大规模肩袖撕裂的合成增强剂。

Medicine and sport science Pub Date : 2012-01-01 Epub Date: 2011-10-04 DOI:10.1159/000328891
Umile Giuseppe Longo, Alfredo Lamberti, Giacomo Rizzello, Nicola Maffulli, Vincenzo Denaro
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引用次数: 47

摘要

大量肩袖撕裂是骨科的一大挑战。它们与持续的缺陷、无力和不良预后有关,并可导致肩关节受力不耦合,导致肩部运动不稳定。在过去的几年里,人们对开发新的治疗策略产生了显著的兴趣,这些治疗策略可以提供有效的机械强化肩袖修复,并刺激和增强患者的内在愈合潜力。使用新型支架材料的组织工程技术为处理大量不可修复的肩袖撕裂提供了潜在的选择。合成支架,由化学化合物制造,已经获得了很大的兴趣,以弥合大量的肌腱套撕裂。初步研究表明,合成支架可以作为肩袖增强术的一种替代方法,具有巨大的治疗潜力。尽管临床上越来越多地使用合成支架装置进行肩袖修复,但仍有许多关于其适应症、手术应用、安全性、作用机制和疗效的问题有待澄清或解决。我们回顾了目前合成支架用于大规模肩袖修复的基础科学和临床理解,报告了迄今为止在该领域进行的临床前和临床研究。我们强调了用于肌腱套撕裂增强的现有合成支架的优点和局限性,并讨论了这些文献数据对这些支架在肌腱修复过程中使用的未来方向的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthetic augmentation in massive rotator cuff tears.

Massive rotator cuff tears represent a great challenge in orthopaedic. They are associated with persistent defects, weakness, and poor outcomes and can cause an uncoupling of forces across the glenohumeral joint, with unstable shoulder kinematics. In the last few years, a notable interest has emerged to develop new treatment strategies that provide effective mechanical reinforcement of rotator cuff repair and stimulate and enhance the patient's intrinsic healing potential. Tissue engineering techniques using novel scaffold materials offer potential alternatives for managing massive irreparable rotator cuff tears. Synthetic scaffolds, manufactured from chemical compounds, have gained much interest to bridge massive rotator cuff tears. Preliminary studies support the idea that synthetic scaffolds can provide an alternative for rotator cuff augmentation with an enormous therapeutic potential. Despite the growing clinical use of synthetic scaffold devices for rotator cuff repair, there are numerous questions related to their indication, surgical application, safety, mechanism of action, and efficacy that remain to be clarified or addressed. We review the current basic science and clinical understanding of synthetic scaffolds for massive rotator cuff repair, reporting the preclinical and clinical studies carried out to date in this field. We underline the benefits and limitations of the available synthetic scaffolds for augmentation of rotator cuff tears, and discuss the implications of these literature data on the future directions for the use of these scaffolds in tendon repair procedures.

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