Macromolecular Materials and Engineering (Nov 2023)

Electrospun Nanofibrous Composite Membranes for Long‐Term Release of Celecoxib for Achilles Tendon Reconstruction Following Injury

  • Yi‐Hsun Yu,
  • Chen‐Hung Lee,
  • Yung‐Heng Hsu,
  • Ying‐Chao Chou,
  • Ping‐Chun Yu,
  • Shih‐Jung Liu

DOI
https://doi.org/10.1002/mame.202300149
Journal volume & issue
Vol. 308, no. 11
pp. n/a – n/a

Abstract

Read online

Abstract Embedding multiple pharmaceutical drugs into poly(lactic‐co‐glycolic acid) (PLGA) nanofibers is known to improve the regeneration of the Achilles tendon upon implantation after injury and rapidly restore post‐surgery activity. In this study, an implantable material comprising celecoxib, collagen, bupivacaine, and PLGA (CCBP) is prepared by electrospinning. Its in vitro/vivo drug discharge behaviors are evaluated, and its efficacy in tendon regeneration is investigated in a rat model. The regeneration capacity of the wounded tendon is also compared with that of a doxycycline‐collagen‐bupivacaine‐PLGA (DCBP) combination. The results show that, relative to the primary PLGA nanofibers, the pharmaceutical‐embedded nanofibers have thinner fiber diameters and higher hydrophilicity. The drug‐eluting nanofibers also offer a sustained release of celecoxib for at least 30 d in vitro and 28 d in vivo. Achilles tendons regenerated using the CCBP combination nanofibers demonstrate a significantly higher maximum load‐to‐failure than normal tendons and those repaired using the DCBP combination. Additionally, the expression of growth factors and composition of collagen I induced by the CCBP combination are superior to those induced by the DCBP combination. The results suggest that the CCBP combination is a promising scaffold for the repair of ruptured Achilles tendons.

Keywords