Establishing a rabbit model with massive supraspinatus tendon defect for investigating scaffold-assisted tendon repair.

IF 3.7 3区 生物学 Q1 BIOCHEMICAL RESEARCH METHODS
Shuting Huang, Ming Yik Tam, Wai Hon Caleb Ho, Hong Ki Wong, Meng Zhou, Chun Zeng, Denghui Xie, Dai Fei Elmer Ker, Samuel Kk Ling, Rocky S Tuan, Dan Michelle Wang
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引用次数: 0

Abstract

Background: Shoulder pain and disability from rotator cuff tears remain challenging clinical problem despite advancements in surgical techniques and materials. To advance our understanding of injury progression and develop effective therapeutics using tissue engineering and regenerative medicine approaches, it is crucial to develop and utilize animal models that closely resemble the anatomy and display the pathophysiology of the human rotator cuff. Among various animal models, the rabbit shoulder defect model is particularly favored due to its similarity to human rotator cuff pathology. However, a standardized protocol for creating a massive rotator cuff defect in the rabbits is not well defined. Therefore, the objective of our study was to establish a robust and reproducible model of a rotator cuff defect to evaluate the regenerative efficacy of scaffolds.

Results: In our study, we successfully developed a rabbit model with a massive supraspinatus tendon defect that closely resembles the common rotator cuff injuries observed in humans. This defect involved a complete transection of the tendon, spanning 10 mm in length and encompassing its full thickness and width. To ensure stable scaffolding, we employed an innovative bridging suture technique that utilized a modified Mason-Allen suture as a structural support. Moreover, to assess the therapeutic effectiveness of the model, we utilized different scaffolds, including a bovine tendon extracellular matrix (ECM) scaffold and a commercial acellular dermal matrix (ADM) scaffold. Throughout the observation period, no scaffold damage was observed. Notably, comprehensive histological analysis demonstrated that the regenerative tissue in the tendon ECM scaffold group exhibited an organized and aligned fiber structure, indicating tendon-like tissue regeneration while the tissue in the ADM group showed comparatively less organization.

Conclusions: This study presents a comprehensive description of the implemented procedures for the development of a highly reproducible animal model that induces massive segmental defects in rotator cuff tendons. This protocol can be universally implemented with alternative scaffolds to investigate extensive tendon defects and evaluate the efficacy of regenerative treatments. The application of our animal model offers a standardized and reproducible platform, enabling researchers to systematically evaluate, compare, and optimize scaffold designs. This approach holds significant importance in advancing the development of tissue engineering strategies for effectively repairing extensive tendon defects.

建立大块冈上肌腱缺损兔模型,研究支架辅助肌腱修复。
背景:尽管手术技术和材料不断进步,但肩袖撕裂引起的肩部疼痛和残疾仍是具有挑战性的临床问题。为了增进我们对损伤进展的了解,并利用组织工程和再生医学方法开发有效的治疗方法,开发和利用与人体肩袖解剖结构和病理生理学非常相似的动物模型至关重要。在各种动物模型中,兔肩关节缺损模型因其与人类肩袖病理相似而尤其受到青睐。然而,在兔子身上建立大面积肩袖缺损的标准化方案还没有很好的定义。因此,我们的研究目标是建立一个稳健且可重复的肩袖缺损模型,以评估支架的再生功效:在我们的研究中,我们成功地建立了一个具有巨大冈上肌腱缺损的兔子模型,该模型与人类常见的肩袖损伤非常相似。这种缺损涉及肌腱的完全横断,长度达 10 毫米,包括整个肌腱的厚度和宽度。为了确保支架的稳定性,我们采用了创新的桥接缝合技术,利用改良的马森-艾伦缝合线作为结构支撑。此外,为了评估该模型的治疗效果,我们使用了不同的支架,包括牛腱细胞外基质(ECM)支架和商业细胞外基质(ADM)支架。在整个观察期间,没有观察到支架损坏。值得注意的是,综合组织学分析表明,肌腱 ECM 支架组的再生组织显示出有组织且排列整齐的纤维结构,表明组织再生类似于肌腱,而 ADM 组的组织显示出相对较弱的组织结构:本研究全面介绍了建立可高度重复的动物模型的实施步骤,该模型可诱导肩袖肌腱的大量节段性缺损。该方案可通过替代支架普遍应用于研究大面积肌腱缺损和评估再生疗法的疗效。应用我们的动物模型提供了一个标准化和可重复的平台,使研究人员能够系统地评估、比较和优化支架设计。这种方法对于推动有效修复广泛肌腱缺损的组织工程策略的发展具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biological Procedures Online
Biological Procedures Online 生物-生化研究方法
CiteScore
10.50
自引率
0.00%
发文量
16
审稿时长
>12 weeks
期刊介绍: iological Procedures Online publishes articles that improve access to techniques and methods in the medical and biological sciences. We are also interested in short but important research discoveries, such as new animal disease models. Topics of interest include, but are not limited to: Reports of new research techniques and applications of existing techniques Technical analyses of research techniques and published reports Validity analyses of research methods and approaches to judging the validity of research reports Application of common research methods Reviews of existing techniques Novel/important product information Biological Procedures Online places emphasis on multidisciplinary approaches that integrate methodologies from medicine, biology, chemistry, imaging, engineering, bioinformatics, computer science, and systems analysis.
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