Respiratory muscle work compromises leg blood flow during maximal exercise

Abstract

Harms, Craig A., Mark A. Babcock, Steven R. McClaran, David F. Pegelow, Glenn A. Nickele, William B. Nelson, and Jerome A. Dempsey.Respiratory muscle work compromises leg blood flow during maximal exercise. J. Appl. Physiol.82(5): 1573–1583, 1997.—We hypothesized that during exercise at maximal O 2 consumption (V˙o 2 max ), high demand for respiratory muscle blood flow (Q˙) would elicit locomotor muscle vasoconstriction and compromise limb Q˙. Seven male cyclists (V˙o 2 max 64 ± 6 ml ⋅ kg −1 ⋅ min −1 ) each completed 14 exercise bouts of 2.5-min duration atV˙o 2 max on a cycle ergometer during two testing sessions. Inspiratory muscle work was either 1) reduced via a proportional-assist ventilator, 2) increased via graded resistive loads, or 3) was not manipulated (control). Arterial (brachial) and venous (femoral) blood samples, arterial blood pressure, leg Q˙ (Q˙legs; thermodilution), esophageal pressure, and O 2 consumption (V˙o 2 ) were measured. Within each subject and across all subjects, at constant maximal work rate, significant correlations existed ( r = 0.74–0.90; P < 0.05) between work of breathing (Wb) and Q˙legs (inverse), leg vascular resistance (LVR), and leg V˙o 2 (V˙o 2 legs ; inverse), and between LVR and norepinephrine spillover. Mean arterial pressure did not change with changes in Wb nor did tidal volume or minute ventilation. For a ±50% change from control in Wb,Q˙legs changed 2 l/min or 11% of control, LVR changed 13% of control, and O 2 extraction did not change; thusV˙o 2 legs changed 0.4 l/min or 10% of control. TotalV˙o 2 max was unchanged with loading but fell 9.3% with unloading; thusV˙o 2 legs as a percentage of totalV˙o 2 max was 81% in control, increased to 89% with respiratory muscle unloading, and decreased to 71% with respiratory muscle loading. We conclude that Wb normally incurred during maximal exercise causes vasoconstriction in locomotor muscles and compromises locomotor muscle perfusion andV˙o 2 .