Meta-analysis of in vitro methods on tracheal decellularization.

IF 2.2 3区医学 Q3 ENGINEERING, BIOMEDICAL

Artificial organs Pub Date : 2024-11-19 DOI:10.1111/aor.14907

Dhihintia Jiwangga, Ferdiansyah Mahyudin, Gondo Mastutik, Rasya Azka Lazuwardi

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引用次数: 0

Abstract

Introduction: Tracheal decellularization is one of the main processes to provide tracheal substitutes for tracheal replacement. Recently, studies have been held for agents and combinations of processes for tracheal decellularization with different outcomes. This study aimed to evaluate the efficacy of tracheal decellularization by the immunogenic cellular elements using residual deoxyribonucleic acid (DNA) contents (ng/mg) and the preservation of biomechanical integrity by glycosaminoglycan (GAG) content (μg/mg), modulus tensile strength (MPa), ultimate tensile strength (MPa), and stress loading of 50% deformation (N).

Methods: We conducted a meta-analysis based on PRISMA criteria. Data from experimental studies in MEDLINE, Scopus, and ScienceDirect from inception to August 21, 2023, were sought and computed using RevMan 5.4. The outcomes of tracheal decellularization were evaluated through effect size estimates based on pooled Standardized Mean Difference (SMD) with 95% CI.

Results: Tracheal decellularization has significantly reduced the DNA and GAG content after the process (SMD: -11.77, 95% CI [-13.92, -8.62], p < 0.00001; SMD: -6.70, 95% CI [-9.55, -3.85], p < 0.00001). No significant outcomes were observed in modulus and ultimate tensile strength result (SMD: -0.14, 95% CI [-0.64, 0.36], p = 0.58; SMD: 0.11, 95% CI [-0.57, 0.80], p = 0.75). The stress loading of 50% deformation was observed to significantly lower (SMD: -1.61, 95% CI [-2.49, -0.72], p = 0.0004).

Conclusion: Tracheal decellularization has been proven to effectively remove immunogenic cells. However, extracellular matrix integrity and biomechanical properties vary among different decellularization techniques, indicating a need for further refinement to achieve better preservation.

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气管脱细胞体外方法的元分析。

简介气管脱细胞是提供气管替代物的主要工艺之一。最近，对气管脱细胞的制剂和组合工艺进行了研究，结果各不相同。本研究旨在通过残留脱氧核糖核酸（DNA）含量（纳克/毫克）评估气管脱细胞的免疫原性细胞元素的功效，并通过糖胺聚糖（GAG）含量（微克/毫克）、模量拉伸强度（兆帕）、极限拉伸强度（兆帕）和50%变形的应力加载（牛顿）评估生物力学完整性的保存情况：我们根据 PRISMA 标准进行了一项荟萃分析。我们从 MEDLINE、Scopus 和 ScienceDirect 中查找了从开始到 2023 年 8 月 21 日的实验研究数据，并使用 RevMan 5.4 进行了计算。气管脱细胞疗法的结果通过基于汇集标准化均值差异（SMD）和 95% CI 的效应大小估计值进行评估：结果：气管脱细胞术后，DNA 和 GAG 含量明显降低（SMD：-11.77，95% CI [-13.92，-8.62]，P 结论：气管脱细胞术对气管中的 DNA 和 GAG 含量有明显的抑制作用：事实证明，气管脱细胞可有效清除免疫原性细胞。然而，细胞外基质的完整性和生物力学特性在不同的脱细胞技术中存在差异，这表明需要进一步改进以达到更好的保存效果。

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

Artificial organs 工程技术-工程：生物医学

CiteScore

4.30

自引率

12.50%

发文量

303

审稿时长

4-8 weeks

期刊介绍： Artificial Organs is the official peer reviewed journal of The International Federation for Artificial Organs (Members of the Federation are: The American Society for Artificial Internal Organs, The European Society for Artificial Organs, and The Japanese Society for Artificial Organs), The International Faculty for Artificial Organs, the International Society for Rotary Blood Pumps, The International Society for Pediatric Mechanical Cardiopulmonary Support, and the Vienna International Workshop on Functional Electrical Stimulation. Artificial Organs publishes original research articles dealing with developments in artificial organs applications and treatment modalities and their clinical applications worldwide. Membership in the Societies listed above is not a prerequisite for publication. Articles are published without charge to the author except for color figures and excess page charges as noted.