Background: Ventilation-to-carbon dioxide ratio is comparable with peak oxygen uptake in the prognosis of cardiovascular disorders. Currently, there are no established indices to determine the submaximal effects of functional electrical stimulation on cardiovascular performance in persons with spinal cord injury. Objective: To determine the effects of an acute bout of functional electrical stimulation-lower extremity cycling on ventilation, carbon dioxide production, ventilation-to-carbon dioxide ratio, and substrate utilization in people with motor complete spinal cord injury. Design: Observational cross-sectional design. Setting: Clinical laboratory setting. Participants: Ten individuals with motor complete spinal cord injury. Methods: Participants were allowed to cycle until fatigue. The effects of functional electrical stimulation on ventilation, carbon dioxide production, ventilation-to-carbon dioxide ratio, and substrate utilization were measured with a portable metabolic cart (COSMED K4b2). Body composition was determined with bioelectrical impedance. Results: Resting and warm-up ventilation were 8.15 +/- 3.5 L/min and 8.15 +/- 2.8 L/min, respectively. Functional electrical stimulation increased ventilation significantly (14.5 +/- 6.4 L/min), which remained significantly elevated (13.3 +/- 4.3 L/min) during the recovery period. During resting and warm-up phases, the ventilation-to-carbon dioxide ratios were 41 +/- 4.8 and 38 +/- 5.4, respectively. Functional electrical stimulation decreased the ventilation-to-carbon dioxide ratio significantly to 31.5 +/- 4, which remained significantly reduced during the recovery period (34.4 +/- 3). Functional electrical stimulation relied primarily on carbohydrate utilization (188 +/- 160 g/day to 574 +/- 324 g/day; P = .001) with no changes in fat utilization (77.5 +/- 28 g/day to 93.5 +/- 133.6 g/day; P = .7) from resting to exercise periods. Significant relationships were noted between carbohydrate utilization during functional electrical stimulation and carbon dioxide (r = 0.98; P = .00010) production. The percentage whole body fat-free mass was negatively related to the exercise ventilation-to-carbon ratio (r = -0.66; P = .045). Conclusions: An acute bout of functional electrical stimulation resulted in a significant drop in the ventilation-to-carbon ratio, accompanied with a reliance on carbohydrate utilization and a diminished capacity to utilize fat as a substrate. Fat-free mass may be associated with a decrease in ventilation to carbon dioxide ratio and an increase in carbohydrate utilization in persons with spinal cord injury.

• 出版日期2016-3