Cellular therapies play an important role in tendon tissue engineering with tenocytes being described as the most prominent cell population if available in large numbers.
Cellular therapies play an important role in tendon tissue engineering and regenerative medicine with tenocytes being described as the most prominent cell population for these applications if available in large numbers. However, this is difficult to achieve, because SDS-PAGE and immunocytochemistry analysis, demonstrated that human tenocytes treated with the optimal MMC concentration at 2% oxygen tension showed increased collagen type I synthesis and deposition after 7 days. Moreover, immunocytochemistry for collagen type III, type V, VI, elastin and fibronectin illustrated enhanced deposition when cells were treated with MMC at 2% oxygen tension. In addition, it was shown that low oxygen tension and MMC did not affect the spindle-shape morphology, metabolic activity, proliferation and viability of human tenocytes Collectively, these results suggest that the synergistic effect of optimal macromolecular crowding concentration and low oxygen tension (2%) can accelerate the formation of ECM-rich substitutes, which may stimulate tenogenic phenotype maintenance. Further gene and protein analysis for tendon specific markers should be performed to validate our promising results.