人类在运动动作心理模拟过程中自主效应器的中枢激活。
Central activation of autonomic effectors during mental simulation of motor actions in man.
作者信息
Decety J, Jeannerod M, Durozard D, Baverel G
机构信息
Vision et Motricité, Inserm U 94, Bron, France.
出版信息
J Physiol. 1993 Feb;461:549-63. doi: 10.1113/jphysiol.1993.sp019528.
Abstract
- Healthy subjects actually performed and mentally simulated a leg exercise at two levels of work (15 and 19 kg loads). Heart rate, respiration rate and end-tidal PCO2 were measured in both conditions. In addition, muscular metabolism was simultaneously measured using 31P nuclear magnetic resonance (NMR) spectroscopy. 2. During actual exercise, heart and respiration rates increased, first abruptly and then gradually in relation to the level of work. End-tidal PCO2 was unaltered. NMR spectra showed a drop in phosphocreatine (PCr) and an increase in inorganic phosphate (Pi) concentrations. Intracellular pH fell to 6.65 at maximal effort with a 19 kg load. 3. During mental simulation, both heart and ventilatory rate increased immediately after mental exercise was begun. This increase was proportional to the amount of simulated exercise. Heart rate remained about 25% below the level observed during actual exercise. The increase in respiration rate, by contrast, was more marked than during actual exercise. Finally, end-tidal PCO2 decreased progressively to about 18% of the resting value. 4. During mental simulation, NMR spectra were unchanged with respect to the resting values. 5. Subjects rated their sensation of fatigue using an analog rating scale, during both actual exercise and mental simulation. During mental exercise, the sensation of fatigue was greater with the 19 kg load than with the 15 kg load. 6. These results demonstrate that mental simulation of action can activate heart and respiration control mechanisms. They suggest that autonomic activation during imagined action pertains to the more general phenomenon of preparation for action.
摘要
- 健康受试者在两种工作强度(15千克和19千克负荷)下实际进行并在脑海中模拟了腿部运动。在这两种情况下均测量了心率、呼吸频率和呼气末二氧化碳分压。此外,同时使用31P核磁共振(NMR)光谱法测量了肌肉代谢情况。2. 在实际运动过程中,心率和呼吸频率增加,起初急剧上升,随后随着工作强度的增加而逐渐上升。呼气末二氧化碳分压未发生变化。NMR光谱显示磷酸肌酸(PCr)下降,无机磷酸盐(Pi)浓度增加。在使用19千克负荷全力运动时,细胞内pH值降至6.65。3. 在脑海中模拟运动时,在开始脑海中的运动后,心率和通气率立即增加。这种增加与模拟运动量成正比。心率仍比实际运动时观察到的水平低约25%。相比之下,呼吸频率的增加比实际运动时更为明显。最后,呼气末二氧化碳分压逐渐下降至静息值的约18%。4. 在脑海中模拟运动时,NMR光谱与静息值相比没有变化。5. 受试者在实际运动和脑海中模拟运动期间,使用视觉模拟评分量表对疲劳感进行评分。在脑海中的运动过程中,19千克负荷时的疲劳感比15千克负荷时更强。6. 这些结果表明,对动作的脑海中模拟可以激活心脏和呼吸控制机制*(此处疑有误,原文为“control mechanisms”,根据前文推测可能是“control centers”,但按照要求不添加解释,故保留原文)*。它们表明,想象动作期间的自主激活属于更普遍的动作准备现象。
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