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Effects of respiratory muscle work on respiratory and locomotor blood flow during exercise
Author(s) -
Dominelli Paolo B.,
Archiza Bruno,
Ramsook Andrew H.,
Mitchell Reid A.,
Peters Carli M.,
MolgatSeon Yannick,
Henderson William R.,
Koehle Michael S.,
Boushel Robert,
Sheel A. William
Publication year - 2017
Publication title -
experimental physiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.925
H-Index - 101
eISSN - 1469-445X
pISSN - 0958-0670
DOI - 10.1113/ep086566
Subject(s) - respiratory system , blood flow , work of breathing , medicine , ventilation (architecture) , anesthesia , respiratory physiology , cardiology , mechanical engineering , engineering
New FindingsWhat is the central question of this study? Does manipulation of the work of breathing during high‐intensity exercise alter respiratory and locomotor muscle blood flow?What is the main finding and its importance? We found that when the work of breathing was reduced during exercise, respiratory muscle blood flow decreased, while locomotor muscle blood flow increased. Conversely, when the work of breathing was increased, respiratory muscle blood flow increased, while locomotor muscle blood flow decreased. Our findings support the theory of a competitive relationship between locomotor and respiratory muscles during intense exercise.Manipulation of the work of breathing (WOB) during near‐maximal exercise influences leg blood flow, but the effects on respiratory muscle blood flow are equivocal. We sought to assess leg and respiratory muscle blood flow simultaneously during intense exercise while manipulating WOB. Our hypotheses were as follows: (i) increasing the WOB would increase respiratory muscle blood flow and decrease leg blood flow; and (ii) decreasing the WOB would decrease respiratory muscle blood flow and increase leg blood flow. Eight healthy subjects ( n = 5 men, n = 3 women) performed a maximal cycle test (day 1) and a series of constant‐load exercise trials at 90% of peak work rate (day 2). On day 2, WOB was assessed with oesophageal balloon catheters and was increased (via resistors), decreased (via proportional assist ventilation) or unchanged (control) during the trials. Blood flow was assessed using near‐infrared spectroscopy optodes placed over quadriceps and the sternocleidomastoid muscles, coupled with a venous Indocyanine Green dye injection. Changes in WOB were significantly and positively related to changes in respiratory muscle blood flow ( r = 0.73), whereby increasing the WOB increased blood flow. Conversely, changes in WOB were significantly and inversely related to changes in locomotor blood flow ( r = 0.57), whereby decreasing the WOB increased locomotor blood flow. Oxygen uptake was not different during the control and resistor trials (3.8 ± 0.9 versus 3.7 ± 0.8 l min −1 , P > 0.05), but was lower on the proportional assist ventilator trial (3.4 ± 0.7 l min −1 , P < 0.05) compared with control. Our findings support the concept that respiratory muscle work significantly influences the distribution of blood flow to both respiratory and locomotor muscles.