脊髓损伤后功能性电刺激骑行对通气与二氧化碳产生比值及底物利用的急性反应
Acute Responses of Functional Electrical Stimulation Cycling on the Ventilation-to-CO2 Production Ratio and Substrate Utilization After Spinal Cord Injury.
作者信息
Gorgey Ashraf S, Lawrence Justin
机构信息
Spinal Cord Injury and Disorders Center, Hunter Holmes McGuire VAMC, 1201 Broad Rock Boulevard, Richmond, VA 23249; and Department of Physical Medicine and Rehabilitation, Virginia Commonwealth University, Richmond, VA(∗).
Spinal Cord Injury and Disorders Center, Hunter Holmes McGuire VAMC, and College of Health and Human Performance; Virginia Commonwealth University, Richmond, VA(†).
出版信息
PM R. 2016 Mar;8(3):225-34. doi: 10.1016/j.pmrj.2015.10.006. Epub 2015 Oct 19.
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.
背景
在心血管疾病的预后中,通气与二氧化碳比值与峰值摄氧量相当。目前,尚无既定指标来确定功能性电刺激对脊髓损伤患者心血管功能的次最大效应。
目的
确定一次急性功能性电刺激下肢骑行对运动完全性脊髓损伤患者的通气、二氧化碳产生、通气与二氧化碳比值及底物利用的影响。
设计
观察性横断面设计。
设置
临床实验室环境。
参与者
10名运动完全性脊髓损伤患者。
方法
让参与者骑行至疲劳。使用便携式代谢车(COSMED K4b2)测量功能性电刺激对通气、二氧化碳产生、通气与二氧化碳比值及底物利用的影响。通过生物电阻抗测定身体成分。
结果
静息和热身时的通气量分别为8.15±3.5升/分钟和8.15±2.8升/分钟。功能性电刺激使通气量显著增加(14.5±6.4升/分钟),在恢复期仍显著升高(13.3±4.3升/分钟)。在静息和热身阶段,通气与二氧化碳比值分别为41±4.8和38±5.4。功能性电刺激使通气与二氧化碳比值显著降至31.5±4,在恢复期仍显著降低(34.4±3)。功能性电刺激主要依赖碳水化合物利用(从静息期的188±160克/天增加到运动期的574±324克/天;P = 0.001),而脂肪利用从静息期到运动期无变化(77.5±28克/天至93.5±133.6克/天;P = 0.7)。在功能性电刺激期间碳水化合物利用与二氧化碳产生之间存在显著相关性(r = 0.98;P = 0.00010)。全身去脂体重百分比与运动时通气与碳比值呈负相关(r = -0.66;P = 0.045)。
结论
一次急性功能性电刺激导致通气与碳比值显著下降,同时伴有对碳水化合物利用的依赖以及利用脂肪作为底物的能力下降。去脂体重可能与脊髓损伤患者通气与二氧化碳比值降低及碳水化合物利用增加有关。
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