修复和再生肩袖肌腱-骨结合部的生物方法:文献综述。

Biomaterials Translational Pub Date : 2023-06-28 eCollection Date: 2023-01-01 DOI:10.12336/biomatertransl.2023.02.004
Ahlam A Abdalla, Catherine J Pendegrass
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引用次数: 0

摘要

粘连是将韧带和肌腱与骨骼连接起来的高度特化的器官,可促进力的传递,并提供机械强度以吸收所遇到的力。界面上存在两种类型的粘连,即纤维软骨性粘连和纤维性粘连。渐变纤维软骨类型存在于肩袖肌腱中,由于愈合能力差,导致失去原有的结构和生物力学特性,因而更容易受伤,这也是造成高频率再撕裂的原因。生物方法的方法和结果时好时坏,这是在临床上常规使用这些方法需要克服的挑战。因此,根据不同类别(慢性、撕裂程度和研究人群)对现有文献进行分层将有效指导修复方法。本文献综述支持利用细胞、生长因子和支架促进肩袖内植物愈合的组织工程方法。研究结果表明,在动物实验和一些临床试验中,组织工程疗法大有可为,而且综合疗法比个体化疗法更有益。报告随后强调了根据撕裂程度、慢性程度和治疗人群调整干预措施的重要性。此外,还应考虑负荷、缺陷和生活习惯等诱因。如果能综合考虑生物、机械和环境因素,就能达到最佳效果。要确定差异是由干预措施本身、动物模型、加载方案、材料还是撕裂机制造成的,这一点很有挑战性。未来的研究应重点关注针对不同类别制定干预方案,这将为再生医学决策提供最佳指导。
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Biological approaches to the repair and regeneration of the rotator cuff tendon-bone enthesis: a literature review.

Entheses are highly specialised organs connecting ligaments and tendons to bones, facilitating force transmission, and providing mechanical strengths to absorb forces encountered. Two types of entheses, fibrocartilaginous and fibrous, exist in interfaces. The gradual fibrocartilaginous type is in rotator cuff tendons and is more frequently injured due to the poor healing capacity that leads to loss of the original structural and biomechanical properties and is attributed to the high prevalence of retears. Fluctuating methodologies and outcomes of biological approaches are challenges to overcome for them to be routinely used in clinics. Therefore, stratifying the existing literature according to different categories (chronicity, extent of tear, and studied population) would effectively guide repair approaches. This literature review supports tissue engineering approaches to promote rotator cuff enthesis healing employing cells, growth factors, and scaffolds period. Outcomes suggest its promising role in animal studies as well as some clinical trials and that combination therapies are more beneficial than individualized ones. It then highlights the importance of tailoring interventions according to the tear extent, chronicity, and the population being treated. Contributing factors such as loading, deficiencies, and lifestyle habits should also be taken into consideration. Optimum results can be achieved if biological, mechanical, and environmental factors are approached. It is challenging to determine whether variations are due to the interventions themselves, the animal models, loading regimen, materials, or tear mechanisms. Future research should focus on tailoring interventions for different categories to formulate protocols, which would best guide regenerative medicine decision making.

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