Continuous and intermittent blood flow restriction during low-intensity resistance exercise similarly increased muscle activation compared to control (p>0.05 between BFR conditions).
Does continuous or intermittent blood flow restriction increase muscle activation during low-intensity resistance exercise compared to no restriction?
Continuous and intermittent blood flow restriction at high cuff pressures similarly increase muscle activation during low-intensity resistance exercise compared to no restriction.
p-value: p=>0.05
Low-intensity resistance exercise with blood flow restriction (BFR) has been shown to induce a prominent increase in muscle activation in response to muscle fatigue. However, the magnitude of muscle fatigue between continuous (Con-BFR) and intermittent BFR (Int-BFR, BFR only during exercise) is currently unknown. We examined the effect of Con-BFR or Int-BFR on muscle activation during exercise. Unilateral arm curl exercise (20% of one-repetition maximum, four sets, 30 sec rest period between sets) was performed without (CON) or with Con-BFR or Int-BFR. During BFR conditions, the cuff was inflated to 160 mmHg on the proximal region of testing arm. Surface electromyography (EMG) was recorded from the biceps brachii muscle, and integrated EMG (iEMG) was analyzed. During the exercise, iEMG increased progressively in Con-BFR and Int-BFR and both conditions were greater (p 0.05) in iEMG between Con-BFR and Int-BFR during exercise (∼2.45 and ∼2.40 times, respectively). Thus, the magnitude of increase in muscle activation may be similar between Con-BFR and Int-BFR when BFR exercise was performed at a high level of cuff pressure intensity.
Yasuda et al. (Sun,) reported a other. Continuous or intermittent blood flow restriction (BFR) vs. Exercise without BFR (CON) was evaluated on Integrated electromyography (iEMG) of the biceps brachii muscle (p=>0.05). Continuous and intermittent blood flow restriction during low-intensity resistance exercise similarly increased muscle activation compared to control (p>0.05 between BFR conditions).