Blood flow during passive leg movement: impact of vascular disease and nitrate supplements

Meegan A Walker

doi:10.25907/00233

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Blood flow during passive leg movement: impact of vascular disease and nitrate supplements

Dissertation

Open access

Blood flow during passive leg movement: impact of vascular disease and nitrate supplements

Meegan A Walker

University of the Sunshine Coast, Queensland

Doctor of Philosophy, University of the Sunshine Coast

2019

DOI:

https://doi.org/10.25907/00233

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Abstract

peripheral arterial disease

vasoactive enzymes

nitric oxide

oxidative stress

inorganic nitrate

beetroot juice

endothelial function

arterial stiffness

cardiovascular risk

Blood flow is regulated by finely tuned vessel dilation and constriction, which is primarily influenced by vasoactive moderators released from the endothelial cells (Hellsten, Nyberg, Jensen, & Mortensen, 2012). Endothelial function is intricately linked to the bioavailability of nitric oxide (NO) (Green, Dawson, Groenewoud, Jones, & Thijssen, 2014), which, in turn, is determined by the balance between NO production (from endothelial nitric oxide synthase and nitrite) and NO consumption (by metabolic reactions and inactivation by reactive oxygen species) (Bredt, 1999b; Lundberg & Weitzberg, 2005; Selemidis, 2008). Nitric oxide has a short half-life, a few milliseconds when in close proximity to other bioreactants (Thomas, Liu, Kantrow, & Lancaster, 2001), making it difficult to measure. Two techniques to assess NO-dependent endothelial function are passive leg movement hyperaemia and flow mediated dilatation (FMD) (Gifford & Richardson, 2017; Thijssen, Black, et al., 2011). Passive leg movement hyperaemia is a novel technique, where the blood flow response appears to be highly dependent on NO bioavailability (Mortensen, Askew, Walker, Nyberg, & Hellsten, 2012; Trinity et al., 2012). In peripheral arterial disease (PAD), conduit vessel blood flow may be limited by atherosclerotic lesions, but there is evidence that endothelial dysfunction also contributes to poor muscle blood flow (Boger & BodeBoger, 1997), and this suggests that NO bioavailability is low. The passive leg movement technique may help characterise blood flow impairment in PAD, providing insight to the underlying pathophysiology.

Details

Title: Blood flow during passive leg movement: impact of vascular disease and nitrate supplements
Authors: Meegan A Walker
Contributors: Christopher D Askew (Supervisor)
Awarding institution: University of the Sunshine Coast
Degree awarded: Doctor of Philosophy
Publisher: University of the Sunshine Coast, Queensland
DOI: 10.25907/00233
Organisation Unit: University of the Sunshine Coast, Queensland; School of Health and Sport Sciences - Legacy; School of Health - Sports & Exercise Science; School of Health and Behavioural Sciences - Legacy
Language: English
Record Identifier: 99450900002621
Output Type: Dissertation
Research Statement: false

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