Aerobic training and vascular protection: Insight from altered blood flow patterns

Aerobic training and vascular protection: Insight from altered blood flow patterns

New Finding What is the central question of this study? This study sought to determine whether prior upper limb aerobic training can attenuate the vascular dysfunction resulting from negative alteration of blood flow patterns. What is the main finding and its importance? We demonstrated that the mic...

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Published in:Experimental physiology Vol. 104; no. 9; pp. 1420 - 1431
Main Authors: Garten, Ryan S., Darling, Ashley, Weggen, Jennifer, Decker, Kevin, Hogwood, Austin C., Michael, Austin, Imthurn, Brandon, Mcintyre, Andrew
Format: Journal Article
Language:English
Published: England John Wiley & Sons, Inc 01-09-2019
Subjects:
Adaptation
Aerobic capacity
aerobic training
Aerobics
Blood flow
flow‐mediated dilatation
Forearm
Hyperemia
Microvasculature
shear stress
vascular function
Veins & arteries
vascular function
aerobic training
shear stress
flow-mediated dilatation
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Summary:New Finding What is the central question of this study? This study sought to determine whether prior upper limb aerobic training can attenuate the vascular dysfunction resulting from negative alteration of blood flow patterns. What is the main finding and its importance? We demonstrated that the microvasculature of young men with prior upper limb aerobic training (rowing) was equally susceptible to negatively altered blood flow patterns when compared with untrained control subjects. This finding reveals that aerobic training does not provide adequate protection against this type of vascular insult, highlighting the importance of reducing known vascular insults regardless of training status. Acute alteration of blood flow patterns can substantially reduce blood vessel function and, if consistently repeated, may chronically reduce vascular health. Aerobic exercise training is associated with improved vascular health, but it is not well understood whether aerobic training‐induced vascular adaptations provide protection against acute vascular insults. This study sought to determine whether prior upper limb aerobic training can attenuate the vascular dysfunction resulting from an acute vascular insult (increased retrograde/oscillatory shear). Ten young arm‐trained (AT) men (rowers; 22 ± 1 years of age) and 10 untrained (UT) male control subjects (21 ± 3 years of age) were recruited for this study. Subjects completed two brachial artery (BA) flow‐mediated dilatation (FMD) tests separated by an acute bout of subdiastolic cuff inflation (SDCI) of the distal forearm. Brachial artery dilatation (normalized for the shear stimulus) and reactive hyperaemia evaluated during the BA FMD test were used to determine conduit artery and microvascular function, respectively. Data were presented as mean values ± SD. The AT group reported significantly greater whole body (peak oxygen uptake; P = 0.01) and forearm aerobic capacity (P < 0.001). The SDCI intervention significantly increased retrograde (P < 0.001) and oscillatory shear (P < 0.001) in both groups. After the SDCI, microvascular function (post‐cuff release hyperaemia), but not conduit artery function (shear‐induced BA dilatation), was significantly reduced from pre‐SDCI values (P = 0.001) independent of group. This study revealed that young men with prior upper limb aerobic training, when compared with untrained control subjects, were equally susceptible to the microvascular dysfunction associated with an acute increase in retrograde/oscillatory shear.
Bibliography:Edited by: Damian Bailey
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Linked articles
https://doi.org/10.1113/EP087868
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ISSN:0958-0670
1469-445X
DOI:10.1113/EP087576