@phdthesis{Schupp2006,
  author    = {Schupp, Kathrin},
  title     = {In vitro Herstellung eines vorderen Kreuzbandkonstruktes aus mesenchymalen Stammzellen und einem Kollagen Typ I-Hydrogel},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-21620},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2006},
  abstract  = {Verletzungen des vorderen Kreuzbandes geh{\"o}ren zu h{\"a}ufigsten Verletzungen des menschlichen Bandapparates. Da das vordere Kreuzband {\"u}ber ein schlechtes intrinsisches Heilungspotenzial verf{\"u}gt, ist heutzutage die chirurgische Rekonstruktion mittels Sehnentransplantaten die Therapie der Wahl. Die vorliegende Arbeit besch{\"a}ftigte sich mit der Fragestellung, ob es m{\"o}glich ist, ein Kreuzband-Konstrukt aus mesenchymalen Stammzellen (MSCs) und einem Kollagen Typ I-Hydrogel herzustellen und wie die Einwirkung von mechanischem Stress die Struktur und Eigenschaften eines solchen Band{\"a}quivalentes ver{\"a}ndert. Daf{\"u}r wurden MSCs und endst{\"a}ndige Knochenbl{\"o}cke in ein Kollagen Typ I-Hydrogel eingebracht. Das Konstrukt wurde zun{\"a}chst eine Woche horizontal kultiviert, um den Zellen eine Umwandlung des Gels und eine Anheftung der Knochenbl{\"o}cke zu erm{\"o}glichen. Anschließend wurde {\"u}ber 2 Wochen eine zyklische Dehnung in einem speziell daf{\"u}r entworfenen Bioreaktur auf das Konstrukt ausge{\"u}bt. Histochemische ( HE, Masson-Goldner, Azan, Sirius-Red) und immunhistochemische (Kollagen I und III, Fibronektin, Vimentin und Elastin) F{\"a}rbungen zeigten eine Induktion der Matrixproduktion mit wellenf{\"o}rmig in Achse des Zuges ausgerichteten Kollagenfasern, die Zellkerne stellten sich elongiert dar. RT-PCR-Analysen zeigten ebenso eine deutlich vermehrte Expression der oben genannten Fibroblastenmarker. Bei ungedehnten, horizontal kultivierten Kontrollkonstrukten waren keinerlei Ver{\"a}nderungen der Matrix zu erkennen. Das Konstrukt war jedoch nicht stabil genug, um f{\"u}r die klinische Anwendung zum Einsatz zu kommen.},
  language  = {de}
}
@phdthesis{HaddadWeber2010,
  author    = {Haddad-Weber, Meike},
  title     = {Development of stem cell-based ACL- and tendon reconstruction},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-66796},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2010},
  abstract  = {Ruptures of the anterior cruciate ligament (ACL) and defects of the rotator cuff represent the most common ligament and tendon injuries in knee and shoulder. Both injuries represent significant implications for the patients. After an injury, the ACL and the rotator cuff both exhibit poor intrinsic healing capacities. In order to prevent further defects such as arthritis of the knee and fatty infiltration of the rotator cuff, surgical interaction is essential. In both cases, the currently used surgical techniques are far from optimal because even after the therapy many patients report problems ranging from pain and reduced mobility to complete dysfunction of the involved joint and muscles. Tissue engineering may be a possible solution. It is a promising field of regenerative medicine and might be an advantageous alternative for the treatment of musculoskeletal injuries and diseases in the near future. In this thesis, different tissue engineering based approaches were investigated. For the reconstruction of damaged or diseased ligaments and tendons, the use of MSCs and gene therapy with growth factors is especially suitable and possesses a great therapeutic potential. Therefore, the first method studied and tested in this thesis was the development of a biomaterial based construct for the repair of a ruptured ACL. The second approach represents a cell based strategy for the treatment of the fatty infiltration in the rotator cuff. The third approach was a combined cell, biomaterial, and growth factor based strategy for ACL ruptures. Biomaterial based ACL construct The implant is currently tested in a preclinical in vivo study in mini pigs. This proof-of-principle study is performed to validate the functional capability of the collagen fiber based implant under load in vivo and its population with fibroblasts which produce a ligamentogenic matrix. Cell based treatment of the fatty infiltration in the rotator cuff Regarding the treatment of the fatty infiltration of the rotator cuff in a rabbit model, the in vivo results are also promising. The group treated with autologous MSCs (+MSC group) showed a lower fat content than the untreated group (-MSC group) 6 weeks after the treatment. Furthermore, the SSP muscle of the MSC-treated animals revealed macroscopically and microscopically only few differences compared to the healthy control group. The exact underlying mechanisms leading to the positive results of the treatment are not yet fully understood and have therefore to be further investigated in the future. Cell, biomaterial, and growth factor based treatment of ACL ruptures Studies described in current literature show that collagen hydrogel scaffolds are not ideal for a complete ligament or tendon reconstruction, because of their insufficient mechanical stability. Introduced as an alternative and superior therapy, the combined strategy used in this thesis proves that the cultivation of BMP-12, -13, and IGF-1 transduced MSCs and ACL fibroblasts in a collagen hydrogel is successful. The results of the performed in vitro study reveal that the cells exhibit a fibroblastic appearance and produce a ligamentogenic matrix after 3 weeks. Furthermore, the adenoviral transduction of MSCs and ACL fibroblasts showed no negative effects on proliferation or viability of the cells nor was apoptosis caused. Therefore, the application of these cells represents a possible future therapy for a partial ligament and tendon rupture where the mechanical stability of the remaining ligament or tendon is sufficient and the healing can be improved substantially by this therapy. In general, prospective randomized clinical trials still have to prove the postulated positive effect of MSCs for the treatment of various musculoskeletal diseases, but the results obtained here are already very promising. Ideally, the treatment with MSCs is superior compared to the standard surgical procedures. Because of current safety issues the use of genetically modified cells cannot be expected to be applied clinically in the near future. In summary, the different tissue engineering approaches for novel therapies for musculoskeletal injuries and diseases invested in this thesis showed very promising results and will be further developed and tested in preclinical and clinical trials.},
  subject      = {Kreuzband},
  language  = {en}
}
@phdthesis{Bischofberger2012,
  author    = {Bischofberger, Simon},
  title     = {Entwicklung und biomechanische Untersuchungen eines Kreuzbandkonstrukts aus biomaterialbasiertem Kollagen I},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-85648},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2012},
  abstract  = {Das ACL ist eine der am h{\"a}ufigsten verletzten Strukturen des menschlichen K{\"o}rpers bei Sportunf{\"a}llen und die Anzahl der Rekonstruktionen wird weiterhin zunehmen. In den letzten Jahren wurden große Fortschritte in der Charakterisierung der biomechanischen Eigenschaften von Sehnen und B{\"a}ndern erzielt und neue Ans{\"a}tze auf dem Gebiet des Tissue Engineering er{\"o}ffnen neue M{\"o}glichkeiten. In dieser Arbeit wurde ein ACL-Konstrukt aus biomaterialbasiertem Kollagen I entwickelt und getestet. Die gewonnenen Ergebnisse k{\"o}nnen als Grundlage f{\"u}r die Herstellung eines Kreuzbandkonstruktes verwendet werden.},
  subject      = {Kreuzband},
  language  = {de}
}