@phdthesis{Schilling2020,
  author    = {Schilling, Klaus Jussi},
  title     = {Liquid chromatographic analysis of weakly- and non-chromophore compounds focusing on Charged Aerosol Detection},
  doi       = {10.25972/OPUS-20211},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-202114},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2020},
  abstract  = {Liquid chromatography has become the gold standard for modern quality control and purity analytics since its establishment in the 1930s. However, some analytical questions remain very challenging even today. Several molecules and impurities do not possess a suitable chromophore for the application of UV detection or cannot be retained well on regular RP columns. Possible solutions are found in derivatization procedures, but they are time consuming and can be prone to errors. In order to detect non chromophore molecules underivatized, the concept of aerosol based universal detection was established with the introduction of the evaporative light scattering detector (ELSD) in the 1970s and the charged aerosol detector (CAD) followed in 2002. These two challenging fields - polar and non chromophore molecules - are tackled in this thesis. An overview of applications of the CAD in the literature and a comparison to its aerosol based competitors and MS is presented, emphasizing on its high sensitivity and robustness. Parameters and techniques to overcome the drawbacks of CAD, such as the use of gradient compensation or adjusted evaporation temperatures are discussed. A consideration of aspects and drawbacks of data transformation such as the integrated power function value (PFV) in the GMP environment is performed. A method for the fatty acid analysis in polysorbate 80 that was developed on HPLC CAD was transferred to UHPLC CAD. Time and eluent savings of over 75\% and 40\%, respectively, as well as ways to determine the optimal CAD parameters resulted from this investigation. The evaporation temperature was determined as the most crucial setting, which has to be adjusted with care. Optimal signal to noise ratios are found at a compromise between maintaining analyte signal and reducing background noise. The incorporation of semi volatile short chain fatty acids enabled the observation of differences based on volatility of the analyte. E.g. for semi volatiles, an improved linearity by means of adjusting the PFV is achieved at values below 1.0 instead of at elevated PFVs. Using sugars and sugar related antibiotics, a proof-of-concept was given that artificial neural networks can describe correlations between the structure and physicochemical properties of molecules and their response in CAD. Quantitative structure property relationships obtained by design of experiment approaches were able to predict the response of unseen substances and yielded insights on the response generation of the detector, which heavily relies on the formed surface area of the dried particle. Further work can substantiate upon these findings, eventually building a library of diverse eluent compositions, analytes and settings. In order to cope with a chromatographically challenging substances, the application of ion pairing reversed phase chromatography coupled to low wavelength UV detection has been shown as a possible approach for the amino acid L asparagine. A method capable of compendial purity analysis in one single HPLC approach, thus making the utilization of the semi quantitative TLC-ninhydrin analysis obsolete, resulted from this. One cyclic dipeptide impurity (diketoasparagine) that was formerly not assessed, could be identified in several batches and added to the monograph of the Ph.Eur. Studying ibandronate sodium with CAD and ELSD, it was found that randomly occurring spike peaks represent a major flaw of the ELSD when high sample load is present. The research with this non chromophore bisphosphonate drug furthermore shed light on possible drawbacks of mixed mode chromatography methods and ways to overcome these issues. Due to strong adsorption of the analyte onto the column, over ten injections of the highly concentrated test solution were found to be necessary to ensure reproducible peak areas. Preconditioning steps should thus be evaluated for mixed mode approaches during method development and validation. Last, using a ternary mixed mode stationary phase coupled to CAD, a method for the impurity profiling of pamidronate disodium, also applicable to the assessment of phosphate and phosphite in four other bisphosphonate drugs, has been developed. This represents a major advantage over the Ph.Eur. impurity profiling of pamidronate, which requires two different methods, one of which is only a semi quantitative TLC approach.},
  subject      = {HPLC},
  language  = {en}
}
@phdthesis{HebronMwalwisi2018,
  author    = {Hebron Mwalwisi, Yonah},
  title     = {Assessment of Counterfeit and Substandard Antimalarial Medicines using High Performance Thin Layer Chromatography and High Performance Liquid Chromatography},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-145821},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2018},
  abstract  = {Although the prevalence of substandard and counterfeit pharmaceutical products is a global problem, it is more critical in resource-constrained countries. The national medicines regulatory authorities (MNRA) in these countries have limited resources to cater for regular quality surveillance programmes aimed at ensuring that medicines in circulation are of acceptable quality. Among the reasons explained to hinder the implementation of these strategies is that compendial monographs are too complicated and require expensive infrastructures in terms of environment, equipment and consumables. In this study it was therefore aimed at developing simple, precise, and robust HPLC and HPTLC methods utilizing inexpensive, readily available chemicals (methanol and simple buffers) that can determine the APIs, other API than declared one, and which are capable of impurity profiling. As an outcome of this study, three isocratic and robust HPLC and two HPTLC methods for sulfadoxine, sulfalene, pyrimethamine, primaquine, artesunate, as well as amodiaquine have been developed and validated. All HPLC methods are operated using an isocratic elution mode which means they can be implemented even with a single pump HPLC system and standard C18 columns. The densitometric sulfadoxine/sulfalene and pyrimethamine method utilizes standard TLC plates as well as inexpensive, readily available and safe chemicals (toluene, methanol, and ethyl acetate), while that for artesunate and amodiaquine requires HPTLC plates as well as triethylamine and acetonitrile due to challenges associated with the analysis of amodiaquine and poorly the detectable artesunate. These HPTLC methods can be implemented as alternative to those requiring HPLC equipment e.g. in countries that already have acquired densitometer equipment. It is understood that HPTLC methods are less sensitive, precise and accurate when compared to HPLC methods, but this hindrance can easily be addressed by sending representative samples to third party quality control laboratories where the analytical results are verified using compendial HPLC methods on a regular basis. It is therefore anticipated that the implementation of these methods will not only address the problem of limited resources required for medicines quality control but also increase the number of monitored targeted antimalarial products as well as the number of resource- constrained countries participating in quality monitoring campaigns. Moreover, the experiences and skills acquired within this work will be applied to other API groups, e. g. antibiotics, afterwards.},
  subject      = {Instrumentelle Analytik},
  language  = {en}
}
@phdthesis{Kuehnreich2016,
  author    = {K{\"u}hnreich, Raphael},
  title     = {Development and Validation of Methods for Impurity Profiling of Amino Acids},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-145718},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2016},
  abstract  = {The requirements for the impurity profiling of substances for pharmaceutical use have become greater over time. They can be accomplished by the use of modern instrumental analysis techniques, which have been evolved in the last decades. New types of columns with HILIC, mixed-mode and chiral stationary phases are suitable for the separation of all kinds of substances mixtures, that were previously hardly possible with the use of common reversed phase columns. Modern, almost universal detectors like CAD, ELSD and CNLSD can be applied for a sensitive detection of substances without a chromophore. However, in addition to some small individual disadvantages to these methods, the costs are high and applications are still kind of rare. Thus, the introduction of these devices at a broader level has not yet taken place. While this presumably will change over time, there is a need for methods that enable the impurity profiling of challenging substances with widespread analytics devices. Methionine is a substance with hydrophobic and hydrophilic impurities. With the help of a mixed-mode stationary phase, which is a combination of a reversed phase and a strong cationic exchanger, the separation of all putative impurities was found possible with good sensitivity and selectivity. The method requires apart from the column only standard isocratic HPLC equipment and was successfully validated. The evaluation of the enantiomeric purity of amino acids is challenging. Two approaches were made. The first method utilizes CE by means of in-capillary derivation with OPA and the subsequent separation with a cyclodextrin. With the use of OPA/NAC and γ-cyclodextrin, a simple and cost-effective method for the indirect enantioseparation of 16 amino acids was developed. With the second approach, racemic amino acids can be analyzed with HPLC and in-needle derivatization. For this, different columns and chiral thiols were evaluated and the chromatographic parameters were optimized. A method with OPA/NIBLC, a pentafluorophenyl column made the enantioseparation of 17 amino acids feasible. A LOQ of the minor enantiomer down to 0.04 \% can be achieved with UV spectrophotometric detection. A similar method was developed for impurity profiling of L-amino acids. This can be used alternatively for the amino acid analysis performed by the European Pharmacopoeia. A simple, robust, precise and accurate method for the evaluation of impurities in glyceryl trinitrate solution was developed and validated. The four impurities of glyceryl trinitrate are separated by means of an acetonitrile-water gradient and the assay for this substance is also possible.},
  subject      = {Aminos{\"a}uren},
  language  = {en}
}
@phdthesis{Theiss2019,
  author    = {Theiss, Christiane},
  title     = {Qualitative Charakterisierung polydisperser Macrogole sowie strukturell verwandter Hilfsstoffe mittels HPLC-CAD},
  doi       = {10.25972/OPUS-17927},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-179274},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {The class of macrogols and macrogol-based excipients, i.e. macrogol fatty alcohol ethers, macrogol fatty acid esters, and polysorbates, plays an important role in modern galenic formulations. Formerly used as simple emulsifiers, they are nowadays utilized in fields such as targeted drug release to increase bioavailability, and as solubilizers for complex systems. For these multifaceted applications, and regarding the polydisperse structures of the macrogols, a reproducible and significant analytical procedure is required. For the characterization of excipients, the European Pharmacopoeia (Ph. Eur.) provides some compendial protocols which are able to describe the number of functional groups present in the substance. Some examples of these bulk parameters are the hydroxyl value, the iodine value, the peroxide value, or the acid value. Thus, these bulk parameters allow an overview of the average molar weight or possible degradation processes (e.g. autoxidation), but they provide no further information about the polymeric distribution which can heavily depend on the manufacturing process. Furthermore, bulk parameter investigations are very time-consuming and prone to errors due to their stringent reaction processes and numerous reaction steps. Since several years, the HPLC has been the gold standard of pharmaceutical analytics particularly due to the fact of automation. Coupled to UV detection, it offers the opportunity for a quick, easy, and robust analysis for many drugs. In the field of excipients, the development progress of HPLC-analysis is much slower due to the fact that most excipients lack a UV-chromophore. The application of the highly sensitive mass spectrometry would be eligible for detection but is rather complex and expensive. However, the development of the aerosol-based detectors such as the ELSD (evaporative light scattering detection), the CAD (charged aerosol detection), and the NQADTM (nano quantity aerosol detection) enables the application of HPLC for analyzing non-chromophoric substances. This work aimed to develop a generic HPLC-CAD method to analyze a wide range of macrogols and macrogol-based excipients. The separation was performed on a C18-column. A gradient method was developed based upon several linear gradient steps in order to be able to separate the different chain lengths. The mobile phases were water and acetonitrile, respectively, to which 0.1\% formic acid was added. Macrogols in the average size range of PEG 300 to PEG 3000 were separated with acceptable resolution. The separation results were verified by mass spectrometry for PEG 300 - 1500. Five saturated and two non-saturated fatty acids, as well as two fatty alcohols of different chain lengths were successfully separated. 13 macrogol-based excipients were analyzed with the developed method and separated successfully. The macrogol fatty alcohol ethers, macrogol stearates, and polysorbates were separated to sufficient extent to analyze the polymeric distribution. The free PEGs in the excipients were separated and identified. Based on these free PEGs, different manufactural processes could be determined. Depending on the average chain lengths of the processed PEGs, the free fatty acids or alcohols could be identified and separated from the esters or ethers, respectively. For the smaller average chain lengths, the free fatty acids and alcohols coeluted with the esters and ethers. Macrogol glycerol hydroxy stearate (Cremophor® RH40) was separated into its components except for the linear monoesters which partially coeluted with the free PEGs, and the glycerol triesters which showed effects of size exclusion. The developed method was also used for stability tests of the non-saturated fatty acids, i.e. oleic and linoleic acid. Here, the fatty acid solutions were chemically (hydrogen peroxide) and thermally (60 °C) stressed and analyzed after different time spans. A time and temperature dependent degradation was observed. An assignment of some degradation products was performed by determining the m/z values with mass spectrometry. The method proved to be capable of separating the degradation products of the main substance and allows to estimate the dimension of degradational processes and partly identify the structures of the degradational products. In general, the provided method offers a good basis for analyzing and characterizing a wide field of substance classes. It provides an extension of bulk parameters (e.g. hydroxyl value) with a reduction of analytical effort. It offers a good starting point for more specific observations such as long-term stability or other related substance classes.},
  subject      = {HPLC},
  language  = {de}
}
@phdthesis{MufusamaKoySita2019,
  author    = {Mufusama Koy Sita, Jean-Pierre},
  title     = {Quality Assessment of Antimalarial Medicines Sold in the Democratic Republic of the Congo and Phytochemical Investigations on a Congolese Ancistrocladus Liana},
  doi       = {10.25972/OPUS-19238},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-192382},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {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.},
  subject      = {Antimalariamittel},
  language  = {en}
}
@phdthesis{Bank2014,
  author    = {Bank, Stephanie},
  title     = {LC-ESI und MALDI-Massenspektrometrische Analyse nativer und derivatisierter Zucker und Glykane},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-106085},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2014},
  abstract  = {Glykane sind weitverbreitete Biomolek{\"u}le, die meist in Form von Glykokonjugaten, wie beispielsweise als Glykoproteine oder Glykolipide, vorliegen. Durch die Interaktion von Glykanen mit Glykan-bindenden Proteinen wird eine Vielzahl an biochemischen Prozessen ausgel{\"o}st, sowohl physiologischer, als auch pathologischer Art. Die Aufkl{\"a}rung der beteiligten Glykanstrukturen ist daher nicht nur wichtig f{\"u}r das Verst{\"a}ndnis dieser Prozesse, sondern kann auch Hinweise auf verschiedene Erkrankungen geben. Die Identifizierung von Glykanstrukturen kann {\"u}ber verschiedene Wege erfolgen. In der instrumentellen Analytik spielt dabei vor allem die ESI- und MALDI Massenspektrometrie eine wichtige Rolle, da diese sowohl f{\"u}r Detektion, als auch Fragmentierung großer Biomolek{\"u}le geeignet sind. Um die Analyse von Zuckern mittels chromatographischer und massenspektrometrischer Methoden zu erleichtern, werden h{\"a}ufig Derivatisierungsreagenzien eingesetzt. Diese verringern die Polarit{\"a}t der Zucker und erleichtern die Detektion durch das Einbringen von Chromo- oder Fluorophoren. Zur Derivatisierung am reduzierenden Terminus von Glykanen und Zuckern eignen sich vor allem Aminierungsreagenzien oder Hydrazide. Hydrazide haben gegen{\"u}ber anderen Derivatisierungsreagenzien den Vorteil einer einfachen, salzfreien Umsetzung, aus der ein stabiles Derivat mit geschlossenem terminalen Zuckerring hervorgeht. F{\"u}r die vorliegende Arbeit wurde die Derivatisierung mit den neuen Hydrazid Reagenzien INH und BINH, sowie dem bereits von Dr. P. Kapkov{\´a} bearbeiteten BACH untersucht. Als Vergleich dienten die underivatisierten Kohlenhydrate, wie auch das standardm{\"a}ßig eingesetzte Aminierungsreagenz 2-AB. Dabei sollte das Ver-halten verschiedener Zucker und Glykane in Bezug auf chromatographische Trennung, Signalintensit{\"a}t und Fragmentierung analysiert werden. Zun{\"a}chst wurde die Umsetzung von Mono-, Di- und Trisacchariden mit den neuen Derivatisierungsreagenzien INH und BINH optimiert. Dadurch konnte bei beiden Substanzen die komplette Umsetzung der Zucker in ihre Derivate gew{\"a}hrleistet werden. Auch die Derivatisierung mit Hilfe der Mikrowelle konnte bei INH erfolgreich durchgef{\"u}hrt werden. Auf diese Weise ließ sich die Reaktionszeit, im Vergleich zu den im Thermo-mixer® ben{\"o}tigten 90 Minuten, auf 20 Minuten verk{\"u}rzen. Aufgrund der großen Men-gen an Zucker und Derivatisierungsreagenz, die f{\"u}r die Umsetzung in der Mikrowelle n{\"o}tig sind, war der Versuch jedoch nur f{\"u}r INH geeignet. Im n{\"a}chsten Schritt wurde das Trennverhalten der verschiedenen Mono-, Di- und Tri-saccharid-Derivate auf RP-C18- und HILIC-Phasen untersucht. Bei den Monosaccha-riden konnte durch keines der Derivate eine vollst{\"a}ndige Trennung auf einer der Pha-sen erreicht werden. Das beste Ergebnis wurde durch INH auf der HILIC-S{\"a}ule erzielt, doch auch dort konnten die Epimere Glucose, Mannose und Galactose nicht vollst{\"a}n-dig separiert werden. Die Trennung der Disaccharide Maltose, Cellobiose und Lactose konnte auf der HILIC-Phase mit allen Derivaten außer BACH erfolgreich durchgef{\"u}hrt werden, auf der RP-C18 erwies sich dagegen nur 2-AB als geeignet. Bei den Trisac-chariden 3'SLN und 6'SLN konnten sowohl underivatisierte Zucker, als auch s{\"a}mtliche Derivate mittels HILIC getrennt werden. Auch auf der C18-Phase war eine Trennung der BINH, BACH und 2-AB-Derivate m{\"o}glich. Des Weiteren konnte durch die Derivati-sierungen die Signalintensit{\"a}t gegen{\"u}ber den underivatisierten Zuckern deutlich gesteigert werden. Nach ihrer Trennung lassen sich massegleiche Di- und Trisaccharide anhand des Fragmentierungsmusters unterscheiden. W{\"a}hrend bei den underivatisierten Disaccha-riden Maltose, Cellobiose und Lactose die charakteristischen Fragmente nur schwach sichtbar waren, konnte mit Hilfe der Hydrazide INH, BINH und BACH die Differenzie-rung deutlich erleichtert werden. Die 2-AB-Derivatisierung zeigte dagegen keine Ver-besserung der Fragmentierungseigenschaften. Bei der Unterscheidung der Trisaccharide 3'SLN und 6'SLN waren ebenfalls sowohl underivatisierte, als auch Hydrazid-derivatisierte Zucker im Vorteil gegen{\"u}ber den 2-AB-Derivaten. Die Derivatisierung der N-Glykane von Ribonuclease B und Ovalbumin f{\"u}hrte bei der Analyse mittels MALDI-TOF zu einer deutlichen Steigerung der Sensitivit{\"a}t. Beispiels-weise ließen sich bei den Glykanen des Ovalbumins durch die Derivatisierungen drei zus{\"a}tzliche Strukturen im Vergleich zu den nativen Glykanen detektieren. Auch das Fragmentierungsverhalten der Glykane am MALDI-TOF/TOF konnte mit Hilfe der Derivatisierungen erheblich verbessert werden. Besonders die Umsetzung mit BINH f{\"u}hrte zu einer Vielzahl charakteristischer Ringfragmente, wodurch die Aufkl{\"a}rung der verschiedenen Glykanstrukturen deutlich vereinfacht wurde. Auch im Vergleich zu 2 AB zeigten die Hydrazid-Derivate sowohl bessere Fragmentierungseigenschaften, als auch eine einfachere Handhabung f{\"u}r die Messung mittels MALDI-MS. Eine weitere M{\"o}glichkeit zur Identifikation von Glykanstrukturen liegt in der spezifischen Bindung durch Lektine. Diese Untersuchung gibt des Weiteren auch einen Hinweis auf funktionelle Eigenschaften der Glykane. Daf{\"u}r wird die hohe Affinit{\"a}t von Biotin-haltigen Derivatisierungsreagenzien zu Avidin und Streptavidin genutzt. Nach der auf diese Weise erfolgten Immobilisierung der Glykane k{\"o}nnen diese mittels spezifischer Lektine nachgewiesen werden. Die Eignung des neuen Derivatisierungsreagen-zes BINH f{\"u}r diese Zwecke wurde anhand eines Glykan-Arrays getestet. Dadurch ließ sich best{\"a}tigen, dass BINH-derivatisierte Glykane und Zucker sowohl in der Lage sind an Streptavidin zu binden, als auch durch Lektine nachgewiesen werden k{\"o}nnen. Daher kann davon ausgegangen werden, dass BINH grunds{\"a}tzlich f{\"u}r den Einsatz in bio-chemischen Methoden geeignet ist. Zusammenfassend l{\"a}sst sich sagen, dass die Derivatisierung von Kohlenhydraten mit INH, BINH und BACH zu einer deutlichen Verbesserung der Trenn- und Fragmentierungseigenschaften f{\"u}hrten. Dadurch konnten Identifizierung und Strukturanalyse sowohl von kleinen Zuckern, als auch von Glykanen erleichtert werden. Im Vergleich zu dem Standard-Derivatisierungsreagenz 2-AB zeigten die Hydrazide nicht nur im Bereich der Fragmentierungen, sondern auch durch die einfachere Derivatisierungsreaktion wesentliche Vorteile.},
  subject      = {MALDI-MS},
  language  = {de}
}
@phdthesis{Sowik2014,
  author    = {Sowik, Thomas},
  title     = {Assessment of the surface functionalization of SPION and DND nanomaterials for cellular uptake and fluorescence imaging},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-103709},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2014},
  abstract  = {The aim of this work was to synthesize and functionalize different bio-relevant nanomaterials like silica-coated superparamagnetic iron oxide nanoparticles (SPIONs) as contrast agents for T2 magnetic resonance imaging (MRI) and detonation nanodiamond (DND) with the neurohormone peptide allatostatin 1 (ALST1) and a fluorescent dye. Analytical techniques for the determination and quantification of surface functional groups like amines, azides, and peptides were also developed and established. Thus, in the first part of the work, a TGF-1 binding peptide and allatostatin 1 (ALST1), both supposed to act as active tumour targeting vectors, were synthesized by solid-phase peptide synthesis (SPPS) and characterized by high pressure liquid chromatography (HPLC) and mass spectrometry. Then, azide-functionalized silica nanoparticles were synthesized by the St{\"o}ber process and characterized by transmission electron microscopy (TEM) and infrared spectroscopy (IR). The surface loading of amine and azide groups was determined by a new protocol. The azide groups were reduced with sodium boronhydride to amine and then functionalized with Fmoc-Rink Amide linker according to a standard SPPS protocol. Upon cleavage of Fmoc by piperidine, the resulting dibenzofulvene and its piperidine adduct were quantified by UV/Vis spectroscopy and used to determine the amount of amine groups on the nanoparticle surface. Then, ALST1 and related tyrosine- and phenylalanine substituted model peptides were conjugated to the azide-functionalized silica nanoparticles by copper(I)-catalyzed azide-alkyne dipolar cycloaddition (CuAAC). The successful peptide conjugation was demonstrated by the Pauly reaction, which however is only sensitive to histidine- and tyrosine-containing peptides. As a more general alternative, the acid hydrolysis of the peptides to their individual amino acid building blocks followed by derivatization with phenyl isothiocyanate (PITC) allowed the separation, determination, and quantification of the constituent amino acids by HPLC. In the second part of the work, amine- and azide-functionalized silica-coated superparamagnetic iron oxide nanoparticles (SPIONs) were synthesized by co-precipitation and subsequent silica-coated based on the St{\"o}ber process and characterized by TEM and IR. The amine surface loading was determined by the method already established for the pure silica systems. The azide surface loading could also be quantified by reduction with sodium boronhydride to amine groups and then conjugation to Fmoc-Rink amide linker. Upon cleavage of Fmoc with piperidine, the total amine surface loading was obtained. The amount of azide surface groups was then determined from the difference of the total amine surface loading and the amine surface loading. Thus, it was possible to quantify both amine and azide surface groups on a single nanoparticle system. Superparamagnetic iron oxide nanoparticles (SPIONs) are potent T2 contrast agents for magnetic resonance imaging (MRI). Due to their natural metabolism after injection into the blood stream, SPIONs mostly end up inside macrophages, liver, spleen or kidneys. To generate a potential target-specific SPION-based T2 contrast agent for MRI, the neurohormone peptide ALST1 was conjugated by CuAAC to the azide- and amine functionalized superparamagnetic iron oxide nanoparticles, since ALST1 is supposed to target difficult-to-treat neuroendocrinic tumours due to its analogy to galanin and somastatin receptor ligands. The organic fluorescent dye cyanine 5 (Cy5) was also conjugated to the silica-coated superparamagnetic iron oxide nanoparticles (SPIONs) via a NHS-ester to the amines to enable cell uptake studies by fluorescence microscopy. These constructs were characterized by TEM, dynamic light scattering (DLS), and IR. The amino acids of the conjugated ALST1 were determined by the HPLC method as described before for peptide-modified silica nanoparticle surfaces. Then, the relaxivity r2 was measured at 7 T. However, a r2 value of 27 L/mmolFe·s for the dual ALST1-/Cy5-functionalized silica-coated SPIONs was not comparable to T2 contrast agents in clinical use, since their relaxivity is commonly determined at 1.5 T, and no such instrument was available. However, it can be assumed that the synthesized dual ALST1-/Cy5-functionalized silica-coated SPION would show a lower r2 at 1.5 T than at 7T. Commercial T2 MRI contrast agents like VSOP-C184 from Ferropharm show at r2 values of about 30 L/mmolFe·s at 1.5 T. Still, the relaxivity of the new material has some potential for application as a T2 contrast agent. Then, the material was used in cell uptake studies by fluorescence microscopy with the conjugated Cy5 dye as a probe. The dual ALST1-/Cy5-functionalized silica-coated SPION showed a high degree of agglomeration with no cellular uptake unlike described for ALST1-functionalized nanoparticles in literature. It is assumed that upon agglomeration of the particles, constructs form which are unable to be internalized by the cellular endocytotic pathways anymore. As a future perspective, the tendency of the particle to agglomerate should be reduced by changing the coating material to polyethylene glycol (PEG) or chitosan, which are known to be bio-compatible, bio-degradable and prevent agglomeration. In the third part of the work, the rhenium compound [ReBr(CO)3(L)] with L = 2-phenyl-1H-imidazo[4,5-f][1,10]phenanthroline and its manganese analogue were synthesized by heating the ligand and rhenium pentacarbonyl bromide or and manganese pentacarbonyl bromide respectively, in toluene. However, [MnBr(CO)3(L)] was unstable upon illumination by UV light at 365 nm. Thus, it was dismissed for further application. The photophysical properties of [ReBr(CO)3(L)] were explored, by determination of the excited-state life time by the time-correlated single-photon counting (TCSPC) method and the quantum yield by a fluorescence spectrometer equipped with an integration sphere. A value of  = 455 ns, a Stokes shift of 197 nm and a rather low quantum yield =were found. Metal complexes are supposed to have superior properties compared to organic dyes due to their large Stokes shifts, long excited-state life times, and high quantum yields. Thus, amine- and azide-functionalized detonation nanodiamond (DND) as an alternative biological inert carrier system was functionalized with ALST1 to enhance its cell uptake properties. A luminescent probe for cell uptake studies using fluorescence microscopy was also attached, either based on the new rhenium complex or the commercially available organic dye Cy5, respectively. The aldehyde-functionalized rhenium complex was conjugated to the DND via oxime ligation, which is known to be a mild and catalyst-free conjugation method. The amount of peptide ALST1 on the DND was analyzed and quantified after acid hydrolysis and PITC derivatization by HPLC as described before. Then, the ALST1-/luminescent probe-functionalized DND was investigated for its photophysical properties by fluorescence spectroscopy. The Cy5-functionalized material showed a slightly lower fluorescence performance in aqueous solution than reported in literature and commercial suppliers with a life time  < 0.4 ns and quantum yields not determinable by integration sphere due to the week signal intensity. The rhenium complex-functionalized material had a very low signal intensity in only aqueous medium, and thus determination of life times and quantum yield by fluorescence spectroscopy was not possible. After incubation with MDA-MB 231 cells, the Cy5-functionalized DND could easily be detected due to its red fluorescence. However, it was not possible to visualize the rhenium complex-functionalized DND with fluorescence microscopy due to the low fluorescence intensity of the complex in aqueous medium and the lack of proper filters for the fluorescence microscope. Cy5-functionalized DND did not show any cellular uptake in fluorescence microscopy after conjugation with ALST1. Since the nanodiamond surface is known to strongly adsorb peptides and proteins, it is assumed that the peptide chain is oriented perpendicular to the nanoparticle surface and thus not able to interact with cell membrane receptors to promote cell uptake of the particles. As a future perspective, the ALST1-promoted cellular uptake of the DND should be improved by using different linker systems for peptide conjugation to prevent adsorption of the peptide chain on the particle surface. The new analytical methods for amino-, azide-, and peptide-functionalized nanoparticles have great potential to assist in the quantification of nanoparticle surface modifications by UV/Vis spectroscopy and HPLC. The determination of surface amine and azide groups based on the cleavage of conjugated Fmoc-Rink amide linker and detected by UV/Vis spectroscopy is applicable to all amine-/azide-functionalized nanomaterials. However, particles which form very stable suspension with the cleavage mixture can cause quantification problems due to scattering, making an accurate quantification of dibenzofulvene and its piperidine adduct impossible. The detection of tyrosine- and histidine-containing peptides based on the Pauly reaction is well-suited as a fast and easy-to-perform qualitative demonstration of successful peptide surface conjugation. However, its major drawback as a colourimetric approach is that coloured particles cannot be evaluated by this method. The amino acid analysis based on HPLC after acid hydrolysis of peptides conjugated to nanoparticle surfaces to its individual building blocks and subsequent derivatization with PITC, can be used on all nanomaterials with peptide or protein surface modification. It allows detection of amino acids down to picomolar concentrations and even enables analysis of very small peptide surface loadings. However, the resulting HPLC traces are difficult to analyze. Three new analytical methods based on UV/Vis and HPLC techniques have been developed and established. They assisted in the characterization of the synthesized DND and SPIONs with dual functionalization by ALST1 and Cy5 or [ReBr(CO)3(L)], respectively. However, the nanomaterials showed no cellular uptake due to a high tendency to agglomerate. The cellular uptake should be improved and the tendency to agglomerate of the SPIONs should be reduced by changing the surface coating from silica to either PEG or chitosan. Furthermore, different linker systems for connecting peptides to DND surfaces should be synthesized and evaluated to reduce potential peptide chain adsorption.},
  subject      = {Nanopartikel},
  language  = {en}
}
@phdthesis{Ilko2015,
  author    = {Ilko, David},
  title     = {The use of charged aerosol detection for the analysis of excipients and active pharmaceutical ingredients},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-118377},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2015},
  abstract  = {The Corona® charged aerosol detector (CAD) is an aerosol-based detector first de-scribed by Dixon and Peterson in 2002. It is capable of detecting compounds inde-pendent from their physico-chemical properties presumed the analyte is sufficiently non-volatile. Consequently, the CAD is often applied to the analysis of substances that do not possess a suitable UV chromophore. Major drawbacks are however, the detector signal is non-linear and depending on the content of organic solvent in the mobile phase. This thesis tried to explore possible applications of the CAD for pharmaceutical analysis. Therefore, several substances from different compound classes were in-vestigated. Newly developed or existing methods were validated. Thus the perfor-mance of the CAD could be examined. Both assay and impurity determination were evaluated for their compliance with ICH Q2(R1) "Validation of Analytical Proce-dures" and the "Technical Guide for the Elaboration of Monographs". In the course of the establishment of reference substances at the EDQM, a generic screening method for the identification of organic and inorganic pharmaceutical counterions was needed. An HPLC-CAD method developed by Zhang et al. was therefore investigated for its suitability for pharmacopoeial purpose. Method valida-tion was performed. It was found that 23 ions could be separated and detected. Iden-tification was achieved via retention time of an authentic standard of the corre-sponding ions. Alternatively, peak assignment was performed by determination of the exact mass using TOF-MS. Ions could be quantified as impurities or for stoichi-ometric purpose. For the impurity control in topiramate, the performance characterstics of the CAD were compared to that of an ELSD. CAD was superior to ELSD in terms of repeata-bility, sensitivity and linearity. However, impurities could be quantified with satisfac-tory accuracy with both detectors. The application of the ELSD was not feasible due to non-reproducible spike peaks eluting after the principle peak in the chromatogram of the test solution. One of the impurities, topiramate impurity A (diacetonide), gave no or a vastly diminished signal in the ELSD and the CAD, respectively. It is evapo-rated during the detection process due to its relatively high vapor pressure. The re-sponse could be enhanced by a factor of nine via post-column addition of acetoni-trile and a lower nebulizer temperature. As the response of topiramate impurity A was still about thousand-fold lower than the response of all other impurities, its quantification was not feasible. Additionally, the HPLC-CAD was successfully vali-dated as an assay procedure for topiramate. There seems to be a great potential in the application of the CAD to the analysis of excipients as most compounds do not possess a suitable UV chromophore. Here, a simple and rapid HPLC-CAD method for the determination of polidocanol (PD) was developed. The method was successfully validated as a potential assay procedure for the Ph. Eur. as none is described in either of the two PD monographs. The same method was applied to the determination of the PD release from a pharmaceutical polymer matrix. A method for the determination of the fatty acid (FA) composition of polysorbate 80 (PS80) was developed and validated. Using the CAD and mass spectrometry, we were able to identify two new FAs in 16 batches from four manufacturers. All batch-es complied with pharmacopoeial specification. Furthermore, the overall composi-tion of the different PS80 species ("fingerprinting") and the peroxide content were determined. In addition to the chemical characterization, functionality related charac-teristics (FRCs) were determined. Correlations between chemical composition and FRCs were found. The validation data of the above mentioned methods suggests that the CAD repre-sents a viable detection technique for pharmaceutical analysis. The CAD was suffi-ciently sensitive for non-volatile analytes. Impurity control down to concentrations of 0.05 or 0.03\%, as demanded by ICH Q3A (R2), is achievable. However, the response of semi-volatile compounds may be drastically diminished. It could be confirmed that the response of the CAD is linear when the range does not exceed two orders of magnitude. Exceptions may be observed depending on the actual method setup. When the measuring range is sufficiently narrow, quantification can be done using single-point calibration which is common practice in pharmaceutical anlysis. Impuri-ties may also be quantified against a single calibration solution. However, correction factors may be needed and the accuracy is considerably lower compared to an as-say method. If a compound is to be quantified over a large concentration range, log-log transformation of the calibration curve is needed and a decreased accuracy has to be accepted.},
  subject      = {Analyse},
  language  = {en}
}
@phdthesis{Haas2015,
  author    = {Haas, Martin},
  title     = {Charakterisierung pharmakokinetischer und pharmakodynamischer Aspekte der Anwendung von Glucocorticoiden in der Herzschrittmachertherapie anhand von ex-vivo und in-vitro Modellen},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-127446},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2015},
  abstract  = {Glucocorticoide werden in der Herzschrittmachertherapie eingesetzt, um einen Anstieg der Reizschwelle nach der Implantation des Schrittmachers zu verringern und dauerhaft auf niedrigerem Niveau zu halten, als dies ohne Glucocorticoid-Behandlung der Fall w{\"a}re. Die Applikation der zu diesem Zweck eingesetzten Glucocorticoide Dexamethasonacetat (DXA) und Dexamethasonphosphat, in seltenen F{\"a}llen auch Beclomethasondipropionat (BDP), erfolgt dabei in der Regel mittels einem an der Elektrodenspitze angebrachten Matrixsystem, das f{\"u}r eine langsame lokale Freisetzung der Arzneistoffe an der Grenzfl{\"a}che zwischen kathodischem Elektrodenkontakt und Herzgewebe sorgen soll. Diese Anwendungsform ist speziell, da trotz einer systemischen Freisetzung der Substanzen eine lokale Wirkung erzielt werden soll, welche die Funktion des Schrittmachers als Medizinprodukt unterst{\"u}tzen soll - aus pharmakokinetischer Sicht ein wichtiger Unterschied zu den {\"u}blichen topischen Glucocorticoid Anwendungen. Unter physiologischen Bedingungen wurde diese Applikationsform hinsichtlich der Arzneistofffreisetzung und anschließender Umverteilung mit Bindung der Glucocorticoide an das kardiale Gewebe bislang ebenso wenig untersucht, wie verschiedene Glucocorticoide in dieser Anwendung hinsichtlich ihrer Pharmakokinetik verglichen wurden. In der vorliegenden Arbeit wurden deshalb die pharmakokinetischen Vorg{\"a}nge der drei Glucocorticoide DXA, BDP und des potentiell einsetzbaren Glucocorticoids GCX (dessen Identit{\"a}t aus patentgr{\"u}nden derzeit nicht offengelegt werden kann) untersucht. Die Freisetzungssysteme enthielten, je nach Glucocorticoid, Arzneistoffdosen im Bereich von etwa 150 bis 260 µg. In einem in-vitro Freisetzungsmodell in Methanol wurde zun{\"a}chst best{\"a}tigt, dass sich die Freisetzungskinetik der untersuchten Matrizes gem{\"a}ß den Modellvorstellung zu einem d{\"u}nnwandigen monolithischen Freisetzungssystem nach dem Quadratwurzelgesetz beschreiben ließ. DXA wurde mit einer Freisetzungsrate von 55,6 ± 1,9 µg/h1/2 in 24 Stunden ann{\"a}hernd vollst{\"a}ndig freigesetzt, w{\"a}hrend die Rate f{\"u}r BDP bei 21,8 ± 0,7 µg/h1/2 lag und nur f{\"u}r eine Freisetzung von etwa zwei Dritteln des Gesamtgehalts der Freisetzungsmatrix sorgte. GCX wurde gar mit nur 4,2 ± <0,1 µg/h1/2 freigesetzt. Die ermittelten Freisetzungsraten (DXA > BDP >>> GCX) waren {\"u}berraschenderweise nicht konsistent mit den logP-Werten der Substanzen. Dies wies darauf hin, dass nicht alleine die unterschiedlichen physikochemischen Eigenschaften der Substanzen zu den differierenden Freisetzungsprofile f{\"u}hrten, sondern wohl auch die Formulierung der Silikonmatrix einen starken Einfluss aus{\"u}bte - eine wichtige Erkenntnis f{\"u}r die Weiterentwicklung derartiger Glucocorticoid haltiger Matrixfreisetzungssysteme. Vor allem w{\"a}hrend der bis zu 4 w{\"o}chigen Phase unmittelbar nach der Elektrodenimplantation ist die Matrix dem Blutstrom ausgesetzt, bevor sich als Reaktion des Organismus auf den implantierten Fremdk{\"o}rper eine fibr{\"o}se H{\"u}lle um die Elektrodenspitze bildet. Zur Ann{\"a}herung an die physiologischen Freisetzungsverh{\"a}ltnisse in dieser initialen Phase, in nach dem Quadratwurzelgesetz die mengenm{\"a}ßig st{\"a}rkste Glucocorticoid-Freisetzung erfolgen sollte, wurden deshalb erstmals Freisetzungsversuche in Humanplasma {\"u}ber 28 Tage durchgef{\"u}hrt. Mit einer Freisetzungsrate von 2,26 ± 0,08 µg/h1/2 wurde hier eine unerwartet starke Freisetzung von BDP beobachtet, wohingegen diese f{\"u}r DXA und GCX mit Raten von 0,39 ± 0,03 µg/h1/2 und 0,42 ± 0,01 µg/h1/2 deutlich langsamer ausfiel und sich kaum voneinander unterschied. Die Reihenfolge der Freisetzungsgeschwindigkeiten (BDP >>> GCX = DXA) unterschied sich somit unter physiologischen Bedingungen g{\"a}nzlich von den in-vitro Bedingungen. Wom{\"o}glich kamen im w{\"a}ssrigen Freisetzungsmedium Humanplasma dabei die Formulierungseinfl{\"u}sse verst{\"a}rkt zum Tragen, die sich bereits unter den in-vitro Bedingungen andeutenden. Ein zus{\"a}tzlicher Einfluss mochte von der Bildung des 9,11 Epoxy Belcomethasons als Abbauprodukt des BDP ausgegangen sein, welches unter den physiologisch angen{\"a}herten Bedingungen in hohem Ausmaß entstand. Dies f{\"u}hrte zu einer Stabilit{\"a}tsuntersuchung von Beclomethason in Humanplasma und verschiedenen Puffersystemen, bei welcher sich ein stabilit{\"a}tsmindernder Einfluss von Carbonat-Puffersystemen herausstellte. Im Zuge der Freisetzungsversuche in Humanplasma wurde zudem erstmals die Entstehung von 17 Oxo Dexamethason als Abbauprodukt von DXA beobachtet und durch Nachsynthese best{\"a}tigt. F{\"u}r die Phase der Herzschrittmachertherapie, in der an der Grenzfl{\"a}che zwischen Elektrode und Herzgewebe eine lokale und akute Entz{\"u}ndung infolge der Implantation der Schrittmacherelektrode auftritt und {\"u}blicherweise ein starker Anstieg der Reizschwelle zu beobachten ist, lieferten die Versuche in Humanplasma somit erstmals Daten zur Freisetzung verschiedener Glucocorticoide unter Einbezug angen{\"a}herter physiologischer Verh{\"a}ltnisse. F{\"u}r die korrekte Durchf{\"u}hrung der Freisetzungsversuche ist das Vorliegen von Sink Bedingungen essentiell. Da die praktische L{\"o}slichkeit von Glucocorticoiden in Humanplasma bislang nicht bekannt war, wurde die Aufnahmekapazit{\"a}t des Humanplasmas (Kombination aus L{\"o}slichkeit und Plasmaproteinbindung) f{\"u}r DXA, GCX und BDP untersucht. Sink Bedingungen konnten f{\"u}r alle Substanzen sichergestellt werden, wobei gegen{\"u}ber der reinen Wasserl{\"o}slichkeit eine deutlich h{\"o}here Aufnahmekapazit{\"a}t gezeigt werden konnte und den hohen Einfluss der Proteinbindung hervorhob. Um die insgesamt herrschenden physiologischen Verh{\"a}ltnisse noch besser zu beschreiben und dabei die Umverteilung der Arzneistoffe nach Freisetzung aus dem Implantat an das Zielgewebe zu untersuchen, wurde ein neuartiges ex-vivo Modell entwickelt. Dies erlaubte eine Simulation der Arzneistofffreisetzung aus dem Implantat in Gegenwart eines Gewebekompartiments und ber{\"u}cksichtigte eine flussartige Konvektion des Mediums. Mit diesem Modell wurden Verh{\"a}ltnisse der AUCs der Glucocorticoide zwischen Gewebe und Humanplasma ermittelt, die mit Werten von 3,4 f{\"u}r DXA, 3,8 f{\"u}r BDP und 2,5 f{\"u}r GCX auf eine ausgepr{\"a}gte Umverteilung aus dem Humanplasma in das Gewebe hinwiesen. Insgesamt schien damit aufgrund der raschen Freisetzung und Diffusion in das Gewebe eine Verwendung von BDP zur Bek{\"a}mpfung einer lokalen akuten Entz{\"u}ndung unmittelbar nach der Implantation aus pharmakokinetischer Sicht vorteilhaft. Mit Blick auf einen jahrelangen Effekt konnte jedoch auch die langsame Freisetzung von DXA und GCX mit deren sehr stabilen Wirkformen als vorteilhaft diskutiert werden. Die Versuche k{\"o}nnen letztlich bei der Auswahl eines m{\"o}glichst idealen Glucocorticoids f{\"u}r die Herzschrittmachertherapie behilflich sein und bieten erstmals ein weitestgehend physiologisches Untersuchungsmodell f{\"u}r diese Applikationsform. Inwiefern sich die unterschiedliche Pharmakokinetik der drei Glucocorticoide auch in pharmakodynamischer Sicht auswirken k{\"o}nnte, sollte schließlich im Zellkulturmodell untersucht werden. Zuvor wurde jedoch in-vitro getestet, ob sich der elektrische Schrittmacherimpuls selbst als Entz{\"u}ndungsreiz bemerkbar machen und damit einen Hinweis auf eine dadurch hervorgerufene dauerhafte Entz{\"u}ndung des Herzgewebes geben w{\"u}rde. Dazu wurde eigens ein Modell entworfen, das die Applikation des elektrischen Stimulus in einem Zellkulturansatz zuließ. Die Messung der Entz{\"u}ndungsmarker IL-6, IL-8, MMP-9 und MCP-1 ließ keine entz{\"u}ndliche Reizung der Zellen durch einen Schrittmacherimpuls in H{\"o}he von 1 V und 0,5 ms Dauer erkennen. Anschließend wurde untersucht, ob sich die selbst ermittelten pharmakokinetischen Unterschiede der drei Glucocorticoide in der akuten Entz{\"u}ndungsphase nach Elektrodenimplantation in-vitro in unterscheidbaren biologischen Aktivit{\"a}ten auswirken w{\"u}rden. Signifikante Unterschiede in der Inhibition der Sekretion der Entz{\"u}ndungsmarker IL-6 und MMP 9 konnten allerdings trotz der unterschiedlichen freigesetzten Dosen an DXA, GCX und BDP nicht beobachtet werden. Somit erwies sich keine der drei Substanzen, trotz unterschiedlicher pharmakokinetischer Voraussetzungen und Affinit{\"a}ten zum Glucocorticoid-Rezeptor, als {\"u}berlegen. In einem ersten Ausblick ließ dies f{\"u}r die klinische Anwendung von GCX und BDP - zumindest in der initialen Phase nach Elektrodenimplantation - einen zu DXA vergleichbaren Einfluss auf die Reizschwelle vermuten. Neben einer antiinflammatorischen Wirkung wird auch eine Minderung des Reizschwellenanstieges durch eine bei Glucocorticoid Exposition nur d{\"u}nn ausgepr{\"a}gte fibr{\"o}se Kapsel an der Elektrodenspitze diskutiert. Als Beitrag zur Untersuchung der in der klinischen Praxis beobachteten Wirkung des DXA wurde daher abschließend gepr{\"u}ft, ob die freigesetzten Glucocorticoid Dosen zu einer Proliferationshemmung von Endothelzellen und Fibroblasten f{\"u}hren konnten. Ein vermindertes Wachstum der Zelllinien EA.hy926 und IMR-90 unter den freigesetzten Glucocorticoid Dosen konnte jedoch nicht beobachtet werden. K{\"u}nftige Untersuchungen des Einflusses der Glucocorticoide auf die Synthese einzelner Bindegewebsbestandteile wie Kollagen k{\"o}nnten hierzu wom{\"o}glich weitere Erkenntnisse liefern. In der vorliegenden Arbeit wurde erstmals erfolgreich die Pharmakokinetik dreier Glucocorticoide im Kontext der Herzschrittmachertherapie unter physiologischen Verh{\"a}ltnissen beschrieben und ein neuartiges ex-vivo Modell entwickelt, das zuk{\"u}nftig ein hilfreiches Werkzeug zur Untersuchung der Pharmakokinetik von kardiovaskul{\"a}ren Implantaten sein kann. Darauf aufbauend wurde zudem erstmalig die Pharmakodynamik dieser Glucocorticoide in der Herzschrittmachertherapie verglichen und begonnen, den Glucocorticoid Effekt in der Herzschrittmachertherapie n{\"a}her zu beleuchten.},
  subject      = {Herzschrittmacher},
  language  = {de}
}
@article{VottelerCarvajalBerrioPudlasetal.2012,
  author    = {Votteler, Miriam and Carvajal Berrio, Daniel A. and Pudlas, Marieke and Walles, Heike and Schenke-Layland, Katja},
  title     = {Non-contact, Label-free Monitoring of Cells and Extracellular Matrix using Raman Spectroscopy},
  series = {Journal of Visual Expression},
  volume    = {63},
  journal   = {Journal of Visual Expression},
  number    = {e3977},
  doi       = {10.3791/3977},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-124569},
  year      = {2012},
  abstract  = {Non-destructive, non-contact and label-free technologies to monitor cell and tissue cultures are needed in the field of biomedical research.1-5 However, currently available routine methods require processing steps and alter sample integrity. Raman spectroscopy is a fast method that enables the measurement of biological samples without the need for further processing steps. This laser-based technology detects the inelastic scattering of monochromatic light.6 As every chemical vibration is assigned to a specific Raman band (wavenumber in cm-1), each biological sample features a typical spectral pattern due to their inherent biochemical composition.7-9 Within Raman spectra, the peak intensities correlate with the amount of the present molecular bonds.1 Similarities and differences of the spectral data sets can be detected by employing a multivariate analysis (e.g. principal component analysis (PCA)).10 Here, we perform Raman spectroscopy of living cells and native tissues. Cells are either seeded on glass bottom dishes or kept in suspension under normal cell culture conditions (37 °C, 5\% CO2) before measurement. Native tissues are dissected and stored in phosphate buffered saline (PBS) at 4 °C prior measurements. Depending on our experimental set up, we then either focused on the cell nucleus or extracellular matrix (ECM) proteins such as elastin and collagen. For all studies, a minimum of 30 cells or 30 random points of interest within the ECM are measured. Data processing steps included background subtraction and normalization.},
  language  = {en}
}