Faculty of Sport Sciences, APERE Laboratory, UR 3300, University of Picardie Jules Verne, Amiens, France.
Institute of Sport Sciences, University of Lausanne, Lausanne, Switzerland.
Scand J Med Sci Sports. 2024 Jan;34(1):e14503. doi: 10.1111/sms.14503. Epub 2023 Sep 25.
Hot water immersion (HWI) has gained popularity to promote muscle recovery, despite limited data on the optimal heat dose. The purpose of this study was to compare the responses of two exogenous heat strains on core body temperature, hemodynamic adjustments, and key functional markers of muscle recovery following exercise-induced muscle damage (EIMD).
Twenty-eight physically active males completed an individually tailored EIMD protocol immediately followed by one of the following recovery interventions: HWI (40°C, HWI ), HWI (41°C, HWI ) or warm water immersion (36°C, CON ). Gastrointestinal temperature (T ), hemodynamic adjustments (cardiac output [CO], mean arterial pressure [MAP], and systemic vascular resistance [SVR]), pre-frontal cortex deoxyhemoglobin (HHb), ECG-derived respiratory frequency, and subjective perceptual measures were tracked throughout immersion. In addition, functional markers of muscle fatigue (maximal concentric peak torque [T ]) and muscle damage (late-phase rate of force development [RFD ]) were measured prior to EIMD (pre-), 24 h (post-24 h), and 48 h (post-48 h) post-EIMD.
By the end of immersion, HWI led to significantly higher T values than HWI (38.8 ± 0.1 vs. 38.0°C ± 0.6°C, p < 0.001). While MAP was well maintained throughout immersion, only HWI led to increased (HHb) (+4.2 ± 1.47 μM; p = 0.005) and respiratory frequency (+4.0 ± 1.21 breath.min ; p = 0.032). Only HWI mitigated the decline in RFD at post-24 h (-7.1 ± 31.8%; p = 0.63) and T at post-48 h (-3.1 ± 4.3%, p = 1).
In physically active males, maintaining a core body temperature of ~25 min within the range of 38.5°C-39°C has been found to be effective in improving muscle recovery, while minimizing the risk of excessive physiological heat strain.
热水浸泡(HWI)已被广泛用于促进肌肉恢复,尽管关于最佳热剂量的数据有限。本研究的目的是比较两种外源性热应激对运动诱导肌肉损伤(EIMD)后核心体温、血液动力学调整和肌肉恢复关键功能标志物的影响。
28 名活跃的男性根据个人情况完成 EIMD 方案,随后立即接受以下恢复干预措施之一:HWI(40°C,HWI )、HWI(41°C,HWI )或温水浸泡(36°C,CON )。整个浸泡过程中跟踪测量胃肠道温度(T )、血液动力学调整(心输出量[CO]、平均动脉压[MAP]和全身血管阻力[SVR])、前额叶皮层去氧血红蛋白(HHb)、心电图衍生的呼吸频率以及主观感知测量。此外,在 EIMD 之前(预)、24 小时(后 24 小时)和 48 小时(后 48 小时)测量肌肉疲劳(最大向心峰值扭矩[T ])和肌肉损伤(后期力量发展率[RFD])的功能标志物。
浸泡结束时,HWI 导致的 T 值明显高于 HWI (38.8±0.1 与 38.0°C±0.6°C,p<0.001)。虽然 MAP 在整个浸泡过程中得到很好的维持,但只有 HWI 导致 HHb 增加(+4.2±1.47 μM;p=0.005)和呼吸频率增加(+4.0±1.21 次.min ;p=0.032)。只有 HWI 缓解了 24 小时后 RFD 的下降(-7.1±31.8%;p=0.63)和 48 小时后 T 的下降(-3.1±4.3%,p=1)。
在活跃的男性中,发现将核心体温保持在 38.5°C-39°C 范围内约 25 分钟可有效改善肌肉恢复,同时将过度生理热应激的风险降至最低。
