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Durable immunomodulatory hierarchical patch for rotator cuff repairing
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作者 Liren Wang Yonghang Liu +6 位作者 Zhiqi Lin huiang chen Bowen Liu Xiaoyu Yan Tonghe Zhu Qin Zhang Jinzhong Zhao 《Bioactive Materials》 SCIE CSCD 2024年第7期477-492,共16页
Degradable rotator cuff patches,followed over five years,have been observed to exhibit high re-tear rates exceeding 50%,which is attributed to the inability of degradable polymers alone to restore the post-rotator cuf... Degradable rotator cuff patches,followed over five years,have been observed to exhibit high re-tear rates exceeding 50%,which is attributed to the inability of degradable polymers alone to restore the post-rotator cuff tear(RCT)inflammatory niche.Herein,poly(ester-ferulic acid-urethane)urea(PEFUU)was developed,featuring prolonged anti-inflammatory functionality,achieved by the integration of ferulic acid(FA)into the polyurethane repeating units.PEFUU stably releases FA in vitro,reversing the inflammatory niche produced by M1 macrophages and restoring the directed differentiation of stem cells.Utilizing PEFUU,hierarchical composite nanofiber patch(HCNP)was fabricated,simulating the natural microstructure of the tendon-to-bone interface with an aligned-random alignment.The incorporation of enzymatic hydrolysate derived from decellularized Wharton jelly tissue into the random layer could further enhance cartilage regeneration at the tendon-to-bone interface.Via rat RCT repairing model,HCNP possessing prolonged anti-inflammatory properties uniquely facilitated physiological healing at the tendon-to-bone interface’s microstructure.The alignment of fibers was restored,and histologically,the characteristic tripartite distribution of collagen I-collagen II-collagen I was achieved.This study offers a universal approach to the functionalization of degradable polymers and provides a foundational reference for their future applications in promoting the in vivo regeneration of musculoskeletal tissues. 展开更多
关键词 Tendon-to-bone interface INFLAMMATION Functional regeneration Bioactive polymer Bulk modification
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