TY - JOUR
T1 - A randomized controlled trial for the effect of passive stretching on measures of hamstring extensibility, passive stiffness, strength, and stretch tolerance
AU - Marshall, Paul W. M.
AU - Cashman, Anthony
AU - Cheema, Birinder S.
PY - 2011
Y1 - 2011
N2 - To measure hamstring extensibility, stiffness, stretch tolerance, and strength following a 4-week passive stretching program. Randomized controlled trial. Twenty-two healthy participants were randomly assigned to either a 4-week stretching program consisting of 4 hamstring and hip stretches performed 5 times per week, or a non-stretching control group. Hamstring extensibility and stiffness were measured before and after training using the instrumented straight leg raise test (iSLR). Stretch tolerance was measured as the pain intensity (visual analog scale; VAS) elicited during the maximal stretch. Hamstring strength was measured using isokinetic dynamometry at 30 and 120◦ s−1. Hamstring extensibility increased by 20.9% in the intervention group following 4 weeks of training (p ˂ 0.001; d = 0.86). Passive stiffness was reduced by 31% in the intervention group (p˂ 0.05; d = −0.89). Stretch tolerance VAS scores were not different between groups at either time point, and no changes were observed following training. There were no changes in hamstring concentric strength measured at 30 and 120◦ s−1. Passive stretching increases hamstring extensibility and decreases passive stiffness, with no change in stretch tolerance defined by pain intensity during the stretch. Compared to previous research, the volume of stretching was higher in this study. The volume of prescribed stretching is important for eliciting the strong clinical effect observed in this study.
AB - To measure hamstring extensibility, stiffness, stretch tolerance, and strength following a 4-week passive stretching program. Randomized controlled trial. Twenty-two healthy participants were randomly assigned to either a 4-week stretching program consisting of 4 hamstring and hip stretches performed 5 times per week, or a non-stretching control group. Hamstring extensibility and stiffness were measured before and after training using the instrumented straight leg raise test (iSLR). Stretch tolerance was measured as the pain intensity (visual analog scale; VAS) elicited during the maximal stretch. Hamstring strength was measured using isokinetic dynamometry at 30 and 120◦ s−1. Hamstring extensibility increased by 20.9% in the intervention group following 4 weeks of training (p ˂ 0.001; d = 0.86). Passive stiffness was reduced by 31% in the intervention group (p˂ 0.05; d = −0.89). Stretch tolerance VAS scores were not different between groups at either time point, and no changes were observed following training. There were no changes in hamstring concentric strength measured at 30 and 120◦ s−1. Passive stretching increases hamstring extensibility and decreases passive stiffness, with no change in stretch tolerance defined by pain intensity during the stretch. Compared to previous research, the volume of stretching was higher in this study. The volume of prescribed stretching is important for eliciting the strong clinical effect observed in this study.
KW - hamstrings
KW - extensibility
KW - stretching exercises
KW - muscle strength
KW - pain measurement
KW - randomized controlled trials
UR - http://handle.uws.edu.au:8081/1959.7/526024
U2 - 10.1016/j.jsams.2011.05.003
DO - 10.1016/j.jsams.2011.05.003
M3 - Article
SN - 1440-2440
SN - 1878-1861
VL - 14
SP - 535
EP - 540
JO - Journal of Science and Medicine in Sport
JF - Journal of Science and Medicine in Sport
IS - 6
ER -