mittels Interposition eines nicht vaskularisierten Knochentransplantates und Osteosynthese mit kanülierten Schrauben oder Drähten bei dem unselektionierten Patientengut einer spezialisierten handchirurgischen Einrichtung zu bekommen.
Im Rahmen einer klinisch- retrospektiven Studie wurden 70 Patienten untersucht, bei denen eine seit mindestens 6 Monaten bestehende Skaphoidpseudarthrose in der Klinik für Handchirurgie Bad Neustadt an der Saale im Zeitraum von 2006 bis 2009 in oben genannter Weise versorgt wurde mit Hilfe nicht- vaskularisierten Knochenmaterials.Ziel der Studie war es, einen Überblick über die reelen Heilungschancen bei einem relativ ungefilterten Patientengut zu bekommen.
Neben der körperlichen Untersuchung und der röntgenologischen Befundung wurden der DASH- Score und der Krimmer- Score sowie die verbale und die numerisch-visuelle Schmerzskala erfasst. Bei klärungsbedürftigem röntgenologischen Befund erfolgte die Durchführung einer CT.
Bei 40 Patienten (57%) kam es zu einer knöchernen Konsolidierung. 15 Patienten mussten insgesamt 22-mal nachoperiert werden. Die Schmerzen angegeben auf der numerisch-visuellen Schmerzskala besserten sich durch die Operation.
Die im Vergleich zur Literatur niedrige Konsolidierungsrate von 57% spiegelt nach unserer Auffassung die Versorgungsrealität in einer Ausbildungsklinik mit mehreren Operateuren mit unterschiedlicher Erfahrung wider und zeigt, dass die Therapie der Skaphoidpseudarthrose schwierig bleibt. Auffällig ist unserem Krankengut außerdem eine Inkohärenz zwischen knöcherner Heilung der Skaphoidpseudarthrose und subjektiver Beschwerdefreiheit.
Abstract:
Hintergrund: Die Nierentransplantation bietet einer wachsenden Zahl älterer Patienten mit terminaler Niereninsuffizienz ein verbessertes Überleben und eine höhere Lebensqualität. Ältere Empfänger von Nierentransplantaten können jedoch aufgrund einer höheren Komorbiditätsbelastung, eines höheren kumulativen Risikos von Komplikationen im Zusammenhang mit der Immunsuppression und einer zunehmenden Gebrechlichkeit vor besondere Herausforderungen gestellt werden. Dennoch ist wenig über den Einfluss des Alterns auf die Situation dieser wachsenden Klientel bekannt.
Diese Dissertation zielt darauf ab, die Überzeugungen und Werte, Einstellungen und Perspektiven älterer Nierentransplantatempfänger im oder über dem 60. Lebensjahr hinsichtlich gesundheitsbezogener Lebensqualität, Krankheitsbewältigung und Selbstmanagement beim Leben und Altern mit einem Nierentransplantat zu beschreiben, um die patientenzentrierte Nachsorge zu verbessern.
Methoden der systematischen qualitativen Übersicht: Bis April 2015 wurden elektronische Datenbanken durchsucht. Qualitative Studien waren verwendbar, wenn sie von den Einstellungen älterer Nierentransplantempfänger berichteten (≥ 60 Jahre). Zur Analyse der Ergebnisse wurde eine thematische Synthese verwendet.
Methodik der Interviewstudie: Es wurden persönliche, semi-strukturierte Interviews mit 30 Empfängern von Nierentransplantaten im Alter von 65 bis 80 Jahren aus fünf nephrologischen Einrichtungen in Australien durchgeführt. Die Transkripte wurden thematisch analysiert.
Ergebnisse der systematischen qualitativen Übersicht: 21 Studien mit mehr als 116 Empfängern wurden einbezogen. Es wurden sieben Themen identifiziert. Die Wiedererlangung von Stärke und Vitalität bedeutete, die physischen und psychosozialen Verbesserungen im Alltagsleben zu schätzen. Verlängerung des Lebens bezog sich auf die Bereitschaft, jedes Tranplantatorgan (notfalls auch eines, das nicht höchsten Qualitätskriterien entsprach) zu akzeptieren, um das Überleben zu verlängern. Dankesschuld bedeutete eine bewusste Wertschätzung der Transplantatempfänger gegenüber ihrem Spender, wobei sie wussten, dass sie dessen Opfer nicht zurückzahlen konnten. Moralische Verantwortung für den Erhalt der Gesundheit motivierte zur Einhaltung von Medikamenten- und Verhaltensempfehlungen aus einer ethischen Verpflichtung heraus, das Überleben des gespendeten Organs zu schützen. Anhaltende und zunehmende Vergesslichkeit behinderte die Selbstorganisation, Enttäuschung über Nebenwirkungen und Komplikationen spiegelte Frustration und Wut über die unbeabsichtigten Folgen der Medikation wider. Die Endgültigkeit der Behandlungsmöglichkeit bezog sich auf das Bewusstsein, dass die aktuelle Transplantation die letzte mögliche gewesen sein könnte.
Ergebnisse der Interviewstudie: Sechs Themen wurden identifiziert: Wiedererlangen jugendlicher Vitalität (mit Unterthemen: sich erholende Widerstandsfähigkeit, umfassende Lebensfreude, Drang zur Selbstverwirklichung); Hartnäckiges Überstehen der langwierigen Genesung (dem Altern nachgeben, funktionelle Einschränkungen akzeptieren, Grenzen überschreiten, dauerhafte Behandlungsverantwortung); Überlagerung durch andere Erkrankungen (Bekämpfung verheerender Komorbiditäten, schmerzhafte Einschränkungen, aufkommende Desillusionierung, Ängste wegen sich häufender Nebenwirkungen, aufzehrende Behandlungslast); Priorisieren des Transplantatüberlebens (privilegiert mit einem Wunder, Inkaufnehmen von Risiken für die Langlebigkeit, Erfüllen einer moralischen Verpflichtung, Bewahrung der letzten Gelegenheit); Konfrontation mit Gesundheitsverschlechterung (Verletzlichkeit und Hilflosigkeit, Verengung des Fokus auf unmittelbare Sorgen, Überlebensungewissheit); und Daseinswert (Lebenssinn durch Autonomie, Ablehnung der Last von vergeblicher Behandlung, Überleben unter allen Umständen).
Schlussfolgerung:
Die Transplantation im höheren Alter schenkt älteren Nierentransplantatempfängern Lebenskraft und Vitalität. Dankbar für den Überlebensgewinn, nutzen sie ihre Kraft, um ihre Gesundheit und die des Transplantats so lange wie möglich zu erhalten. Jedoch bedrohen eine langwierige Genesung, anhaltende und zunehmende Vergesslichkeit und Komplikationen durch chronische Komorbiditäten und Behandlungsnebenwirkungen die wiedererlangte Zufriedenheit und Lebensfreude. Enttäuschung entsteht über eine nicht enden wollende Behandlungslast. Einige renale Transplantatempfänger sehen ihr jetziges Transplantat als letzte Chance an und verknüpfen dies mit dem Wert ihres Daseins.
Unterstützung während eines langen Genesungsprozesses, das Aufrechterhalten von funktionalen Fähigkeiten, die Therapie behandelbarer Nebenwirkungen und die Wahrnehmung von Perspektiven, Zielen und Werteinstellungen beim Empfänger können die patientenorientierte Versorgung verbessern und älteren Empfängern ermöglichen, ihr Transplantat und ihre Lebensqualität zu erhalten.
Tumor necrosis factor (TNF)-like weak inducer of apoptosis (TWEAK) is a member of the TNF superfamily (TNFSF) and is as such initially expressed as type II class transmembrane glycoprotein from which a soluble ligand form can be released by proteolytic processing. While the expression of TWEAK has been detected at the mRNA level in various cell lines and cell types, its cell surface expression has so far only been documented for dendritic cells, monocytes and interferon-γ stimulated NK cells. The fibroblast growth factor-inducible-14 (Fn14) is a TRAF2-interacting receptor of the TNF receptor superfamily (TNFRSF) and is the only receptor for TWEAK. The expression of Fn14 is strongly induced in a variety of non-hematopoietic cell types after tissue injury. The TWEAK/Fn14 system induces pleiotropic cellular activities such as induction of proinflammatory genes, stimulation of cellular angiogenesis, proliferation, differentiation, migration and in rare cases induction of apoptosis. On the other side, Toll-like receptor3 (TLR3) is one of DNA- and RNA-sensing pattern recognition receptors (PRRs), plays a crucial role in the first line of defense against virus and invading foreign pathogens and cancer cells. Polyinosinic-polycytidylic acid poly(I:C) is a synthetic analog of dsRNA, binds to TLR3 which acts through the adapter TRIF/TICAM1, leading to cytokine secretion, NF-B activation, IRF3 nuclear translocation, inflammatory response and may also elicit the cell death. TWEAK sensitizes cells for TNFR1-induced apoptosis and necroptosis by limiting the availability of protective TRAF2-cIAP1 and TRAF2-cIAP2 complexes, which interact with the TNFR1-binding proteins TRADD and RIPK1. In accordance with the fact that poly(I:C)-induced signaling also involves these proteins, we found enhanced necroptosis-induction in HaCaT and HeLa-RIPK3 by poly(I:C) in the presence of TWEAK (Figure 24). Analysis of a panel of TRADD, FADD, RIPK1 and caspase-8 knockout cells revealed furthermore similarities and differences in the way how these molecules act in cell death signaling by poly(I:C)/TWEAK and TNF and TRAIL. RIPK1 turned out to be essential for poly(I:C)/TWEAK-induced caspase-8-mediated apoptosis but was dispensable for these responses in TNF and TRAIL signaling. Lack of FADD protein abrogated TRAIL- but not TNF- and poly(I:C)-induced necroptosis. Moreover, we observed that both long and short FLIP rescued HaCaT and HeLa-RIPK3 cells from poly(I:C)-induced apoptosis or necroptosis.
To sum up, our results demonstrate that TWEAK, which is produced by interferon stimulated myeloid cells, controls the induction of apoptosis and necroptosis by the TLR3 ligand poly(I:C) and may thus contribute to cancer or anti-viral immunity treatment.