Narici Marco, Kayser Bengt, Barattini Paolo, Cerretelli Paolo
Centre for Biophysical and Clinical Research into Human Movement, Manchester Metropolitan University, Alsager Campus, Alsager, Cheshire, ST7 2HL, UK.
Eur J Appl Physiol. 2003 Oct;90(3-4):275-82. doi: 10.1007/s00421-003-0955-7. Epub 2003 Sep 17.
The effects of spaceflight on triceps surae muscle torque and cross-sectional area (CSA) were investigated on four astronauts using electrically evoked contractions to by-pass neural control. Muscle twitch characteristics, ankle joint angle-twitch torque relation, frequency-torque relation, tetanic torque and fatigability were assessed before, during and after a 17-day Space Shuttle flight (STS-78). Muscle plus bone cross-sectional area (CSAm+b) was evaluated before and after the flight. Whereas no changes in muscle function were observed during the flight, marked alterations were found during the recovery period. Peak twitch (PTw) and tetanic torques at 50 Hz (PT50) continued to fall up to the 8th recovery day (R+8) on which losses in PTw and PT50 were 24.4% (P<0.01) and 22.0% (P<0.01), respectively. The decline in PTw was not joint-angle-specific. Post-flight, especially on R+8, torque decreased at all stimulation frequencies (1, 20, 30 and 50 Hz); however the shape of the frequency-torque curve, normalised for PT50, was not modified. Similarly, no changes in twitch kinetics were observed. Post- flight, an 8% (P<0.01) reduction in CSAm+b was found on R+2. Normalisation of PT50 values for CSAm+b showed a progressive loss in specific torque (PT50/CSAm+b), which was maximal on R+2 (19.5%, P<0.05). Also, fatigability during 2-min intermittent stimulation at 20 Hz increased throughout recovery, reaching a nadir of 16.4% (P<0.01) on R+15. In conclusion, 17 days of spaceflight resulted in significant changes in muscle function during the recovery phase, but not in microgravity. The disproportionate loss of torque compared with that of muscle size suggests the presence of muscle damage due to reloading in 1 g.
通过电诱发收缩绕过神经控制,研究了太空飞行对四名宇航员小腿三头肌扭矩和横截面积(CSA)的影响。在为期17天的航天飞机飞行(STS - 78)之前、期间和之后,评估了肌肉抽搐特征、踝关节角度 - 抽搐扭矩关系、频率 - 扭矩关系、强直扭矩和疲劳性。在飞行前后评估了肌肉加骨骼的横截面积(CSAm + b)。虽然在飞行期间未观察到肌肉功能变化,但在恢复期间发现了明显改变。峰值抽搐(PTw)和50Hz时的强直扭矩(PT50)持续下降,直至恢复第8天(R + 8),此时PTw和PT50的损失分别为24.4%(P < 0.01)和22.0%(P < 0.01)。PTw的下降并非特定于关节角度。飞行后,特别是在R + 8时,在所有刺激频率(1、20、30和50Hz)下扭矩均下降;然而,以PT50标准化的频率 - 扭矩曲线形状未改变。同样,未观察到抽搐动力学的变化。飞行后,在R + 2时发现CSAm + b减少了8%(P < 0.01)。以CSAm + b对PT50值进行标准化显示比扭矩(PT50/CSAm + b)逐渐下降,在R + 2时达到最大值(19.5%,P < 0.05)。此外,在20Hz下进行2分钟间歇性刺激时的疲劳性在整个恢复过程中增加,在R + 15时达到最低点16.4%(P < 0.01)。总之,17天的太空飞行导致恢复阶段肌肉功能发生显著变化,但在微重力环境下未发生。与肌肉大小相比扭矩的不成比例损失表明存在因1g重力下重新加载导致的肌肉损伤。
