Does circumferential stress help to explain flow-mediated dilation?
Does circumferential stress help to explain flow-mediated dilation?
INTRODUCTION:
Despite its potential, the validity of the flow-mediated dilation (FMD) test has been questioned because of lack of normalization to the vasodilatory stimulus. The hemodynamic conditions inside blood vessels lead to the development of superficial stress near the vessel walls, which can be divided into 2 categories: (1) circumferential stress (CS) and (2) shear stress (SS). Although SS is thought to be the primary governing stimulus, to the best of our knowledge, the degree to which CS contributes to FMD has not been reported in the literature.
PURPOSE:
The purpose of this study was to determine the importance of CS to FMD. We defined FMD as the SS-diameter dose-response slope.
METHODS:
Fourteen physically active, young [mean (SD) age, 26 (5) years], male subjects were tested. Progressive forearm heating and handgrip exercise elicited steady-state increases in shear rate. Hierarchical linear modeling was used to estimate change in diameter with repeated measures of SS and CS nested within each subject.
RESULTS:
Circumferential stress was found to positively promote FMD in addition to SS (? = 0.019, P = 0.019). However, the variance explained by CS was less than 1%.
CONCLUSIONS:
The physiologic significance of CS to FMD was minimal. However, physically active, young men were recruited; it remains to be determined whether CS has a more pronounced effect in subjects exhibiting cardiovascular risk factors.
103-110
Stoner, Lee
0f9dd581-205f-490d-8879-7ba7cfa51450
Faulkner, James
1bedc0f0-8fa4-4bf3-8e31-abd084b0c148
Fryer, Simon
c9e79f9f-d16b-44a9-926d-5e74f0af8934
Lambrick, Danielle M.
1deafa4b-acf3-4eff-83c9-f8274e47e993
June 2013
Stoner, Lee
0f9dd581-205f-490d-8879-7ba7cfa51450
Faulkner, James
1bedc0f0-8fa4-4bf3-8e31-abd084b0c148
Fryer, Simon
c9e79f9f-d16b-44a9-926d-5e74f0af8934
Lambrick, Danielle M.
1deafa4b-acf3-4eff-83c9-f8274e47e993
Stoner, Lee, Faulkner, James, Fryer, Simon and Lambrick, Danielle M.
(2013)
Does circumferential stress help to explain flow-mediated dilation?
Ultrasound Quarterly, 29 (2), .
(doi:10.1097/RUQ.0b013e3182851acc).
(PMID:23594885)
Abstract
INTRODUCTION:
Despite its potential, the validity of the flow-mediated dilation (FMD) test has been questioned because of lack of normalization to the vasodilatory stimulus. The hemodynamic conditions inside blood vessels lead to the development of superficial stress near the vessel walls, which can be divided into 2 categories: (1) circumferential stress (CS) and (2) shear stress (SS). Although SS is thought to be the primary governing stimulus, to the best of our knowledge, the degree to which CS contributes to FMD has not been reported in the literature.
PURPOSE:
The purpose of this study was to determine the importance of CS to FMD. We defined FMD as the SS-diameter dose-response slope.
METHODS:
Fourteen physically active, young [mean (SD) age, 26 (5) years], male subjects were tested. Progressive forearm heating and handgrip exercise elicited steady-state increases in shear rate. Hierarchical linear modeling was used to estimate change in diameter with repeated measures of SS and CS nested within each subject.
RESULTS:
Circumferential stress was found to positively promote FMD in addition to SS (? = 0.019, P = 0.019). However, the variance explained by CS was less than 1%.
CONCLUSIONS:
The physiologic significance of CS to FMD was minimal. However, physically active, young men were recruited; it remains to be determined whether CS has a more pronounced effect in subjects exhibiting cardiovascular risk factors.
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Published date: June 2013
Organisations:
Faculty of Health Sciences
Identifiers
Local EPrints ID: 382288
URI: http://eprints.soton.ac.uk/id/eprint/382288
ISSN: 0894-8771
PURE UUID: 23580b53-b309-43ba-9593-f3565c01714f
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Date deposited: 01 Oct 2015 13:40
Last modified: 15 Mar 2024 03:51
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Author:
Lee Stoner
Author:
James Faulkner
Author:
Simon Fryer
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