Oxygen transport and utilisation during exercise in cystic fibrosis: contributors to exercise intolerance
Oxygen transport and utilisation during exercise in cystic fibrosis: contributors to exercise intolerance
Cystic fibrosis (CF) is a complex condition, commonly associated with exercise limitation. The mechanisms responsible for this in CF are of interest, given that lower aerobic fitness is associated with an increased risk of being hospitalised with pulmonary exacerbation, a poorer quality of life and prognosis. Pathophysiological changes in lung function are considered central to CF, and may contribute to exercise limitation. However, it is now clear that the pathogenesis of exercise limitation in this population is multifactorial, with alterations in cardiovascular, muscle and pulmonary function contributing. Whilst some of these changes are attributable to respiratory disease per se, the CF transmembrane conductance regulator protein is also found in skeletal muscle and the vascular endothelium and can directly alter central and localised oxygen delivery, as well as the ability to effectively extract and utilise oxygen at the myocyte level. Since intense exercise poses considerable challenges to arterial oxygen content and/or blood flow and its supply to the working skeletal muscle, evaluating the exercise physiology of people with CF has helped us understand the mechanisms underlying exercise intolerance. Through several investigations over recent years, we have collectively demonstrated that people with CF exhibit reduced skeletal muscle oxygen extraction and utilisation during exercise, with a lesser contribution from haemodynamic or chronotropic mechanisms. Taken together, our findings highlight the importance of targeting mechanisms of skeletal muscle oxygen utilisation in CF to improve exercise tolerance and we offer potential therapeutic interventional strategies.
cystic fibrosis, exercise intolerance, haemodynamics, 02 delivery, 02 utilisation
1979-1983
Saynor, Zoe L.
a4357c7d-db59-4fa5-b24f-58d2f7e74e39
Gruet, Mathieu
a09718f2-2740-48dd-bf6a-ab16ad65be0d
Rodriguez‐Miguelez, Paula
994db6c2-cfac-4e72-8340-554d5c58693c
Harris, Ryan A.
8e1f446c-20d0-454f-9810-ed77c055a7ad
11 November 2020
Saynor, Zoe L.
a4357c7d-db59-4fa5-b24f-58d2f7e74e39
Gruet, Mathieu
a09718f2-2740-48dd-bf6a-ab16ad65be0d
Rodriguez‐Miguelez, Paula
994db6c2-cfac-4e72-8340-554d5c58693c
Harris, Ryan A.
8e1f446c-20d0-454f-9810-ed77c055a7ad
Saynor, Zoe L., Gruet, Mathieu, Rodriguez‐Miguelez, Paula and Harris, Ryan A.
(2020)
Oxygen transport and utilisation during exercise in cystic fibrosis: contributors to exercise intolerance.
Experimental Physiology, 105 (12), .
(doi:10.1113/EP088106).
Abstract
Cystic fibrosis (CF) is a complex condition, commonly associated with exercise limitation. The mechanisms responsible for this in CF are of interest, given that lower aerobic fitness is associated with an increased risk of being hospitalised with pulmonary exacerbation, a poorer quality of life and prognosis. Pathophysiological changes in lung function are considered central to CF, and may contribute to exercise limitation. However, it is now clear that the pathogenesis of exercise limitation in this population is multifactorial, with alterations in cardiovascular, muscle and pulmonary function contributing. Whilst some of these changes are attributable to respiratory disease per se, the CF transmembrane conductance regulator protein is also found in skeletal muscle and the vascular endothelium and can directly alter central and localised oxygen delivery, as well as the ability to effectively extract and utilise oxygen at the myocyte level. Since intense exercise poses considerable challenges to arterial oxygen content and/or blood flow and its supply to the working skeletal muscle, evaluating the exercise physiology of people with CF has helped us understand the mechanisms underlying exercise intolerance. Through several investigations over recent years, we have collectively demonstrated that people with CF exhibit reduced skeletal muscle oxygen extraction and utilisation during exercise, with a lesser contribution from haemodynamic or chronotropic mechanisms. Taken together, our findings highlight the importance of targeting mechanisms of skeletal muscle oxygen utilisation in CF to improve exercise tolerance and we offer potential therapeutic interventional strategies.
Text
Accepted_CF_on-kinetics_manuscript
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More information
Accepted/In Press date: 21 October 2020
e-pub ahead of print date: 29 October 2020
Published date: 11 November 2020
Keywords:
cystic fibrosis, exercise intolerance, haemodynamics, 02 delivery, 02 utilisation
Identifiers
Local EPrints ID: 493701
URI: http://eprints.soton.ac.uk/id/eprint/493701
ISSN: 0958-0670
PURE UUID: 2f7efad4-8b69-45cc-bcef-1eaa7055bd8b
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Date deposited: 11 Sep 2024 16:37
Last modified: 13 Sep 2024 02:12
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Contributors
Author:
Zoe L. Saynor
Author:
Mathieu Gruet
Author:
Paula Rodriguez‐Miguelez
Author:
Ryan A. Harris
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