Hedgehog 激活增强肩袖肌腱-骨愈合。
Hedgehog Activation for Enhanced Rotator Cuff Tendon-to-Bone Healing.
机构信息
Department of Orthopaedic Surgery, Columbia University, New York, New York, USA.
Department of Biomedical Engineering, Columbia University, New York, New York, USA.
出版信息
Am J Sports Med. 2023 Dec;51(14):3825-3834. doi: 10.1177/03635465231203210. Epub 2023 Oct 28.
BACKGROUND
Rotator cuff repair is a common orthopaedic procedure, yet the rate of failure to heal after surgery is high. Repair site rupture is due to poor tendon-to-bone healing and lack of regeneration of the native fibrocartilaginous enthesis. During development, the enthesis is formed and mineralized by a pool of progenitors activated by hedgehog signaling. Furthermore, hedgehog signaling drives regenerative enthesis healing in young animals, in contrast to older animals, in which enthesis injuries heal via fibrovascular scar and without participation of hedgehog signaling.
HYPOTHESIS
Hedgehog activation improves tendon-to-bone healing in an animal model of rotator cuff repair.
STUDY DESIGN
Controlled laboratory study.
METHODS
A total of 78 adult Sprague-Dawley rats were used. Supraspinatus tendon injury and repair were completed bilaterally, with microsphere-encapsulated hedgehog agonist administered to right shoulders and control microspheres administered to left shoulders. Animals were sacrificed after 3, 14, 28, or 56 days. Gene expression and histological, biomechanical, and bone morphometric analyses were conducted.
RESULTS
At 3 days, hedgehog signaling pathway genes (1.70; = .029) and (2.06; = .0173), as well as (1.69; = .0386), a transcription factor of osteogenesis, were upregulated in treated relative to control repairs. At 14 days, transcription factors of tenogenesis, (4.00; = .041), and chondrogenesis, (2.95; = .010), and mineralized fibrocartilage genes (3.18; = .031) and (1.85; = .006), were upregulated in treated relative to control repairs. Treatment promoted fibrocartilage formation at the healing interface by 28 days, with improvements in tendon-bone maturity, organization, and continuity. Treatment led to improved biomechanical properties. The material property strength (2.43 vs 1.89 N/m; = .046) and the structural property work to failure (29.01 vs 18.09 mJ; = .030) were increased in treated relative to control repairs at 28 days and 56 days, respectively. Treatment had a marginal effect on bone morphometry underlying the repair. Trabecular thickness (0.08 vs 0.07 mm; = .035) was increased at 28 days.
CONCLUSION
Hedgehog agonist treatment activated hedgehog signaling at the tendon-to-bone repair site and prompted increased mineralized fibrocartilage production. This extracellular matrix production and mineralization resulted in improved biomechanical properties, demonstrating the therapeutic potential of hedgehog agonism for improving tendon-to-bone healing after rotator cuff repair.
CLINICAL RELEVANCE
This study demonstrates the therapeutic potential of hedgehog agonist treatment for improving tendon-to-bone healing after rotator cuff injury and repair.
背景
肩袖修复是一种常见的骨科手术,但手术后愈合失败的发生率很高。修复部位破裂是由于肌腱-骨愈合不良和固有纤维软骨结合处缺乏再生所致。在发育过程中,结合处是由一群被 hedgehog 信号激活的祖细胞形成和矿化的。此外,hedgehog 信号在年轻动物中驱动再生结合处愈合,而在老年动物中,结合处损伤通过纤维血管瘢痕愈合,不参与 hedgehog 信号。
假设
hedgehog 激活可改善肩袖修复动物模型中的肌腱-骨愈合。
研究设计
对照实验室研究。
方法
共使用 78 只成年 Sprague-Dawley 大鼠。双侧完成冈上肌腱损伤和修复,右侧肩部给予微球包裹的 hedgehog 激动剂,左侧肩部给予对照微球。动物在 3、14、28 或 56 天后被处死。进行基因表达和组织学、生物力学和骨形态计量学分析。
结果
在 3 天时,hedgehog 信号通路基因 (1.70; =.029)和 (2.06; =.0173),以及成骨转录因子 (1.69; =.0386)在治疗组相对于对照组修复中上调。在 14 天时,肌腱发生转录因子 (4.00; =.041)和软骨发生转录因子 (2.95; =.010),以及矿化纤维软骨基因 (3.18; =.031)和 (1.85; =.006)在治疗组相对于对照组修复中上调。治疗在 28 天内通过促进愈合界面的纤维软骨形成,改善肌腱-骨成熟度、组织和连续性。治疗导致生物力学性能提高。治疗组的材料性能强度(2.43 对 1.89 N/m; =.046)和结构性能失效功(29.01 对 18.09 mJ; =.030)在 28 天和 56 天分别增加。治疗对修复下的骨形态计量学有轻微影响。在 28 天时,骨小梁厚度(0.08 对 0.07 mm; =.035)增加。
结论
肌腱-骨修复部位的 hedgehog 激动剂治疗激活了 hedgehog 信号通路,并促使矿化纤维软骨产生增加。这种细胞外基质的产生和矿化导致生物力学性能提高,表明 hedgehog 激动剂治疗在改善肩袖修复后肌腱-骨愈合方面具有治疗潜力。
临床意义
本研究表明 hedgehog 激动剂治疗在改善肩袖损伤和修复后的肌腱-骨愈合方面具有治疗潜力。
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