Division of Sports Medicine and Biology of Exercise, School of Physical Education and Sports Science, National and Kapodistrian University of Athens, Athens, Greece.
Sports Excellence, 1st Orthopedics Department, School of Health Sciences, National and Kapodistrian University of Athens, Athens, Greece.
Appl Physiol Nutr Metab. 2021 Oct;46(10):1216-1224. doi: 10.1139/apnm-2020-1082. Epub 2021 May 5.
This study tested the hypothesis that muscle blood flow restriction reduces muscle and cerebral oxygenation at rest. In 26 healthy males, aged 33 ± 2 yrs, physiological variables were continuously recorded during a 10-min period in 2 experimental conditions: a) with muscle blood flow restriction through thigh cuffs application inflated at 120 mm Hg (With Cuffs, WC) and b) without restriction (No Cuffs, NC). Muscle and cerebral oxygenation were reduced by muscle blood flow restriction as suggested by the increase in both muscle and cerebral deoxygenated hemoglobin (Δ[HHb]; < 0.01) and the decrease of muscle and cerebral oxygenation index (Δ[HbDiff]; < 0.01). Hemodynamic responses were not affected by such muscle blood flow restriction, whereas baroreflex sensitivity was reduced ( = 0.009). The perception of leg discomfort was higher ( < 0.001) in the WC than in the NC condition. This study suggests that thigh cuffs application inflated at 120 mm Hg is an effective method to reduce muscle oxygenation at rest. These changes at the muscular level seem to be sensed by the central nervous system, evoking alterations in cerebral oxygenation and baroreflex sensitivity. Thigh cuffs application inflated at 120 mm Hg effectively reduces muscle oxygenation at rest. Limiting muscle oxygenation appears to reduce cerebral oxygenation, and baroreflex sensitivity, at rest. Even in healthy subjects, limiting muscle oxygenation, at rest, affects neural integration.
本研究旨在验证肌肉血流限制是否会降低静息状态下的肌肉和脑氧合这一假说。在 26 名年龄为 33 ± 2 岁的健康男性中,在两种实验条件下连续记录了 10 分钟的生理变量:a)通过大腿袖带充气至 120 mmHg(带袖带,WC)限制肌肉血流,b)无限制(无袖带,NC)。肌肉和脑氧合因肌肉血流限制而降低,表现为肌肉和脑去氧合血红蛋白(Δ[HHb];<0.01)增加,以及肌肉和脑氧合指数(Δ[HbDiff];<0.01)降低。血流动力学反应不受这种肌肉血流限制的影响,而压力反射敏感性降低(= 0.009)。WC 组的腿部不适感知明显更高(<0.001)。本研究表明,大腿袖带充气至 120 mmHg 是一种有效降低静息状态下肌肉氧合的方法。这些肌肉水平的变化似乎被中枢神经系统感知,引起脑氧合和压力反射敏感性的改变。大腿袖带充气至 120 mmHg 可有效降低静息时的肌肉氧合。限制肌肉氧合似乎会降低静息时的脑氧合和压力反射敏感性。即使在健康受试者中,限制静息时的肌肉氧合也会影响神经整合。
