The impact of physical activity and intensity on clot mechanical microstructure and contraction in middle-aged/older habitual runners.

IF 2.2 3区医学 Q3 CLINICAL NEUROLOGY BMC Neurology Pub Date : 2025-03-01 DOI:10.1186/s12883-025-04074-y

J C Zaldua, O Watson, D J Gregoire, S Pillai, Y Hellsten, K Hawkins, P A Evans

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Abstract

Background: Exercise in healthy individuals is associated with a hypercoagulable phase, leading to a temporary increase in clot mass and strength, which are controlled by an effective fibrinolytic system. Conversely, people with cardiovascular diseases often have a reduced fibrinolytic pathway, increased clot mass and abnormal clot contraction, resulting in poorer outcomes. We assessed clot microstructure, particularly the contractile forces of clot formation, in response to two exercise intensities in middle-aged/older runners.

Methods: Twenty-eight habitual male and female runners aged over 40 years completed a 10 km moderate-intensity run; 14 of them performed a 3 km high-intensity run. Blood samples were collected at baseline, immediately postexercise and after 1 h of rest. Clot structural biomarkers d_f, gel time, and measurements of mature clot mechanical properties (gel time, G'_Max and CF_max) were analysed alongside conventional plasma markers.

Results: Both exercise intensities altered markers of coagulant activity (PT, APTT and FVIII) and fibrinolysis (D-dimer), indicating hypercoagulability. Compared with longer-duration lower-intensity exercise, d_f was greater after short-duration intensified exercise bouts. Following an hour of rest, d_f dropped to baseline levels. Additionally, CF_max decreased across timepoints at both exercise intensities. This effect was noted after one hour of rest compared with baseline, suggesting continuous fibrinolytic activity postexercise.

Conclusion: Exercise transiently induces an intensity-dependent hypercoagulable state, resulting in denser clot formation and a reduced clot contractile force due to fibrinolysis. These findings can help guide the safe commencement of rehabilitation exercise programs for cerebrovascular patients.

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背景：健康人在运动时会出现高凝阶段，导致血块质量和强度暂时增加，而这是由有效的纤溶系统控制的。相反，心血管疾病患者通常会出现纤溶途径减少、血块质量增加和血块收缩异常的情况，从而导致较差的预后。我们评估了中老年跑步者在两种运动强度下的血凝块微观结构，尤其是血凝块形成的收缩力：方法：28 名 40 岁以上的习惯性男女跑步者完成了 10 公里中等强度跑步，其中 14 人完成了 3 公里高强度跑步。在基线、运动后立即和休息 1 小时后采集血液样本。除了传统的血浆标志物外，还分析了凝块结构生物标志物df、凝胶时间和成熟凝块机械性能测量值（凝胶时间、G'Max和CFmax）：结果：两种运动强度都会改变凝血活性指标（PT、APTT 和 FVIII）和纤溶指标（D-二聚体），表明凝血功能亢进。与持续时间较长、强度较低的运动相比，短时间强化运动后的 df 更大。休息一小时后，df降至基线水平。此外，在两种运动强度下，CFmax 在不同时间点都有所下降。与基线水平相比，休息一小时后也会出现这种效应，这表明运动后纤维蛋白溶解活动仍在继续：结论：运动会短暂诱发强度依赖性高凝状态，导致血凝块形成更加致密，纤维蛋白溶解导致血凝块收缩力降低。这些发现有助于指导脑血管病人安全地开始康复锻炼计划。

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

BMC Neurology 医学-临床神经学

CiteScore

4.20

自引率

0.00%

发文量

428

审稿时长

3-8 weeks

期刊介绍： BMC Neurology is an open access, peer-reviewed journal that considers articles on all aspects of the prevention, diagnosis and management of neurological disorders, as well as related molecular genetics, pathophysiology, and epidemiology.