热水使肌肉温度升高可改善肌肉收缩功能并降低运动单位放电率。
Increases in muscle temperature by hot water improve muscle contractile function and reduce motor unit discharge rates.
作者信息
Rodrigues Patrick, Orssatto Lucas B R, Trajano Gabriel Siqueira, Wharton Lee, Minett Geoffrey M
机构信息
Faculty of Health, School of Exercise and Nutrition Sciences, Queensland University of Technology (QUT), Kelvin Grove, Queensland, Australia.
出版信息
Scand J Med Sci Sports. 2023 May;33(5):754-765. doi: 10.1111/sms.14312. Epub 2023 Jan 27.
PURPOSE
Examine the effects of 42°C hot-water immersion on muscle contraction function and motor unit discharge rates. Voluntary and evoked contraction assessments were examined first with a concomitant increase in the core and muscle temperature, and thereafter with increased muscle temperature but cooled core temperature.
METHODS
Fifteen participants (24.9 ± 5.6 years) performed neuromuscular assessments before, after, and ~15-min after either 90-min of 42°C (hot) or 36°C (control) water immersion. Maximal voluntary contraction (MVC) assessment of knee extension was performed along with surface electromyography (sEMG) (vastus lateralis and medialis [VL, VM]) and voluntary activation level (VAL). Resting evoked twitch was elicited for peak torque and time to peak torque analysis. In addition, the VL and VM motor unit discharge rates (MUDR) were measured.
RESULTS
After hot-water immersion (core temperature ↑1°C; muscle temperature ↑2.4°C), MVC torque and VAL decreased (p < 0.05). The sEMG (VL and VM) and peak twitch torque did not change (p > 0.05), while time to peak torque decreased (p = 0.007). The VL and VM MUDR decreased, showing a time effect, after both water immersion conditions (36 and 42°C) (p > 0.001). Fifteen minutes after the hot-water immersion (core temperature at baseline; muscle temperature ↑1.4°C), MVC torque returned to baseline, but VAL remained lower. The sEMG (VL and VM) remained unchanged. Peak twitch torque increased (p < 0.002) and time to peak torque remained lower (p = 0.028). The MUDR remained lower after both water immersion conditions (p < 0.05).
CONCLUSION
Increased core temperature evoked by 42°C hot-water immersion decreases MVC torque and VAL. However, a passive increase in muscle temperature improved evoked muscle contractile function (i.e., time to peak torque [after] and peak twitch torque [~15 min after]). Moreover, a passive increase in muscle temperature reduced the required MUDR to attain the same torque.
目的
研究42°C热水浸泡对肌肉收缩功能和运动单位放电率的影响。首先在核心体温和肌肉温度同时升高的情况下进行自主收缩和诱发收缩评估,之后在肌肉温度升高但核心体温降低的情况下进行评估。
方法
15名参与者(24.9±5.6岁)在90分钟的42°C(热)或36°C(对照)水浸之前、之后以及浸后约15分钟进行神经肌肉评估。进行膝关节伸展的最大自主收缩(MVC)评估,同时记录表面肌电图(sEMG)(股外侧肌和股内侧肌[VL,VM])和自主激活水平(VAL)。诱发静息抽搐以进行峰值扭矩和峰值扭矩时间分析。此外,测量VL和VM运动单位放电率(MUDR)。
结果
热水浸泡后(核心体温升高1°C;肌肉温度升高2.4°C),MVC扭矩和VAL降低(p<0.05)。sEMG(VL和VM)和峰值抽搐扭矩未改变(p>0.05),而峰值扭矩时间缩短(p = 0.007)。在两种水浸条件(36°C和42°C)下,VL和VM的MUDR均降低,呈现时间效应(p>0.001)。热水浸泡15分钟后(核心体温恢复到基线;肌肉温度升高1.4°C),MVC扭矩恢复到基线,但VAL仍较低。sEMG(VL和VM)保持不变。峰值抽搐扭矩增加(p<0.002),峰值扭矩时间仍较短(p = 0.028)。在两种水浸条件下,MUDR均保持较低水平(p<0.05)。
结论
42°C热水浸泡引起的核心体温升高会降低MVC扭矩和VAL。然而,肌肉温度的被动升高改善了诱发的肌肉收缩功能(即,峰值扭矩时间[浸泡后]和峰值抽搐扭矩[浸泡后约15分钟])。此外,肌肉温度的被动升高降低了达到相同扭矩所需的MUDR。
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