Hypoxia is not the primary mechanism contributing to exercise-induced proteinuria

Hypoxia is not the primary mechanism contributing to exercise-induced proteinuria

IntroductionProteinuria increases at altitude and with exercise, potentially as a result of hypoxia. Using urinary alpha-1 acid glycoprotein (α1-AGP) levels as a sensitive marker of proteinuria, we examined the impact of relative hypoxia due to high altitude and blood pressure-lowering medication on...

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Main Authors: Carla Rue, John Delamere, Owen D Thomas, Brian Johnson, Kelsley E Joyce, Susie Bradwell, Stephen David Myers, Kimberly Ashdown, Samuel JE Lucas, Amy Fountain, Mark Edsell, Fiona Myers, Will Malein, Chris Imray, Alex Clarke, Chrisopher T Lewis, Charles Newman, Patrick Cadigan, Alexander Wright, Arthur Bradwell
Format: Article
Language:English
Published: BMJ Publishing Group 2020-04-01
Series:BMJ Open Sport & Exercise Medicine
Online Access:https://bmjopensem.bmj.com/content/6/1/e000662.full
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spelling doaj-6edbf9b66b4a49c69178dd8634aeeba72021-07-29T14:00:38ZengBMJ Publishing GroupBMJ Open Sport & Exercise Medicine2055-76472020-04-016110.1136/bmjsem-2019-000662Hypoxia is not the primary mechanism contributing to exercise-induced proteinuriaCarla Rue0John Delamere1Owen D Thomas2Brian Johnson3Kelsley E Joyce4Susie Bradwell5Stephen David Myers6Kimberly Ashdown7Samuel JE Lucas8Amy Fountain9Mark Edsell10Fiona Myers11Will Malein12Chris Imray13Alex Clarke14Chrisopher T Lewis15Charles Newman16Patrick Cadigan17Alexander Wright18Arthur Bradwell192 Department of Sport and Exercise Sciences, University of Chichester, Chichester, UK School of Medicine, University of Birmingham, Birmingham, UKDepartment of Anaesthesia, Royal Gwent Hospital, Aneurin Bevan University Health Board, Newport, UKBirmingham Medical Research Expeditionary Society, Birmingham, UKSchool of Sport, Exercise, and Rehabilitation Sciences, University of Birmingham, Birmingham, UKBirmingham Medical Research Expeditionary Society, University of Birmingham, Birmingham, UKBirmingham Medical Research Expeditionary Society, University of Birmingham, Birmingham, UKBirmingham Medical Research Expeditionary Society, University of Birmingham, Birmingham, UKSchool of Sport, Exercise, and Rehabilitation Sciences, University of Birmingham, Birmingham, UKResearch & Development, Binding Site Group Ltd, Edgbaston, Birmingham, UKDepartment of Anaesthesia, St George's University Hospitals NHS Foundation Trust, London, UKSchool of Biological Sciences, University of Portsmouth, Portsmouth, UKBirmingham Medical Research Expeditionary Society, University of Birmingham, Birmingham, UKBirmingham Medical Research Expeditionary Society, University of Birmingham, Birmingham, UKBirmingham Medical Research Expeditionary Society, University of Birmingham, Birmingham, UKBirmingham Medical Research Expeditionary Society, University of Birmingham, Birmingham, UKRoyal Centre for Defence Medicine, Queen Elizabeth Hospital Birmingham, Birmingham, UKBirmingham Medical Research Expeditionary Society, Birmingham, UKBirmingham Medical Research Expeditionary Society, University of Birmingham, Birmingham, UKBirmingham Medical Research Expeditionary Society, University of Birmingham, Birmingham, UKIntroductionProteinuria increases at altitude and with exercise, potentially as a result of hypoxia. Using urinary alpha-1 acid glycoprotein (α1-AGP) levels as a sensitive marker of proteinuria, we examined the impact of relative hypoxia due to high altitude and blood pressure-lowering medication on post-exercise proteinuria.MethodsTwenty individuals were pair-matched for sex, age and ACE genotype. They completed maximal exercise tests once at sea level and twice at altitude (5035 m). Losartan (100 mg/day; angiotensin-receptor blocker) and placebo were randomly assigned within each pair 21 days before ascent. The first altitude exercise test was completed within 24–48 hours of arrival (each pair within ~1 hour). Acetazolamide (125 mg two times per day) was administrated immediately after this test for 48 hours until the second altitude exercise test.ResultsWith placebo, post-exercise α1-AGP levels were similar at sea level and altitude. Odds ratio (OR) for increased resting α1-AGP at altitude versus sea level was greater without losartan (2.16 times greater). At altitude, OR for reduced post-exercise α1-AGP (58% lower) was higher with losartan than placebo (2.25 times greater, p=0.059) despite similar pulse oximetry (SpO2) (p=0.95) between groups. Acetazolamide reduced post-exercise proteinuria by approximately threefold (9.3±9.7 vs 3.6±6.0 μg/min; p=0.025) although changes were not correlated (r=−0.10) with significant improvements in SpO2 (69.1%±4.5% vs 75.8%±3.8%; p=0.001).DiscussionProfound systemic hypoxia imposed by altitude does not result in greater post-exercise proteinuria than sea level. Losartan and acetazolamide may attenuate post-exercise proteinuria, however further research is warranted.https://bmjopensem.bmj.com/content/6/1/e000662.full
collection DOAJ
language English
format Article
sources DOAJ
author Carla Rue
John Delamere
Owen D Thomas
Brian Johnson
Kelsley E Joyce
Susie Bradwell
Stephen David Myers
Kimberly Ashdown
Samuel JE Lucas
Amy Fountain
Mark Edsell
Fiona Myers
Will Malein
Chris Imray
Alex Clarke
Chrisopher T Lewis
Charles Newman
Patrick Cadigan
Alexander Wright
Arthur Bradwell
spellingShingle Carla Rue
John Delamere
Owen D Thomas
Brian Johnson
Kelsley E Joyce
Susie Bradwell
Stephen David Myers
Kimberly Ashdown
Samuel JE Lucas
Amy Fountain
Mark Edsell
Fiona Myers
Will Malein
Chris Imray
Alex Clarke
Chrisopher T Lewis
Charles Newman
Patrick Cadigan
Alexander Wright
Arthur Bradwell
Hypoxia is not the primary mechanism contributing to exercise-induced proteinuria
BMJ Open Sport & Exercise Medicine
author_facet Carla Rue
John Delamere
Owen D Thomas
Brian Johnson
Kelsley E Joyce
Susie Bradwell
Stephen David Myers
Kimberly Ashdown
Samuel JE Lucas
Amy Fountain
Mark Edsell
Fiona Myers
Will Malein
Chris Imray
Alex Clarke
Chrisopher T Lewis
Charles Newman
Patrick Cadigan
Alexander Wright
Arthur Bradwell
author_sort Carla Rue
title Hypoxia is not the primary mechanism contributing to exercise-induced proteinuria
title_short Hypoxia is not the primary mechanism contributing to exercise-induced proteinuria
title_full Hypoxia is not the primary mechanism contributing to exercise-induced proteinuria
title_fullStr Hypoxia is not the primary mechanism contributing to exercise-induced proteinuria
title_full_unstemmed Hypoxia is not the primary mechanism contributing to exercise-induced proteinuria
title_sort hypoxia is not the primary mechanism contributing to exercise-induced proteinuria
publisher BMJ Publishing Group
series BMJ Open Sport & Exercise Medicine
issn 2055-7647
publishDate 2020-04-01
description IntroductionProteinuria increases at altitude and with exercise, potentially as a result of hypoxia. Using urinary alpha-1 acid glycoprotein (α1-AGP) levels as a sensitive marker of proteinuria, we examined the impact of relative hypoxia due to high altitude and blood pressure-lowering medication on post-exercise proteinuria.MethodsTwenty individuals were pair-matched for sex, age and ACE genotype. They completed maximal exercise tests once at sea level and twice at altitude (5035 m). Losartan (100 mg/day; angiotensin-receptor blocker) and placebo were randomly assigned within each pair 21 days before ascent. The first altitude exercise test was completed within 24–48 hours of arrival (each pair within ~1 hour). Acetazolamide (125 mg two times per day) was administrated immediately after this test for 48 hours until the second altitude exercise test.ResultsWith placebo, post-exercise α1-AGP levels were similar at sea level and altitude. Odds ratio (OR) for increased resting α1-AGP at altitude versus sea level was greater without losartan (2.16 times greater). At altitude, OR for reduced post-exercise α1-AGP (58% lower) was higher with losartan than placebo (2.25 times greater, p=0.059) despite similar pulse oximetry (SpO2) (p=0.95) between groups. Acetazolamide reduced post-exercise proteinuria by approximately threefold (9.3±9.7 vs 3.6±6.0 μg/min; p=0.025) although changes were not correlated (r=−0.10) with significant improvements in SpO2 (69.1%±4.5% vs 75.8%±3.8%; p=0.001).DiscussionProfound systemic hypoxia imposed by altitude does not result in greater post-exercise proteinuria than sea level. Losartan and acetazolamide may attenuate post-exercise proteinuria, however further research is warranted.
url https://bmjopensem.bmj.com/content/6/1/e000662.full
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