Comparing the Respiratory Compensation Point With Muscle Oxygen Saturation in Locomotor and Non-locomotor Muscles Using Wearable NIRS Spectroscopy During Whole-Body Exercise
Assaf Yogev, Jem Arnold, Dave Clarke, Jordan A. Guenette, Ben C. Sporer, Michael S. Koehle
Abstract
The relationship between the muscle deoxygenation breakpoint (Deoxy-BP) measured with near-infrared spectroscopy (NIRS), and the respiratory compensation point (RCP) has been well established. This relationship has also been reported using wearable NIRS, however not in locomotor and non-locomotor muscles simultaneously during whole-body cycling exercise. Our aim was to measure muscle oxygen saturation (SmO 2 ) using wearable NIRS sensors, and to compare the Deoxy-BPs at each muscle with RCP during a ramp cycling exercise test. Twenty-two trained female and male cyclists completed a ramp exercise test to task intolerance on a cycling ergometer, at a ramp rate of 1 W every 2 s (30 W/min). SmO 2 was recorded at the subjects’ right vastus lateralis (VL) and right lateral deltoid. SmO 2 and the Deoxy-BPs were assessed using a piecewise double-linear regression model. Ventilation (V̇ E ) and gas exchange were recorded, and RCP was determined from V̇ E and gas exchange using a V-slope method and confirmed by two physiologists. The SmO 2 profiles of both muscles and gas exchange responses are reported as V̇O 2 , power output (W), and time of occurrence (TO). SmO 2 profiles at both muscles displayed a near-plateau or breakpoint response near the RCP. No differences were detected between the mean RCP and mean Deoxy-BP from either the locomotor or non-locomotor muscles; however, a high degree of individual variability was observed in the timing and order of occurrence of the specific breakpoints. These findings add insight into the relationships between ventilatory, locomotor, and non-locomotor muscle physiological breakpoints. While identifying a similar relationship between these breakpoints, individual variability was high; hence, caution is advised when using wearable NIRS to estimate RCP in an incremental ramp test.