TY  - THES
A1  - Kuhnen, Sebastian
T1  - Charakterisierung von sFRP4 als phosphatsensitives Phosphatonin in mesenchymalen Stammzellen
T1  - Characterisation of sFRP4 as Phosphate-sensitive Phosphatonin in Mesenchymal Stem Cells
N2  - Phosphat stellt einen essenziellen Bestandteil der Knochenhartsubstanz dar und ist zudem erforderlich, um mesenchymale Stammzellen osteogen zu differenzieren. Bei der Aufklärung molekularer Pathomechanismen von Störungen der Phosphathomöostase wurden in den vergangenen zehn Jahre mehrere Botenstoffe identifiziert, die spezifische Wirkungen auf den systemischen Phosphathaushalt haben. Die als „Phosphatonine“ bezeichneten Substanzen FGF23 (Fibroblastenwachstumsfaktor 23), sFRP4 (secreted frizzled related protein 4), FGF7 (Fibroblastenwachstumsfaktor 7) und MEPE (matrix extracellular phosphoglycoprotein) induzieren eine negative Phosphatbilanz, indem sie an der Niere phosphaturisch wirken. Ziel dieser Arbeit war es, eventuell vorhandene Interaktionen zwischen knochenbildenden Zellen, Phosphat und den inzwischen bekannten Substanzen mit Wirkung auf den Phosphathaushalt zu charakterisieren. Dazu wurden immortalisierte Zelllinien mesenchymaler Stammzellen (hMSC-TERT) und fetaler Osteoblasten (hFOB) konzentrations- und zeitabhängig mit Phosphat stimuliert (von 1,25 mM bis 20 mM, von 0 bis 48 h). Die quantitative real-time-PCR zur relativen mRNA-Quantifizierung wurde dabei in der Arbeitsgruppe als Methode etabliert, um den Einfluss dieser erhöhten Phosphatspiegel im Nährmedium auf die Expression von Genen des Phosphatstoffwechsels und Markern der osteogenen Differenzierung zu analysieren. Untersucht wurden Col1 (Kollagen 1), OC (Osteokalzin), AP (Alkalische Phosphatase) und OP (Osteopontin) als Differenzierungsmarker, Pit-1 (Natrium-Phosphattransporter), sFRP4, MEPE und FGF23 als Schlüsselsubstanzen im Phosphatstoffwechsel sowie Aktin und EF1a als Housekeeping-Gene. Die real-time-PCR wurde mit der SYBR® Green-Methode durchgeführt, die Effizienzbestimmung erfolgte mit LinRegPCR, die Auswertung mit REST© und REST 2005, jeweils für die ermittelte Effizienz und die als optimal angenommene Effizienz (E=2). Zunächst konnte die Expression des Natrium-Phosphattransporters Pit-1 in den Zellen hMSC-TERT und hFOB nachgewiesen werden. Bei beiden Zelllinien zeigte sich, dass die Expression von sFRP4 mit steigender Phosphatkonzentration bzw. steigender Stimulationsdauer nach unten reguliert wird. Beim Vergleich aller stimulierten Proben mit den unstimulierten Kontrollen fiel das Expressionsverhältnis bei hMSC-TERT ungefähr auf die Hälfte des Ausgangswertes (0,52; p<0,05), bei hFOB reduzierte es sich auf zwei Drittel (0,67; p<0,05). Es ist somit anzunehmen, dass Phosphat in der Lage ist, die Genexpression von sFRP4 in hMSC-TERT und hFOB nach unten zu regulieren. Für Pit-1 ergab sich bei hMSC-TERT der Hinweis auf eine gesteigerte mRNA-Expression unter Phosphateinwirkung, für hFOB-Zellen konnte diese Beobachtung nicht gemacht werden. Beide Zelllinien zeigten unter Phosphat-Stimulation und maximaler Einwirkzeit von 48 h kein einheitliches Expressionsmuster, das auf eine beginnende Differenzierung hinweisen würde. Der in dieser Arbeit gefundene Hinweis auf eine Phosphatsensitivität von sFRP4 in mesenchymalen Stammzellen und Osteoblasten lässt somit die Vermutung einer physiologischen Beteiligung von sFRP4 an der Phosphatregulation zu. Es bleibt zu klären, inwieweit andere Phosphatonine an solchen Signalachsen beteiligt sind. Spekuliert werden kann, dass sFRP4 auch als Antagonist des Wnt-Signalweges bei Differenzierungsvorgängen eine größere Rolle spielt als bisher angenommen. Des Weiteren sollte in der vorliegenden Arbeit ein Genexpressionssystem (Tet-On™ Konstrukt) in mesenchymalen adulten Stammzellen (hMSC-TERT) etabliert werden, mit dem im Endzustand die Expression beliebiger Gene Tetracyclin-abhängig induziert werden kann. Diese Arbeiten konnten bis zur ersten Transfektion erfolgreich durchgeführt werden: Für einen Referenz-Vektor zeigte sich eine ausgeprägte Induzierbarkeit durch Doxycyclin. Als erstes Gen sollte sFRP4 überexprimiert werden, das dafür zunächst isoliert, sequenziert und kloniert wurde und nun für den Einsatz in diesem Genexpressionssystem zur Verfügung steht. Die Aufklärung der Regulationsmechanismen und auch der Wirkungsweise von Phosphat wird ein wichtiges Ziel zukünftiger Forschung sein und eventuell neue therapeutische Möglichkeiten zur Behandlung von krankhaften Abweichungen der Phosphathomöostase eröffnen.
N2  - Phosphate is an exceptionally important component of bone mineral and is necessary for the osteogenic differentiation of mesenchymal stem cells. In the last decade, several substances have been identified by the analysis of pathological mechanisms that underlie disorders in phosphate homeostasis. These substances, the so-called “phosphatonins”, seem to have a specific function in the regulation of phosphate metabolism. Phosphatonins, such as FGF23 (fibroblast growth factor 23), sFRP4 (secreted frizzled related protein 4), FGF7 (fibroblast growth factor 7) and MEPE (matrix extracellular phosphoglycoprotein) are able to induce a state of negative phosphate balance by reducing renal phosphate reabsorption. The aim of this study was to elucidate possible interactions between bone forming cells, phosphate, and the known signal molecules of phosphate homeostasis. To this end, immortalized experimental cell lines of mesenchymal stem cells (hMSC-TERT) and fetal osteoblasts (hFOB) were stimulated in a dose- and time-dependent manner with augmented levels of phosphate (1.25 mM to 20 mM, 0 to 48 h). In order to detect the influence of increased phosphate levels on the expression of genes, which are markers of osteogenic differentiation and components of phosphate homeostasis, the method of quantitative real-time PCR was established in the workgroup. Col1 (collagen 1), OC (osteocalcin), AP (alkaline phosphatase) and OP (osteopontin) were analyzed as markers of differentiation; Pit-1 (sodium-phosphate transporter), sFRP4, MEPE and FGF23 as key-players in phosphate homeostasis; while Aktin and EF1a were used as housekeeping-genes. Real-time PCR was proceeded following the SYBR® Green method; the PCR efficiency was evaluated with LinRegPCR; finally the expression-ratios were calculated by REST© and REST 2005 - once using the evaluated efficiency and once using the optimal efficiency (E=2). It was shown that Pit-1 is expressed in hMSC-TERT and hFOB cells. For both cell lines it was obvious that the expression of sFRP4 is down-regulated by increasing phosphate concentrations or increasing duration of phosphate stimulation. Comparing all stimulated samples with all unstimulated controls, the expression ratio of sFRP4 decreased at half the initial value (0.52; p<0.05) in hMSC-TERT, and decreased at two-thirds of the initial value (0.67; p<0.05) in hFOB. This seems to be a strong indication that phosphate is able to down-regulate the expression of sFRP4 in hMSC-TERT and hFOB. Concerning Pit-1, one could suppose that the mRNA-expression was increased in hMSC-TERT cells following the stimulation with phosphate. In hFOB cells, this observation could not be made. Within both cell lines, no gene-expression pattern could be found that indicates the beginning of a differentiation process. The observed phosphate-sensitivity of sFRP4 in mesenchymal stem cells and osteoblasts permits us to assume that sFRP4 is involved in the physiological regulation of phosphate metabolism. Whether other phosphatonins are involved in such signaling-axis remains to be elucidated. By acting as a Wnt-antagonist, it can be assumed that sFRP4 plays a more important role in differentiation than previously known. Furthermore, the aim of this work was to establish a gene-expression-system (Tet-On™-system) in adult mesenchymal stem cells, by which it is possible to induce the expression of a target-gene in a tetracycline-dependent manner. The first transfection was accomplished successfully; the expression of a test-reference-vector was induced notedly by doxycycline. sFRP4 was projected as first gene being overexpressed by the Tet-On™-system. For this aim, sFRP4 was isolated, sequenced and cloned and is now ready to use in this manner. Revealing the mechanisms of regulation and the biological effects of phosphate in organisms will remain one topic of further investigation and will perhaps offer new therapeutic strategies for the treatment of disorders in phosphate homeostasis.
KW  - Phosphat
KW  - sFRP4
KW  - mesenchymale Stammzellen
KW  - quantitative real-time PCR
KW  - osteogene Differenzierung
KW  - phosphate
KW  - sFRP4
KW  - mesenchymal stem cells
KW  - quantitative real-time PCR
KW  - osteogenic differentiation
Y1  - 2006
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-22738
ER  - 
TY  - JOUR
A1  - Konrads, Christian
A1  - Barthel, Thomas
T1  - Children and Adolescents with Knee Pain Need Diagnostics for Osteochondritis Dissecans
JF  - Journal of Pain Management & Medicine
N2  - No abstract available.
KW  - Knieschmerzen
Y1  - 2015
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-146531
VL  - 2
IS  - 1
ER  - 
TY  - THES
A1  - Weißenberger, Manuel Claudius
T1  - Chondrogene Differenzierung von humanen mesenchymalen Stammzellen zur Knorpelregeneration mittels adenoviralem Indian Hedgehog-Gentransfer
T1  - Mesenchymal stem cell-based cartilage regeneration - Indian hedgehog gene transfer as chondrogenic inductor in an in vitro model
N2  - Ziel dieser Arbeit war es zu untersuchen, ob mittels IHH-Gentransfer aus Hüftköpfen gewonnene hMSCs chondrogen im Pelletkultursystem differenziert werden können und ob zugleich durch IHH eine Modulation der hypertrophen Enddifferenzierung der hMSCs in diesem System möglich ist. IHH bestimmt in der Wachstumsfuge zusammen mit PTHrP während der endochondralen Ossifikation die Chondrozytenreifung und -differenzierung entscheidend mit und ist daher ein interessanter Kandidat zur Induktion von hyalinem oder zumindest hyalin-ähnlichem Knorpelgewebe in der stammzellbasierten Gentherapie. Nach Gewinnung und Kultivierung der hMSCs wurden diese mit Ad.GFP, Ad.IHH, Ad.IHH+TGF-β1, Ad.IHH+SOX-9 oder Ad.IHH+BMP-2 transduziert bzw. ein Teil für die Negativkontrolle nicht transduziert und im Anschluss alle Gruppen zu Pellets weiterverarbeitet. Histologische, biochemische sowie molekularbiologische Untersuchungen wurden an verschiedenen Zeitpunkten zur Evaluierung des chondrogenen Differenzierungsgrades sowie der hypertrophiespezifischen Merkmale der kultivierten Pellets durchgeführt. Es konnte durch diese Arbeit sowohl auf Proteinebene als auch auf Genexpressionsebene reproduzierbar gezeigt werden, dass primäre hMSCs im Pelletkultursystem sowohl durch den adenoviralen Gentransfer von IHH allein als auch durch die Co-Transduktionsgruppen IHH+TGF-β1, IHH+SOX-9 und IHH+BMP-2 chondrogen differenziert werden können. Dabei zeigten alle IHH-modifizierten Pellets Col II- und CS-4-positive immunhistochemische Anfärbungen, eine gesteigerte Synthese von Glykosaminoglykanen im biochemischen GAG-Assay sowie eine Hochregulation von mit der Chondrogenese assoziierten Genen. Das Auftreten hypertropher Merkmale bei den chondrogen differenzierten MSCs konnte durch IHH-Gentransfer nach 3 Wochen in vitro-Kultivierung nicht vollkommen unterdrückt werden, war jedoch besonders stark ausgeprägt, wenn BMP-2 co-exprimiert wurde und war etwas weniger evident in der IHH+SOX-9-Gruppe. Dabei zeigte die Ad.IHH+BMP-2-Gruppe sowohl in der ALP-Färbung als auch in dem ALP-Assay und der quantitativen RT-PCR die stärkste Hochregulierung des hypertrophen Markers ALP. Möglicherweise brachte die Überexpression von IHH das fein aufeinander abgestimmte Regulationssystem zwischen IHH und PTHrP aus dem Gleichgewicht und könnte als ein Grund dafür angeführt werden, warum die Hypertrophie im Pelletkultursystem nicht vollkommen supprimiert werden konnte. Es bleibt abzuwarten, ob IHH in vivo die Chondrogenese induzieren und dabei zugleich das Phänomen der chondrogenen Hypertrophie regulieren kann. In der Zukunft würde dies letztlich der stammzellbasierten Knorpelregeneration in vivo zu Gute kommen.
N2  - Introduction: The issue of final end-stage chondrogenic hypertrophy has been identified in previous studies on MSC-mediated chondrogenesis using several bone morphogenetic proteins (BMPs) following adenoviral gene transfer as one hurdle in the efforts of creating stable cartilage repair tissue. Therefore, in this in vitro study we explore, whether the growth factor Indian hedgehog (IHH), alone or in combination with TGFb1, BMP-2 or SOX-9, is able to modulate the appearance of chondrogenic hypertrophy in pellet cultures in vitro, and if IHH induces chondrogenesis in human primary mesenchymal stem cells (MSCs) via its gene-delivery. Methods: First generation adenoviral vectors encoding the cDNA of the human IHH gene were created by cre-lox recombination and used alone or in combination with Ad.TGFb1, Ad.BMP-2 and Ad.SOX-9 to transduce human bone-marrow derived MSCs at 5 x 102 infectious particles/cell (50 MOI multiplicities of infection). Thereafter 3 x 105 cells were seeded into aggregates and cultured for three weeks in serum-free chondrogenic differentiation medium (ITS, Dexa, Asc) with untransduced or marker gene transduced cultures as controls. Transgene expressions were determined by ELISA, and aggregates were analyzed histologically, immunohistochemically, biochemically and by RT-PCR for chondrogenesis and hypertrophy after 10 days and 21 days of culture. Results: IHH alone or in combination with TGFb1, BMP-2 or SOX-9 were equipotent inducers of chondrogenesis in MSCs in pellet culture (strong staining for alcian blue and collagen type II, high levels of GAG synthesis, expression of mRNAs associated with chondrogenesis, controls were not chondrogenic). IHH-modified aggregates, alone as well as the Ihh co-transduced groups with TGFb1, BMP-2 or SOX-9, showed also a tendency to progress towards hypertrophy, as judged by expression of alkaline phosphatase and immunhistochemical staining for collagen type X, while the highest levels for both markers seen in the IHH+BMP-2-group after 21 days of culture. These results were confirmed by qRT-PCR analyses that showed comparable expression of cartilage specific marker genes (Col II, SOX-9) in the induced pellet cultures and a higher expression of hypertrophy associated marker genes (ALP, Col X) in the IHH+BMP2-group. Discussion: IHH gene transfer with adenoviral vectors alone or in combination with TGFb1, BMP-2 or SOX-9 efficiently induces chondrogenesis in MSCs, however, the appearance of hypertrophy could not be completely obviated, and was strongly present when BMP-2 was co-expressed. Thus, it remains to be seen in the ongoing in vivo studies, whether IHH can induce chondrogenesis while modulating chondrogenic hypertrophy in vivo.
KW  - Stammzelle
KW  - Gentherapie
KW  - Wachstumsfaktor
KW  - Knorpel
KW  - Knorpelregeneration
KW  - Mesenchymale Stammzellen
KW  - Gentherapie
KW  - Indian Hedgehog
KW  - Cartilage regeneration
KW  - mesenchymal stem cells
KW  - gene therapy
KW  - Indian hedgehog
Y1  - 2012
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-78014
ER  - 
TY  - THES
A1  - Heymer, Andrea
T1  - Chondrogenic differentiation of human mesenchymal stem cells and articular cartilage reconstruction
T1  - Chondrogene Differenzierung humaner mesenchymaler Stammzellen und Gelenkknorpelrekonstruktion
N2  - Articular cartilage defects are still one of the major challenges in orthopedic and trauma surgery. Today, autologous chondrocyte transplantation (ACT), as a cell-based therapy, is an established procedure. However, one major limitation of this technique is the loss of the chondrogenic phenotype during expansion. Human mesenchymal stem cells (hMSCs) have an extensive proliferation potential and the capacity to differentiate into chondrocytes when maintained under specific conditions. They are therefore considered as candidate cells for tissue engineering approaches of functional cartilage tissue substitutes. First in this study, hMSCs were embedded in a collagen type I hydrogel to evaluate the cartilaginous construct in vitro. HMSC collagen hydrogels cultivated in different culture media showed always a marked contraction, most pronounced in chondrogenic differentiation medium supplemented with TGF-ß1. After stimulation with chondrogenic factors (dexamethasone and TGF-ß1) hMSCs were able to undergo chondrogenesis when embedded in the collagen type I hydrogel, as evaluated by the temporal induction of cartilage-specific gene expression. Furthermore, the cells showed a chondrocyte-like appearance and were homogeneously distributed within a proteoglycan- and collagen type II-rich extracellular matrix, except a small area in the center of the constructs. In this study, chondrogenic differentiation could not be realized with every hMSC preparation. With the improvement of the culture conditions, e.g. the use of a different FBS lot in the gel fabrication process, a higher amount of cartilage-specific matrix deposition could be achieved. Nevertheless, the large variations in the differentiation capacity display the high donor-to-donor variability influencing the development of a cartilaginous construct. Taken together, the results demonstrate that the collagen type I hydrogel is a suitable carrier matrix for hMSC-based cartilage regeneration therapies which present a promising future alternative to ACT. Second, to further improve the quality of tissue-engineered cartilaginous constructs, mechanical stimulation in specific bioreactor systems are often employed. In this study, the effects of mechanical loading on hMSC differentiation have been examined. HMSC collagen hydrogels were cultured in a defined chondrogenic differentiation medium without TGF-ß1 and subjected to a combined mechanical stimulation protocol, consisting of perfusion and cyclic uniaxial compression. Bioreactor cultivation neither affected overall cell viability nor the cell number in collagen hydrogels. Compared with non-loaded controls, mechanical loading promoted the gene expression of COMP and biglycan and induced an up-regulation of matrix metalloproteinase 3. These results circumstantiate that hMSCs are sensitive to mechanical forces, but their differentiation to chondrocytes could not be induced. Further studies are needed to identify the specific metabolic pathways which are altered by mechanical stimulation. Third, for the development of new cell-based therapies for articular cartilage repair, a reliable cell monitoring technique is required to track the cells in vivo non-invasively and repeatedly. This study aimed at analyzing systematically the performance and biological impact of a simple and efficient labeling protocol for hMSCs. Very small superparamagnetic iron oxide particles (VSOPs) were used as magnetic resonance (MR) contrast agent. Iron uptake was confirmed histologically with prussian blue staining and quantified by mass spectrometry. Compared with unlabeled cells, VSOP-labeling did neither influence significantly the viability nor the proliferation potential of hMSCs. Furthermore, iron incorporation did not affect the differentiation capacity of hMSCs. The efficiency of the labeling protocol was assessed with high resolution MR imaging at 11.7 Tesla. VSOP-labeled hMSCs were visualized in a collagen type I hydrogel indicated by distinct hypointense spots in the MR images, resulting from an iron specific loss of signal intensity. This was confirmed by prussian blue staining. In summary, this labeling technique has great potential to visualize hMSCs and track their migration after transplantation for articular cartilage repair with MR imaging.
N2  - Gelenkknorpeldefekte stellen immer noch eine der großen Herausforderungen in der Orthopädie und Unfallchirurgie dar. Als zellbasiertes Verfahren ist die Autologe Chondrozytentransplantation (ACT) heute in der klinischen Routine etabliert. Ein großer Nachteil dieser Methode ist jedoch der Verlust des chondrozytären Phänotyps während der Expansion der Zellen. Humane mesenchymale Stammzellen (hMSZ) verfügen über ein ausgeprägtes Proliferationspotential und besitzen die Fähigkeit, unter spezifischen Bedingungen zu Knorpelzellen zu differenzieren. Sie werden daher als alternative Zellen für das Tissue Engineering von funktionellem Knorpelersatzgewebe in Betracht gezogen. In der vorliegenden Arbeit wurden erstens hMSZ in ein Kollagen Typ I Hydrogel eingebracht und zunächst der Grad der chondrogenen Zelldifferenzierung im Konstrukt evaluiert. HMSZ-Kollagenhydrogele zeigten in allen Kultivierungsmedien eine deutliche Kontraktion, welche am stärksten im chondrogenen Differenzierungsmedium unter Zugabe von TGF-ß1 ausgeprägt war. Nach Stimulation mit chondrogenen Faktoren (Dexamethason und TGF-ß1) differenzierten hMSZ zu Knorpelzellen, nachgewiesen durch die Induktion von knorpelspezifischer Genexpression. Die Zellen wiesen eine Chondrozyten-ähnliche Morphologie auf und waren bis auf einen kleinen Bereich in der Mitte des Konstrukts homogen in einer Proteoglykan- und Kollagen Typ II-haltigen extrazellulären Matrix verteilt. Eine chondrogene Differenzierung konnte in der vorliegenden Arbeit jedoch nicht mit jeder hMSZ-Präparation realisiert werden. Durch die Verbesserung der Kulturbedingungen, z.B. durch die Verwendung einer anderen Serumcharge im Gelherstellungsprozess, konnte eine Steigerung der knorpelspezifischen Matrixsynthese erzielt werden. Nichtsdestotrotz spiegeln die großen Schwankungen in der Differenzierungskapazität die hohe Variabilität zwischen verschiedenen Spendern wider, welche die Entwicklung eines knorpelartigen Gewebes beeinflussen. Zusammengefasst zeigen die Ergebnisse, dass das Kollagen Typ I Hydrogel eine geeignete Trägermatrix für hMSZ darstellt, um in Stammzell-basierten Knorpelregenerationstherapien zukünftig als vielversprechende Alternative zur ACT eingesetzt zu werden. Um die Qualität eines in vitro generierten knorpelartigen Gewebes weiter zu verbessern, wird häufig eine mechanische Stimulation in spezifischen Bioreaktorsystemen durchgeführt. In der vorliegenden Arbeit wurden daher zweitens die Effekte von mechanischer Belastung auf die Differenzierung von hMSZ untersucht. HMSZ-Kollagenhydrogele wurden im chondrogenen Differenzierungsmedium ohne TGF-ß1 kultiviert und einem kombinierten mechanischen Stimulationsprotokoll, bestehend aus Perfusion und zyklischer uniaxialer Kompression, ausgesetzt. Die Kultivierung im Bioreaktor hatte weder einen Einfluss auf die Zellvitalität noch auf die Anzahl der Zellen im Kollagen Typ I Hydrogel. Die mechanische Beeinflussung steigerte im Vergleich mit den unbelasteten Kontrollgelen die Genexpression von COMP und Biglykan und führte zu einer Hochregulation von Matrix Metalloproteinase 3. Diese Ergebnisse belegen, dass hMSZ mechanosensitiv sind, jedoch konnte keine Differenzierung zu Knorpelzellen induziert werden. Hierfür sind weitere Studien notwendig, um spezifische Stoffwechselwege zu identifizieren, welche durch die mechanische Stimulation beeinflusst werden. Drittens, für die Entwicklung von neuen zellbasierten Therapien für die Gelenkknorpelrekonstruktion ist eine zuverlässige Bildgebung auf zellulärer Ebene erforderlich, um die Zellen in vivo wiederholt nicht invasiv zu detektieren. Die vorliegende Arbeit hatte zum Ziel, systematisch die Effizienz und die biologischen Auswirkungen einer einfachen und dauerhaften Markierung für hMSZ zu untersuchen. Superparamagnetische Eisenoxidnanopartikel (VSOPs), ein Magnetresonanz (MR)-Kontrastmittel, wurden für die Markierung eingesetzt. Die Aufnahme der Eisenoxidnanopartikel wurde histologisch mittels eisenspezifischer Berliner-Blau-Färbung nachgewiesen und durch Massenspektroskopie quantifiziert. Im Vergleich zu unmarkierten Zellen beeinträchtigte die VSOP-Markierung weder die Vitalität noch das Proliferationspotential der hMSZ. Weiterhin war durch die Aufnahme der Eisenoxidnanopartikel keine Beeinflussung der Differenzierungskapazität der hMSZ zu verzeichnen. Die Effizienz der Zellmarkierung wurde mittels hochauflösender MR-Bildgebung bei 11,7 Tesla beurteilt. VSOP-markierte hMSZ im Kollagen Typ I Hydrogel erschienen als hypointense Punkte in den MR-Bildern, hervorgerufen durch die typische, VSOP-bedingte Signalauslöschung. Histologische Untersuchungen dieser Konstrukte bestätigten die MR-Ergebnisse. Zusammenfassend lässt sich festhalten, dass diese Zellmarkierungsmethode in Verbindung mit der MR-Bildgebung über das Potential verfügt, nach einer Gelenkknorpelrekonstruktion Aufschluss über die Lokalisation und Migration der transplantierten hMSZ zu liefern.
KW  - Gelenkknorpel
KW  - Tissue Engineering
KW  - Chondrogenese
KW  - Hydrogel
KW  - Biomechanik
KW  - NMR-Bildgebung
KW  - mesenchymale Stammzellen
KW  - Kollagen-Hydrogel
KW  - mechanische Stimulation
KW  - Zellmarkierung
KW  - superparamagnetische Eisenoxidnanopartikel
KW  - mesenchymal stem cells
KW  - collagen hydrogel
KW  - mechanical stimulation
KW  - cell labeling
KW  - superparamagnetic iron oxide particles
Y1  - 2008
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-29448
ER  - 
TY  - JOUR
A1  - Hörterer, Hubert
A1  - Baumbach, Sebastian Felix
A1  - Lemperle, Stefan
A1  - Altenberger, Sebastian
A1  - Gottschalk, Oliver
A1  - Mehlhorn, Alexander Tobias
A1  - Röser, Anke
A1  - Walther, Markus
T1  - Clinical outcome and concomitant injuries in operatively treated fractures of the lateral process of the talus
JF  - BMC Musculoskeletal Disorders
N2  - Background
The aim of this study was to review the patient rated outcome (PROM) of surgically treated fractures to the lateral process of the talus (LPTF) and identify factors influencing the outcome.

Methods
Retrospective study with a current follow-up. Eligible were all patients treated surgically for a LPTF (n = 23) with a minimum follow-up of one year. Demographics, medical history, trauma mechanism, fracture characteristics, concomitant injuries, treatment details, complications, return to work and sports were assessed retrospectively. The current follow-up included the VAS FA, Karlsson Score, and SF-12. The primary outcome was the VAS FA. Secondary aim was the identification of parameters influencing the PROMs.

Results
22 patients (96% follow-up) with a mean age of 32 ± 9 (18 to 49) years were included. 73% suffered a Hawkins Type 1, 23% a Type 2, and one patient a Type 3 fracture. 82% suffered concomitant injuries. 9% suffered minor surgical side infections, 50% developed symptomatic subtalar osteoarthritis. At final follow-up (44 ± 2 (12 to 97) months), the mean VAS FA Overall was 77 ± 21 (20 to 100), the Karlsson Score 72 ± 21 (34 to 97), and for the SF 12 the PCS 53 ± 8 (36 to 64) and the MCS 53 ± 7 (32 to 63). 50% of patients returned to their previous level of sports. Hawkins Type 1 fractures resulted in better VAS FA Overall score than Type 2 fractures. Posttraumatic subtalar osteoarthritis was the independent factor associated to a poor patient rated outcome (VAS FA, Karlsson Score).

Conclusion
After a follow-up of over 3.5 years, surgically treated LPTF resulted in only moderate results. 50% suffered posttraumatic symptomatic subtalar osteoarthritis, which was the primary independent parameter for a poor outcome following LPTF.

Level of evidence
Level III.
KW  - fracture
KW  - snowboarder's ankle
KW  - snowboarder's fracture
KW  - lateral process of the talus
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-321207
VL  - 20
ER  - 
TY  - JOUR
A1  - Achenbach, Leonard
A1  - Klein, Christian
A1  - Luig, Patrick
A1  - Bloch, Hendrik
A1  - Schneider, Dominik
A1  - Fehske, Kai
T1  - Collision with opponents - but not foul play - dominates injury mechanism in professional men's basketball
JF  - BMC Sports Science Medicine and Rehabilitation
N2  - Background
To identify injury patterns and mechanisms in professional men’s basketball by means of video match analysis.

Methods
In Germany, injuries are registered with the statutory accident insurance for professional athletes (VBG) by clubs or club physicians as part of occupational accident reporting. Moderate and severe injuries (absence of > 7 days) sustained during basketball competition in one of four seasons (2014–2017 and 2018–2019) in the first or second national men’s league in Germany were prospectively analyzed using a newly developed standardized observation form. Season 2017–2018 was excluded because of missing video material.

Results
Video analysis included 175 (53%) of 329 moderate and severe match injuries. Contact patterns categorized according to the different body sites yielded eight groups of typical injury patterns: one each for the head, shoulders, and ankles, two for the thighs, and three for the knees. Injuries to the head (92%), ankles (76%), shoulders (70%), knees (47%), and thighs (32%) were mainly caused by direct contact. The injury proportion of foul play was 19%. Most injuries (61%) occurred in the central zone below the basket. More injuries occurred during the second (OR 1.8, p = 0.018) and fourth quarter (OR 1.8, p = 0.022) than during the first and third quarter of the match.

Conclusion
The eight identified injury patterns differed substantially in their mechanisms. Moderate and severe match injuries to the head, shoulders, knees, and ankles were mainly caused by collision with opponents and teammates. Thus, stricter rule enforcement is unlikely to facilitate safer match play.
KW  - epidemiology
KW  - mechanism
KW  - contact
KW  - non-contact´
KW  - injury prevention
KW  - match load
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-261765
VL  - 13
ER  - 
TY  - JOUR
A1  - Wagenbrenner, Mike
A1  - Mayer-Wagner, Susanne
A1  - Rudert, Maximilian
A1  - Holzapfel, Boris Michael
A1  - Weissenberger, Manuel
T1  - Combinations of hydrogels and mesenchymal stromal cells (MSCs) for cartilage tissue engineering — a review of the literature
JF  - Gels
N2  - Cartilage offers limited regenerative capacity. Cell-based approaches have emerged as a promising alternative in the treatment of cartilage defects and osteoarthritis. Due to their easy accessibility, abundancy, and chondrogenic potential mesenchymal stromal cells (MSCs) offer an attractive cell source. MSCs are often combined with natural or synthetic hydrogels providing tunable biocompatibility, biodegradability, and enhanced cell functionality. In this review, we focused on the different advantages and disadvantages of various natural, synthetic, and modified hydrogels. We examined the different combinations of MSC-subpopulations and hydrogels used for cartilage engineering in preclinical and clinical studies and reviewed the effects of added growth factors or gene transfer on chondrogenesis in MSC-laden hydrogels. The aim of this review is to add to the understanding of the disadvantages and advantages of various combinations of MSC-subpopulations, growth factors, gene transfers, and hydrogels in cartilage engineering.
KW  - hydrogels
KW  - osteoarthritis
KW  - cartilage defects
KW  - MSCs
KW  - cartilage regeneration
KW  - tissue engineering
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-250177
SN  - 2310-2861
VL  - 7
IS  - 4
ER  - 
TY  - JOUR
A1  - Weißenberger, Manuel
A1  - Wagenbrenner, Mike
A1  - Nickel, Joachim
A1  - Ahlbrecht, Rasmus
A1  - Blunk, Torsten
A1  - Steinert, Andre F.
A1  - Gilbert, Fabian
T1  - Comparative in vitro treatment of mesenchymal stromal cells with GDF-5 and R57A induces chondrogenic differentiation while limiting chondrogenic hypertrophy
JF  - Journal of Experimental Orthopaedics
N2  - Purpose
Hypertrophic cartilage is an important characteristic of osteoarthritis and can often be found in patients suffering from osteoarthritis. Although the exact pathomechanism remains poorly understood, hypertrophic de-differentiation of chondrocytes also poses a major challenge in the cell-based repair of hyaline cartilage using mesenchymal stromal cells (MSCs). While different members of the transforming growth factor beta (TGF-β) family have been shown to promote chondrogenesis in MSCs, the transition into a hypertrophic phenotype remains a problem. To further examine this topic we compared the effects of the transcription growth and differentiation factor 5 (GDF-5) and the mutant R57A on in vitro chondrogenesis in MSCs.

Methods
Bone marrow-derived MSCs (BMSCs) were placed in pellet culture and in-cubated in chondrogenic differentiation medium containing R57A, GDF-5 and TGF-ß1 for 21 days. Chondrogenesis was examined histologically, immunohistochemically, through biochemical assays and by RT-qPCR regarding the expression of chondrogenic marker genes.

Results
Treatment of BMSCs with R57A led to a dose dependent induction of chondrogenesis in BMSCs. Biochemical assays also showed an elevated glycosaminoglycan (GAG) content and expression of chondrogenic marker genes in corresponding pellets. While treatment with R57A led to superior chondrogenic differentiation compared to treatment with the GDF-5 wild type and similar levels compared to incubation with TGF-ß1, levels of chondrogenic hypertrophy were lower after induction with R57A and the GDF-5 wild type.

Conclusions
R57A is a stronger inducer of chondrogenesis in BMSCs than the GDF-5 wild type while leading to lower levels of chondrogenic hypertrophy in comparison with TGF-ß1.
KW  - bone marrow
KW  - cartilage
KW  - chondrogenesis
KW  - chondrogenic hypertrophy
KW  - mesenchymal stromal cell
KW  - GDF-5
KW  - R57A
Y1  - 2023
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-357770
VL  - 10
ER  - 
TY  - JOUR
A1  - Boelch, Sebastian P.
A1  - Rueckl, Kilian
A1  - Fuchs, Clara
A1  - Jordan, Martin
A1  - Knauer, Markus
A1  - Steinert, Andre
A1  - Rudert, Maximilian
A1  - Luedemann, Martin
T1  - Comparison of elution characteristics and compressive strength of biantibiotic-loaded PMMA bone cement for spacers: Copal\(^®\) spacem with gentamicin and vancomycin versus Palacos\(^®\) R+G with vancomycin
JF  - BioMed Research International
N2  - Purpose. Copal\(^®\) spacem is a new PMMA bone cement for fabricating spacers. This study compares elution of gentamicin, elution of vancomycin, and compressive strength of Copal\(^®\) spacem and of Palacos\(^®\) R+G at different vancomycin loadings in the powder of the cements. We hypothesized that antibiotic elution of Copal\(^®\) spacem is superior at comparable compressive strength. Methods. Compression test specimens were fabricated using Copal\(^®\) spacem manually loaded with 0.5 g gentamicin and additionally 2 g, 4 g, and 6 g of vancomycin per 40 g of cement powder (COP specimens) and using 0.5 g gentamicin premixed Palacos\(^®\) R+G manually loaded with 2 g, 4 g, and 6 g of vancomycin per 40 g of cement powder (PAL specimens). These specimens were used for determination of gentamicin and vancomycin elution (in fetal calf serum, at 22°C) and for determination of compressive strength both prior and following the elution tests. Results. Cumulative gentamicin concentrations (p < 0.005) and gentamicin concentration after 28 days (p ≤ 0.043) were significantly lower for COP specimens compared to PAL specimens. Cumulative vancomycin concentrations were significantly higher (p ≤ 0.043) for COP specimens after the second day. Vancomycin concentrations after 28 days were not significantly higher for the Copal specimens loaded with 2 g and 4 g of vancomycin. Compressive strength was not significantly different between COP specimens and PAL specimens before elution tests. Compressive strength after the elution tests was significantly lower (p = 0.005) for COP specimens loaded with 2 g of vancomycin. Conclusion. We could not demonstrate consistent superior antibiotic elution from Copal\(^®\) spacem compared to Palacos\(^®\) R+G for fabricating gentamicin and vancomycin loaded spacers. The results do not favor Copal\(^®\) spacem over Palacos\(^®\) R+G for the use as a gentamicin and vancomycin biantibiotic-loaded spacer.
KW  - Copal\(^®\) spacem
KW  - PMMA bone cement
KW  - elution
KW  - compressive strength
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-177435
VL  - 2018
IS  - 4323518
ER  - 
TY  - JOUR
A1  - Dotterweich, Julia
A1  - Schlegelmilch, Katrin
A1  - Keller, Alexander
A1  - Geyer, Beate
A1  - Schneider, Doris
A1  - Zeck, Sabine
A1  - Tower, Robert J. J.
A1  - Ebert, Regina
A1  - Jakob, Franz
A1  - Schütze, Norbert
T1  - Contact of myeloma cells induces a characteristic transcriptome signature in skeletal precursor cells-implications for myeloma bone disease
JF  - Bone
N2  - Physical interaction of skeletal precursors with multiple myeloma cells has been shown to suppress their osteogenic potential while favoring their tumor-promoting features. Although several transcriptome analyses of myeloma patient-derived mesenchymal stem cells have displayed differences compared to their healthy counterparts, these analyses insufficiently reflect the signatures mediated by tumor cell contact, vary due to different methodologies, and lack results in lineage-committed precursors. To determine tumor cell contact-mediated changes on skeletal precursors, we performed transcriptome analyses of mesenchymal stem cells and osteogenic precursor cells cultured in contact with the myeloma cell line INA-6. Comparative analyses confirmed dysregulation of genes which code for known disease-relevant factors and additionally revealed upregulation of genes that are associated with plasma cell homing, adhesion, osteoclastogenesis, and angiogenesis. Osteoclast-derived coupling factors, a dysregulated adipogenic potential, and an imbalance in favor of anti-anabolic factors may play a role in the hampered osteoblast differentiation potential of mesenchymal stem cells. Angiopoietin-Like 4 (ANGPTL4) was selected from a list of differentially expressed genes as a myeloma cell contact-dependent target in skeletal precursor cells which warranted further functional analyses. Adhesion assays with full-length ANGPTL4-coated plates revealed a potential role of this protein in INA6 cell attachment. This study expands knowledge of the myeloma cell contact-induced signature in the stromal compartment of myelomatous bones and thus offers potential targets that may allow detection and treatment of myeloma bone disease at an early stage.
KW  - marrow stromal cells
KW  - Endothelial growth-factor
KW  - precedes multiple-myeloma
KW  - monoclonial gammopathy
KW  - in-vitro
KW  - mesenchymal stem-cells
KW  - undetermined significance
KW  - angiogenic cytokines
KW  - peripheral-blood
KW  - gene-expression
KW  - Multiple myeloma
KW  - Bone disease
KW  - Angiopoietin-like 4
KW  - Gene expression profiling
KW  - Mesenchymal stem cells
KW  - Osteogenic precursor cells
Y1  - 2016
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-186688
VL  - 93
ER  -