Blood Flow Restriction Training: To Adjust or Not Adjust the Cuff Pressure Over an Intervention Period?

Blood Flow Restriction Training: To Adjust or Not Adjust the Cuff Pressure Over an Intervention Period?

Blood flow restriction (BFR) training combines exercise and partial reduction of muscular blood flow using a pressured cuff. BFR training has been used to increase strength and muscle mass in healthy and clinical populations. A major methodological concern of BFR training is blood flow restriction p...

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Published in:Frontiers in physiology Vol. 12; p. 678407
Main Authors: Cerqueira, Mikhail Santos, Costa, Eduardo Caldas, Santos Oliveira, Ricardo, Pereira, Rafael, Brito Vieira, Wouber Hérickson
Format: Journal Article
Language:English
Published: Frontiers Media S.A 28-06-2021
Subjects:
discomfort
kaatsu training
pain
perceived
Physiology
resistance training
vascular occlusion exercise
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Summary:Blood flow restriction (BFR) training combines exercise and partial reduction of muscular blood flow using a pressured cuff. BFR training has been used to increase strength and muscle mass in healthy and clinical populations. A major methodological concern of BFR training is blood flow restriction pressure (BFRP) delivered during an exercise bout. Although some studies increase BFRP throughout a training intervention, it is unclear whether BFRP adjustments are pivotal to maintain an adequate BFR during a training period. While neuromuscular adaptations induced by BFR are widely studied, cardiovascular changes throughout training intervention with BFR and their possible relationship with BFRP are less understood. This study aimed to discuss the need for BFRP adjustment based on cardiovascular outcomes and provide directions for future researches. We conducted a literature review and analyzed 29 studies investigating cardiovascular adaptations following BFR training. Participants in the studies were healthy, middle-aged adults, older adults and clinical patients. Cuff pressure, when adjusted, was increased during the training period. However, cardiovascular outcomes did not provide a plausible rationale for cuff pressure increase. In contrast, avoiding increments in cuff pressure may minimize discomfort, pain and risks associated with BFR interventions, particularly in clinical populations. Given that cardiovascular adaptations induced by BFR training are conflicting, it is challenging to indicate whether increases or decreases in BFRP are needed. Based on the available evidence, we suggest that future studies investigate if maintaining or decreasing cuff pressure makes BFR training safer and/or more comfortable with similar physiological adaptation.
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This article was submitted to Exercise Physiology, a section of the journal Frontiers in Physiology
Reviewed by: Jonato Prestes, Catholic University of Brasilia (UCB), Brazil; Gilberto Candido Laurentino, University of São Paulo, Brazil
Edited by: Adam Zajac, University School of Physical Education in Wrocław, Poland
ISSN:1664-042X
1664-042X
DOI:10.3389/fphys.2021.678407