Advances in preparation of acellular human dermis for tissue banking and transplantation.

IF 1.4 4区医学 Q4 CELL BIOLOGY

Cell and Tissue Banking Pub Date : 2024-12-10 DOI:10.1007/s10561-024-10153-0

Irit Stern, Valentina Barrera, Michael Randles, Paul Rooney

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引用次数: 0

Abstract

Non-healing wounds cost the National Health Service over £5.6 billion annually in wound management. Skin allografts are used to treat non-healing wounds, ulcers and burns, offering the best protection against infection. In order to allow host cells to repopulate and to avoid immunogenicity, cell components are removed through decellularisation. Decellularisation of human dermis has so far been performed in NHS Blood and Transplant using a combination of two enzymes (RNase T1 and the recombinant human DNase Pulmozyme)®. This study aims at validating a new method to remove DNA from donated dermis via the use of a single enzyme, Benzonase, known for its effectiveness of DNA digestion. Skin samples were decellularised by removing the epidermis, lysing of dermal cells, removal of cellular fragments by a detergent wash and removal of nucleic acids by a nuclease incubation with either Benzonase or Pulmozyme + RNase T1. DNA quantification with PicoGreen, as well as histology on wax-embedded biopsies, stained with DAPI and haemotoxylin and eosin, were performed. In vitro toxicity test on human osteosarcoma immortalised cells and skin fibroblasts, and biomechanical (tensile) testing, were also performed. The effectiveness of DNA digestion with the new methodology was comparable to previous procedure. Mean DNA removal percentage following decellularisation with Pulmozyme + RNase was 99.9% (3.83 ng/mg). Mean DNA removal percentage with Benzonase was 99.8% (9.97 ng/mg). Histology staining showed complete decellularisation following either method. Benzonase was proven to be non-toxic to both cell lines used, and a one-way Anova test showed no significant difference in neither stress nor strain between acellular dermal matrix decellularised with either Benzonase or Pulmozyme + RNase T1. Benzonase was able to effectively decellularise dermis after prior removal of epidermis. It performed just as well as the combination of Pulmozyme + RNase T1, but represents significant advantages in terms of cost effectiveness, procurement and storage; Benzonase has been successfully used in the decellularisation of other tissues, thus would be better for Tissue Banking use. Switching to this combined DNase/RNase can have far-reaching consequences in the production of acellular human dermal matrix by NHSBT and in the treatment of patients requiring it.

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组织库和移植用脱细胞人真皮制备的研究进展。

英国国家卫生服务每年在伤口管理方面的费用超过56亿英镑。同种异体皮肤移植用于治疗无法愈合的伤口、溃疡和烧伤，提供最好的预防感染的保护。为了使宿主细胞重新填充并避免免疫原性，通过脱细胞去除细胞成分。迄今为止，在NHS血液和移植中使用两种酶（RNase T1和重组人dna酶Pulmozyme）®进行了人真皮脱细胞。本研究旨在验证一种新方法，通过使用单一的酶，苯并酶，以其DNA消化的有效性而闻名，从捐赠的真皮层中去除DNA。通过去除表皮、裂解真皮细胞、用洗涤剂洗涤去除细胞片段和用苯并酶或Pulmozyme + RNase T1培养核酸酶去除核酸来去除皮肤样本的细胞。用PicoGreen进行DNA定量，并用DAPI、血氧素和伊红染色对蜡包埋活检组织进行组织学检查。对人骨肉瘤永生化细胞和皮肤成纤维细胞进行了体外毒性试验，并进行了生物力学（拉伸）试验。新方法的DNA消化效果与以前的方法相当。Pulmozyme + RNase脱细胞后的平均DNA去除率为99.9% （3.83 ng/mg）。苯并酶平均DNA去除率为99.8% （9.97 ng/mg）。两种方法的组织学染色均显示完全脱细胞。苯并酶被证明对两种细胞系都是无毒的，单因素方差分析显示，用苯并酶或Pulmozyme + RNase T1脱细胞的脱细胞真皮基质在应激和应变方面没有显著差异。苯并酶能够在事先去除表皮后有效地使真皮脱细胞。它的表现与Pulmozyme + RNase T1的组合一样好，但在成本效益、采购和储存方面具有显著优势；苯并酶已成功地用于其他组织的脱细胞，因此将更好地用于组织库。切换到这种DNase/RNase组合可以对NHSBT产生脱细胞人真皮基质和需要它的患者的治疗产生深远的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cell and Tissue Banking CELL BIOLOGY-ENGINEERING, BIOMEDICAL

CiteScore

3.10

自引率

13.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Cell and Tissue Banking provides a forum for disseminating information to scientists and clinicians involved in the banking and transplantation of cells and tissues. Cell and Tissue Banking is an international, peer-reviewed journal that publishes original papers in the following areas: basic research concerning general aspects of tissue banking such as quality assurance and control of banked cells/tissues, effects of preservation and sterilisation methods on cells/tissues, biotechnology, etc.; clinical applications of banked cells/tissues; standards of practice in procurement, processing, storage and distribution of cells/tissues; ethical issues; medico-legal issues.