Decellularised amniotic membrane-TDSCs composite promotes Achilles tendon healing.

Adhesions and poor healing are major complications after Achilles tendon injury, and there is no effective solution to this problem. The purpose of this study is to determine whether the biomimetic peritoneurosis can solve the above problems in the process of Achilles tendon healing; This study investigated the adhesion and proliferation of tendon-derived stem cells (TDSCs) on dAM in vitro, as well as their tenogenic differentiation. The effects of Achilles tendon rupture on tendon regeneration were assessed in vivo by using an Achilles tendon rupture model in rats; Finally, from in vitro mRNA transcriptome sequencing combined with in vivo Achilles tendon protein to omics analysis to explore the repair mechanism of Achilles tendon rupture. Student's t-tests were used to assess the significance of observed differences between the two experimental groups. Multiple groups were compared using one-way analysis of variances (ANOVAs), followed by post hoc Bonferroni comparisons. The main findings of this study are that cell adhesion, proliferation, and differentiation of TDSCs were enhanced by dAM. Implanted dAM + TDSCs significantly accelerated tendon regeneration in vivo. In addition, extracellular matrix-related differential genes and proteins were screened by mRNA transcriptometry in vitro and proteomic analysis of Achilles tendon in vivo, and ERK signaling pathway was further explored to participate in the repair of Achilles tendon rupture. The dAM-TDSCs composite biomimetic peritendinous membrane material can effectively promote the healing of Achilles tendon. It provides a new direction for the development of biomimetic peritendinous membrane materials.