A Histological and Biomechanical Analysis of Human Acellular Dermis (HAD) Created Using a Novel Processing and Preservation Technique

IF 1.1 4区医学 Q3 ORTHOPEDICS

Indian Journal of Orthopaedics Pub Date : 2024-05-18 DOI:10.1007/s43465-024-01181-9

Damini Shah, Madhu Rathod, Anjali Tiwari, Abhishek Kini, Prasad Bhagunde, Vaibhav Bagaria

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引用次数: 0

Abstract

Background

Large and complex defects requiring reconstruction are challenging for orthopaedic surgeons. The use of human acellular dermal (HAD) matrices to augment large soft tissue defects such as those seen in massive rotator cuff tears, knee extensor mechanism failures and neglected Tendo-Achilles tears has proven to be a valuable tool in surgeons reconstructive armamentarium. Different methods for allograft decellularization and preservation alter the native properties of the scaffold. Traditional processing and preservation methods have shown to have drawbacks that preclude its widespread use. Some of the common issues include inferior biomechanical properties, the risk of rejection, limited customization, difficulty in storing and transporting, the requirement of pre-operative preparation, and last but not the least increased cost.

Methods

We describe a novel processing and preservation method utilizing a two-step non-denaturing decellularization method coupled with preservation using a water-sequestering agent (glycerol) to remove immunogenic components while retaining biomechanical properties. The efficiency of this novel process was compared with the traditional freeze-drying method and verified by histological evaluation and biomechanical strength analysis.

Results

The absence of cellular components and matrix integrity in hematoxylin and eosin-stained glycerol-preserved HAD (gly-HAD) samples compared to freeze-dried HAD (FD-HAD) demonstrated effective yet gentle decellularization. Biomechanical strength analysis revealed that gly-HADs are stronger with an ultimate tensile load to the failure strength of 210 N compared to FD-HAD (124N). The gly-HADs were found to have an optimal suture–retention strength of 126 N. Finally, sterility testing of the resultant grafts was checked to ensure a sterility assurance level of 10⁻⁶ to establish implantability.

Conclusion

The novel processing and preservation technique is described in this paper to create a Human Acellular Dermis with higher biomechanical strength and superior histological characteristics. The processing and preservation technique ensured high sterility assurance levels to establish implantability.

Abstract Image

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使用新型加工和保存技术制作的人体细胞真皮 (HAD) 的组织学和生物力学分析

背景需要重建的大面积复杂缺损对整形外科医生来说具有挑战性。事实证明，使用人类非细胞真皮（HAD）基质来增强大面积软组织缺损（如大面积肩袖撕裂、膝关节伸肌机制失效和被忽视的腱腱-跟腱撕裂）是外科医生重建手段中的一项重要工具。不同的异体移植物脱细胞和保存方法会改变支架的原生特性。传统的处理和保存方法存在弊端，无法广泛使用。我们介绍了一种新型的处理和保存方法，该方法采用两步非变性脱细胞法，并使用水螯合剂（甘油）进行保存，以去除免疫原性成分，同时保留生物力学特性。结果与冻干 HAD（FD-HAD）相比，苏木精和伊红染色的甘油保存 HAD（gly-HAD）样本中没有细胞成分，基质完整，这表明脱细胞过程有效而温和。生物力学强度分析表明，与冻干 HAD（124N）相比，gly-HAD 的强度更高，极限拉伸载荷至破坏强度为 210 N。gly-HADs的最佳缝合固定强度为126牛顿。最后，对所得移植物进行了无菌测试，以确保其无菌保证水平为10-6，从而确定其可植入性。该加工和保存技术确保了较高的无菌保证水平，从而确定了植入性。

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来源期刊

Indian Journal of Orthopaedics ORTHOPEDICS-

CiteScore

1.80

自引率

0.00%

发文量

185

审稿时长

9 months

期刊介绍： IJO welcomes articles that contribute to Orthopaedic knowledge from India and overseas. We publish articles dealing with clinical orthopaedics and basic research in orthopaedic surgery. Articles are accepted only for exclusive publication in the Indian Journal of Orthopaedics. Previously published articles, articles which are in peer-reviewed electronic publications in other journals, are not accepted by the Journal. Published articles and illustrations become the property of the Journal. The copyright remains with the journal. Studies must be carried out in accordance with World Medical Association Declaration of Helsinki.