Research Department, Hammel Neurorehabilitation and Research Center, Aarhus University, 8450 Hammel, Denmark.
Discipline of Physiotherapy, School of Health, Federation University, 3841 Victoria, Australia.
J Integr Neurosci. 2022 Mar 21;21(2):53. doi: 10.31083/j.jin2102053.
Blood flow restriction exercise (BFR-E) could be a useful training adjunct for patients with weakness after stroke to augment the effects of exercise on muscle activity. We aimed to examine neurophysiological changes (primary aim) and assess patient perceptions (secondary aim) following BFR-E.
Fourteen participants with stroke performed BFR-E (1 session) and exercise without blood flow restrictsion (Exercise only) (1 session), on two days, ≈7 days apart. In each session, two sets of tibialis anterior (TA) contractions were performed and electromyography (EMG) was recorded. Eight participants underwent transcranial magnetic stimulation (single-pulse stimulation, short interval intracortical inhibition (SICI), intracortical facilitation (ICF)) and peripheral electrical stimulation (maximal peak-to-peak M-wave (M-max)) of the TA before, immediately-after, 10-min-after and 20-min-after BFR-E and Exercise only. Numerical rating scores (NRS) for pain, discomfort, fatigue, safety, focus and difficulty were collected for all subjects (n = 14). Paired comparisons and linear mixed models assessed the effects of BFR-E and Exercise only.
No adverse events due to exercise were reported. There was no contraction-number × condition interaction for EMG amplitude during exercise ( = 0.15), or time × condition interaction for single-pulse stmulation, SICI, ICF or M-max amplitude ( = 0.34 to = 0.97). There was no difference between BFR-E and Exercise only in NRS scores ( = 0.10 to = 0.50).
Using our training paradigm, neurophysiological parameters, feasibility, tolerability and perceptions of safety were not different between BFR-E and Exercise only. As participants were generally well-functioning, our results are not generalizable to lower functioning people with stroke, different (more intense) exercise protocols or longer term training over weeks or months.
血流限制训练(BFR-E)可以成为一种有用的辅助训练方法,适用于中风后肌肉无力的患者,以增强运动对肌肉活动的影响。我们旨在检查 BFR-E 后的神经生理变化(主要目标)和评估患者感知(次要目标)。
14 名中风患者在两天内(间隔约 7 天)分别进行 BFR-E(1 次)和无血流限制的运动(仅运动)(1 次)。在每次训练中,进行两组胫骨前肌(TA)收缩,并记录肌电图(EMG)。8 名参与者在 BFR-E 和仅运动前、即刻后、10 分钟后和 20 分钟后进行经颅磁刺激(单脉冲刺激、短间隔皮质内抑制(SICI)、皮质内易化(ICF))和外周电刺激(最大峰峰值 M 波(M-max))。所有受试者(n=14)均收集疼痛、不适、疲劳、安全性、注意力和难度的数字评分(NRS)。采用配对比较和线性混合模型评估 BFR-E 和仅运动的效果。
没有因运动引起的不良事件报告。EMG 振幅在运动过程中无收缩次数×条件的交互作用( = 0.15),或单脉冲刺激、SICI、ICF 或 M-max 振幅的时间×条件交互作用( = 0.34 至 = 0.97)。BFR-E 和仅运动在 NRS 评分上没有差异( = 0.10 至 = 0.50)。
使用我们的训练方案,BFR-E 和仅运动在神经生理参数、可行性、耐受性和安全性感知方面没有差异。由于参与者的功能普遍较好,因此我们的结果不适用于功能较低的中风患者、不同(更剧烈)的运动方案或数周或数月的长期训练。
