- 作者:P. Hadidi&dagger ; ; a ; N.K. Paschos&dagger ; ; a ; B.J. Huang&dagger ; ; A. Aryaei&dagger ; ; J.C. Hu&dagger ; ; K.A. Athanasiou&dagger ; ; &Dagger ; ; athanasiou@ucdavis.edu" class="auth_mail" title="E-mail the corresponding author
- 关键词:Tissue engineering ; Primary cell sources ; Meniscus fibrocartilage ; Self-assembling process ; Knee surgery
- 刊名:Osteoarthritis and Cartilage
- 出版年:2016
- 出版时间:December 2016
- 年:2016
- 卷:24
- 期:12
- 页码:2126-2134
- 全文大小:1630 K
Method
Self-assembling meniscus-shaped constructs engineered from a co-culture of articular chondrocytes and either meniscus, tendon, or ligament cells were cultured for 4 weeks with TGF-β1 in serum-free media. After culture, constructs were assessed for their mechanical properties, histological staining, gross appearance, and biochemical composition including cross-link content. Correlations were performed to evaluate relationships between biochemical content and mechanical properties.
Results
In terms of mechanical properties as well as biochemical content, constructs engineered using tenocytes and ligament fibrocytes were found to be equivalent or superior to constructs engineered using meniscus cells. Furthermore, cross-link content was found to be correlated with engineered tissue tensile properties.
Conclusion
Tenocytes and ligament fibrocytes represent viable cell sources for engineering meniscus fibrocartilage using the self-assembling process. Due to greater cross-link content, fibrocartilage engineered with tenocytes and ligament fibrocytes may maintain greater tensile properties than fibrocartilage engineered with meniscus cells.