Cell-derived exosome therapy for diabetic peripheral neuropathy: a preclinical animal studies systematic review and meta-analysis.

IF 7.1 2区医学 Q1 CELL & TISSUE ENGINEERING

Stem Cell Research & Therapy Pub Date : 2025-06-09 DOI:10.1186/s13287-025-04432-0

Xianying Lu, Ran Xu, Xiaohui Dong, Dingxi Bai, Wenting Ji, Xinyu Chen, Huan Chen, Chaoming Hou, Jing Gao

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引用次数: 0

Abstract

Backgrounds: Exosomes is a promising cell-free therapy for Diabetic peripheral neuropathy (DPN) that imposes long-term negative effects on patients' finances, mental health, and quality of life. We conducted a meta-analysis to assess the therapeutic effects of exosomes (such as SCs-derived, FCs-derived, BMSCs-derived, MSCs-derived, and Plasma-derived) on DPN.

Methods: We searched nine databases from inception to February 2025, then two researchers independently screened studies, extracted data, and assessed the quality of included studies using SYRCLE's tool. The outcome indicators consisted of at least one of the three key DPN endpoints (electrophysiology, behavioural assessment, and nerve structure) based on the Neurodiab guidelines. R 4.4.2 software was used to conduct all statistical analyses.

Results: 11 studies were identified, and the risk of bias in most studies was unclear generally. Pooled analyses demonstrated that exosome improved the nerve conduction velocity [MCV (SMD = 4.71 [2.18;7.25], P = 0.0003; I²= 91.8%), SCV (SMD = 1.07 [0.30;1.85], P = 0.0069; I²= 85.3%)], may restore IENFD [SMD = 1.46 [-0.85; 3.77], P = 0.2164; I²=88.7%], alleviated neuropathic pain [mechanical allodynia (SMD= -0.27 [-1.02;0.47], P = 0.4697; I² = 85.0%), thermal hyperalgesia (SMD= -1.48 [-2.45;-0.50], P = 0.003; I² = 88.4%)], ameliorated vascular function [blood flow perfusion in plantar (SMD = 2.84 [0.89; 4.80], P = 0.0043; I² = 74.9%), blood flow perfusion in sciatic nerves (SMD = 2.62 [0.80; 4.43], P = 0.0047; I² = 75.9%), vessel density (SMD = 2.69 [0.90; 4.49], P = 0.0032; I² = 0%)], and restored the peripheral nerve structure [sciatic nerve fiber diameter (SMD = 3.29 [1.61; 4.96], P = 0.0066; I² = 75.5%), axon diameter (SMD = 2.26 [1.64; 2.88], P < 0.0001; I² = 54.3%), myelin sheath thickness (SMD = 2.56 [1.39; 3.72], P < 0.0001; I² = 73.0%), g-ratio (SMD= -1.64 [-3.28; 0.00], P = 0.0502; I² = 34.17)]. Furthermore, after exosome therapy, the expressions of NF-200 (SMD = 2.57 [0.39; 4.75], P = 0.0210; I² = 33.0%), MBP (SMD = 2.27 [-1.49; 6.02], P = 0.1064; I² = 59.0%), and S-100β (SMD = 1.90 [0.09; 3.72], P = 0.0399; I² = 32.5%) evaluating axonal regeneration and remyelination increased significantly. Notably, high-glucose pretreatment of exosomes significantly attenuated these effects, while genetic overexpression modifications or novel dressings-mediated delivery partially counteracted this suppression.

Conclusions: Exosome therapy provides a novel therapeutic strategy for the benefit of neurovascular remodeling and functional recovery of DPN, especially when used in conjunction with exosome modification and novel dressings. To bridge the translational gap between preclinical and clinical studies, future research should conduct more large-scale, meticulously designed preclinical trials adhering to ARRIVE criteria before proceeding to clinical translation, to enhance translational rigor and mitigate risks associated with variability in study design.

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细胞源性外泌体治疗糖尿病周围神经病变：临床前动物研究系统回顾和荟萃分析。

背景：外泌体是一种很有前途的无细胞治疗糖尿病周围神经病变（DPN）的方法，对患者的财务、心理健康和生活质量造成长期的负面影响。我们进行了一项荟萃分析，以评估外泌体（如scs来源的、fc来源的、bmscs来源的、mscs来源的和血浆来源的）对DPN的治疗效果。方法：我们检索了从建立到2025年2月的9个数据库，然后两位研究者独立筛选研究，提取数据，并使用sycle的工具评估纳入研究的质量。结果指标包括基于Neurodiab指南的三个关键DPN终点（电生理、行为评估和神经结构）中的至少一个。采用r4.4.2软件进行统计分析。结果：确定了11项研究，大多数研究的偏倚风险总体上尚不清楚。综合分析表明外泌体可提高神经传导速度[MCV (SMD = 4.71 [2.18;7.25], P = 0.0003；²= 91.8%),SCV (SMD = 1.07 [0.30, 1.85], P = 0.0069;我²= 85.3%)],可以恢复IENFD (SMD = 1.46 (-0.85;3.77], p = 0.2164；I²=88.7%]，缓解神经性疼痛[机械性异常性疼痛](SMD= -0.27 [-1.02;0.47], P = 0.4697；I2 = 85.0%)、热痛觉过敏(SMD = -1.48 [-2.45, -0.50], P = 0.003;I2 = 88.4%)，改善血管功能[足底血流灌注](SMD = 2.84 [0.89；4.80], p = 0.0043；I2 = 74.9%)，坐骨神经血流灌注(SMD = 2.62 [0.80；4.43], p = 0.0047；I2 = 75.9%)，血管密度(SMD = 2.69 [0.90；4.49], p = 0.0032；I2 = 0%)]，并恢复周围神经结构[坐骨神经纤维直径(SMD = 3.29 [1.61；4.96], p = 0.0066；I2 = 75.5%)，轴突直径(SMD = 2.26 [1.64；2.88], P 2 = 54.3%)，髓鞘厚度(SMD = 2.56 [1.39；3.72], P = 73.0%), g-ratio (SMD= -1.64 [-3.28；0.00], p = 0.0502；[2 = 34.17]。此外，外泌体治疗后，NF-200 (SMD = 2.57 [0.39；4.75], p = 0.0210；I2 = 33.0%), MBP (smd = 2.27 [-1.49；6.02], p = 0.1064；I2 = 59.0%), S-100β (SMD = 1.90 [0.09；3.72], p = 0.0399；I2 = 32.5%)，评估轴突再生和髓鞘再生显著增加。值得注意的是，外泌体的高糖预处理显着减弱了这些作用，而遗传过表达修饰或新型敷料介导的递送部分抵消了这种抑制。结论：外泌体治疗为DPN的神经血管重塑和功能恢复提供了一种新的治疗策略，特别是当与外泌体修饰和新型敷料结合使用时。为了弥合临床前研究和临床研究之间的转化差距，未来的研究应该在进行临床转化之前，按照ARRIVE标准进行更大规模、精心设计的临床前试验，以提高转化的严谨性，并降低研究设计的可变性带来的风险。

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

Stem Cell Research & Therapy CELL BIOLOGY-MEDICINE, RESEARCH & EXPERIMENTAL

CiteScore

13.20

自引率

8.00%

发文量

525

审稿时长

1 months

期刊介绍： Stem Cell Research & Therapy serves as a leading platform for translational research in stem cell therapies. This international, peer-reviewed journal publishes high-quality open-access research articles, with a focus on basic, translational, and clinical research in stem cell therapeutics and regenerative therapies. Coverage includes animal models and clinical trials. Additionally, the journal offers reviews, viewpoints, commentaries, and reports.