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The effect of tyramine infusion and exercise on blood flow, coagulation and clot microstructure in healthy individuals / Matthew Lawrence; Gareth Davies; Michael Nyberg; Janet Whitley; Vanessa Evans; Rhodri Williams; Ylva Hellsten; Phillip A. Evans; Adrian Evans

Thrombosis Research, Volume: 170, Pages: 32 - 37

Swansea University Authors: Matthew, Lawrence, Rhodri, Williams, Adrian, Evans

Abstract

BackgroundThe long term benefits of exercise on the cardiovascular status of a patient have been proven, however, their benefit/risk relationship with exercise intensity is unclear. Furthermore, many thromboembolic diseases such as myocardial infarction and ischaemic stroke are associated with profo...

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Published in: Thrombosis Research
ISSN: 0049-3848
Published: 2018
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa43363
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Abstract: BackgroundThe long term benefits of exercise on the cardiovascular status of a patient have been proven, however, their benefit/risk relationship with exercise intensity is unclear. Furthermore, many thromboembolic diseases such as myocardial infarction and ischaemic stroke are associated with profound catecholamine release. In this study we explore the relationship between catecholamine release and hemodynamic changes and their effect on coagulation.Materials and methodsTwelve healthy recreationally active males were recruited. Local anesthesia was given and catheters were placed under aseptic conditions, in the femoral artery and vein of the experimental leg. The first experiment involved tyramine infusion into the femoral artery at a dose of 1.0 μmol·min−1·L leg volume−1. The second experiment involved single leg knee-extensor exercise performed at 30 W for 15 min. Venous blood was collected at each time point to assess clot microstructure using the df biomarker.Results and conclusionsTyramine infusion causes a local noradrenaline release in the leg. The increase in noradrenaline was associated with a significant increase in clot microstructure formation (df increased from 1.692 ± 0.029 to 1.722 ± 0.047, p = 0.016). Additionally moderate intensity single leg knee extensor exercise, which minimally alters sympathetic activity, also induced an increases in df (from 1.688 ± 0.025 to 1.723 ± 0.023, p = 0.001). This suggests that exercise can alter clot microstructure formation both via an increase in catecholeamine levels and by factors related to muscle activity per se, such as increased blood flow and consequent shear. These findings have implications for recommendations of exercise in patients at risk of cardiovascular events.
Keywords: Catecholamine, Clot microstructure, Coagulation, Exercise
College: College of Engineering
Start Page: 32
End Page: 37