Muscular Adaptations to Whole Body Blood Flow Restriction Training and Detraining

Muscular Adaptations to Whole Body Blood Flow Restriction Training and Detraining

Resistance training with blood flow restriction is typically performed during single exercises for the lower- or upper-body, which may not replicate real world programming. The present study examined the change in muscle strength and mass in a young healthy population during an 8-week whole body res...

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Bibliographic Details
Main Authors: Christopher R. Brandner, Matthew J. Clarkson, Dawson J. Kidgell, Stuart A. Warmington
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-09-01
Series:Frontiers in Physiology
Subjects:
strength training
hypertrophy
vascular occlusion
rehabilitation
BFR
resistance exercise
Online Access:https://www.frontiersin.org/article/10.3389/fphys.2019.01099/full
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spelling doaj-f251956ece2c4e8faea5772f78584ffa2020-11-25T01:59:06ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2019-09-011010.3389/fphys.2019.01099446156Muscular Adaptations to Whole Body Blood Flow Restriction Training and DetrainingChristopher R. Brandner0Matthew J. Clarkson1Dawson J. Kidgell2Stuart A. Warmington3Sport Science Department, Aspire Academy for Sports Excellence, Doha, QatarSchool of Exercise and Nutrition Sciences, Institute for Physical Activity and Nutrition, Deakin University, Burwood, VIC, AustraliaDepartment of Physiotherapy, School of Primary and Allied Health Care, Monash University, Melbourne, VIC, AustraliaSchool of Exercise and Nutrition Sciences, Institute for Physical Activity and Nutrition, Deakin University, Burwood, VIC, AustraliaResistance training with blood flow restriction is typically performed during single exercises for the lower- or upper-body, which may not replicate real world programming. The present study examined the change in muscle strength and mass in a young healthy population during an 8-week whole body resistance training program, as well as monitoring these adaptations following a 4-week detraining period. Thirty-nine participants (27 males, 12 females) were allocated into four groups: blood flow restriction training (BFR-T); moderate-heavy load training (HL-T), light-load training (LL-T) or a non-exercise control (CON). Testing measurements were taken at Baseline, during mid-point of training (week 4), end of training (week 8) and following four weeks of detraining (week 12) and included anthropometrics, body composition, muscle thickness (MTH) at seven sites, and maximal dynamic strength (1RM) for six resistance exercises. Whole body resistance training with BFR significantly improved lower- and upper-body strength (overall; 11% increase in total tonnage), however, this was similar to LL-T (12%), but both groups were lower in comparison with HL-T (21%) and all groups greater than CON. Some markers of body composition (e.g., lean mass) and MTH significantly increased over the course of the 8-week training period, but these were similar across all groups. Following detraining, whole body strength remained significantly elevated for both BFR-T (6%) and HL-T (14%), but only the HL-T group remained higher than all other groups. Overall, whole body resistance training with blood flow restriction was shown to be an effective training mode to increase muscular strength and mass. However, traditional moderate-heavy load resistance training resulted in greater adaptations in muscle strength and mass as well as higher levels of strength maintenance following detraining.https://www.frontiersin.org/article/10.3389/fphys.2019.01099/fullstrength traininghypertrophyvascular occlusionrehabilitationBFRresistance exercise
collection DOAJ
language English
format Article
sources DOAJ
author Christopher R. Brandner
Matthew J. Clarkson
Dawson J. Kidgell
Stuart A. Warmington
spellingShingle Christopher R. Brandner
Matthew J. Clarkson
Dawson J. Kidgell
Stuart A. Warmington
Muscular Adaptations to Whole Body Blood Flow Restriction Training and Detraining
Frontiers in Physiology
strength training
hypertrophy
vascular occlusion
rehabilitation
BFR
resistance exercise
author_facet Christopher R. Brandner
Matthew J. Clarkson
Dawson J. Kidgell
Stuart A. Warmington
author_sort Christopher R. Brandner
title Muscular Adaptations to Whole Body Blood Flow Restriction Training and Detraining
title_short Muscular Adaptations to Whole Body Blood Flow Restriction Training and Detraining
title_full Muscular Adaptations to Whole Body Blood Flow Restriction Training and Detraining
title_fullStr Muscular Adaptations to Whole Body Blood Flow Restriction Training and Detraining
title_full_unstemmed Muscular Adaptations to Whole Body Blood Flow Restriction Training and Detraining
title_sort muscular adaptations to whole body blood flow restriction training and detraining
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2019-09-01
description Resistance training with blood flow restriction is typically performed during single exercises for the lower- or upper-body, which may not replicate real world programming. The present study examined the change in muscle strength and mass in a young healthy population during an 8-week whole body resistance training program, as well as monitoring these adaptations following a 4-week detraining period. Thirty-nine participants (27 males, 12 females) were allocated into four groups: blood flow restriction training (BFR-T); moderate-heavy load training (HL-T), light-load training (LL-T) or a non-exercise control (CON). Testing measurements were taken at Baseline, during mid-point of training (week 4), end of training (week 8) and following four weeks of detraining (week 12) and included anthropometrics, body composition, muscle thickness (MTH) at seven sites, and maximal dynamic strength (1RM) for six resistance exercises. Whole body resistance training with BFR significantly improved lower- and upper-body strength (overall; 11% increase in total tonnage), however, this was similar to LL-T (12%), but both groups were lower in comparison with HL-T (21%) and all groups greater than CON. Some markers of body composition (e.g., lean mass) and MTH significantly increased over the course of the 8-week training period, but these were similar across all groups. Following detraining, whole body strength remained significantly elevated for both BFR-T (6%) and HL-T (14%), but only the HL-T group remained higher than all other groups. Overall, whole body resistance training with blood flow restriction was shown to be an effective training mode to increase muscular strength and mass. However, traditional moderate-heavy load resistance training resulted in greater adaptations in muscle strength and mass as well as higher levels of strength maintenance following detraining.
topic strength training
hypertrophy
vascular occlusion
rehabilitation
BFR
resistance exercise
url https://www.frontiersin.org/article/10.3389/fphys.2019.01099/full
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AT stuartawarmington muscularadaptationstowholebodybloodflowrestrictiontraininganddetraining
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