基于心血管疾病患者和健康人运动量的内皮祖细胞动员：系统回顾和荟萃分析。

European Heart Journal Open Pub Date : 2022-12-21 eCollection Date: 2022-11-01 DOI:10.1093/ehjopen/oeac078

Georgios Mitsiou, Savvas P Tokmakidis, Petros C Dinas, Ilias Smilios, Serafeim Nanas

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引用次数: 0

摘要

内皮祖细胞（EPC）在保护内皮功能障碍和心血管疾病（CVD）方面发挥着重要作用。体育锻炼能刺激 EPCs 的动员，并与血管内皮生长因子（VEGF）一起促进 EPC 的分化，有助于血管生成。本荟萃分析研究了心血管疾病患者和健康人运动诱导的 EPC 动员及其对血管内皮生长因子的影响。我们使用适当的算法进行了数据库研究（PubMed、EMBASE、Cochrane 对照试验图书馆），以确定运动诱导 EPC 动员的研究。资格标准包括心血管疾病患者和健康人运动后的 EPC 测量结果。采用连续随机效应模型荟萃分析（PROSPERO-CRD42019128122）计算 EPC 的平均差异（基线值与运动后值之间或实验组与对照组之间的差异）。共确定了 1460 名参与者（36 项研究）。数据以标准平均差 (Std.MD) 和 95% 置信区间 (95% CI) 表示。在心血管疾病患者（EPCs：Std.MD：1.23，95% CI：0.70-1.76；VEGF：Std.MD：0.76，95% CI：0.16-1.35）和健康人（EPCs：Std.MD：1.11，95% CI：0.53-1.69；VEGF：Std.MD：0.75，95% CI：0.01-1.48）中，有氧训练可刺激 EPCs 的动员并增加 VEGF。急性有氧运动（Std.MD：1.40，95% CI：1.00-1.80）和阻力运动（Std.MD：0.46，95% CI：0.10-0.82）可增加健康人的 EPC 数量。在心血管疾病患者中，有氧运动和阻力训练相结合可提高 EPC 的动员能力（Std.MD：1.84，95% CI：1.03-2.64）。充足的运动量（>60%VO2max >30 分钟；P = 0.00001）会产生理想的效果。我们的荟萃分析支持文献的研究结果。要获得有临床意义的结果，运动量是必需的。在心血管疾病患者和健康人中，持续进行高到中等强度、持续时间足够长的运动训练，以及有氧运动和阻力运动的联合训练，可刺激 EPC 的动员并增加血管内皮生长因子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Endothelial progenitor cell mobilization based on exercise volume in patients with cardiovascular disease and healthy individuals: a systematic review and meta-analysis.

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Endothelial progenitor cell mobilization based on exercise volume in patients with cardiovascular disease and healthy individuals: a systematic review and meta-analysis.

Endothelial progenitor cells (EPCs) play a vital role in protecting endothelial dysfunction and cardiovascular disease (CVD). Physical exercise stimulates the mobilization of EPCs, and along with vascular endothelial growth factor (VEGF), promotes EPC differentiation, and contributes to vasculogenesis. The present meta-analysis examines the exercise-induced EPC mobilization and has an impact on VEGF in patients with CVD and healthy individuals. Database research was conducted (PubMed, EMBASE, Cochrane Library of Controlled Trials) by using an appropriate algorithm to indicate the exercise-induced EPC mobilization studies. Eligibility criteria included EPC measurements following exercise in patients with CVD and healthy individuals. A continuous random effect model meta-analysis (PROSPERO-CRD42019128122) was used to calculate mean differences in EPCs (between baseline and post-exercise values or between an experimental and control group). A total of 1460 participants (36 studies) were identified. Data are presented as standard mean difference (Std.MD) and 95% confidence interval (95% CI). Aerobic training stimulates the mobilization of EPCs and increases VEGF in patients with CVD (EPCs: Std.MD: 1.23, 95% CI: 0.70-1.76; VEGF: Std.MD: 0.76, 95% CI:0.16-1.35) and healthy individuals (EPCs: Std.MD: 1.11, 95% CI:0.53-1.69; VEGF: Std.MD: 0.75, 95% CI: 0.01-1.48). Acute aerobic exercise (Std.MD: 1.40, 95% CI: 1.00-1.80) and resistance exercise (Std.MD: 0.46, 95%CI: 0.10-0.82) enhance EPC numbers in healthy individuals. Combined aerobic and resistance training increases EPC mobilization (Std.MD:1.84, 95% CI: 1.03-2.64) in patients with CVD. Adequate exercise volume (>60%VO_2max >30 min; P = 0.00001) yields desirable results. Our meta-analysis supports the findings of the literature. Exercise volume is required to obtain clinically significant results. Continuous exercise training of high-to-moderate intensity with adequate duration as well as combined training with aerobic and resistance exercise stimulates EPC mobilization and increases VEGF in patients with CVD and healthy individuals.

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European Heart Journal Open

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