BACKGROUND: Although chronic stroke patients commonly show impairment of trunk muscle performance, this disability has only been analyzed in terms of peak torque. Therefore, other measures are needed for a more adequate description. OBJECTIVE: This study aimed to compare concentric muscle performance of trunk flexor/extensor muscles between chronic stroke patients and matched-healthy subjects. METHODS: 18 chronic stroke patients and 18 healthy subjects were matched according to their age, sex, body mass index and level of physical activity. After familiarization, trunk flexor/extensor concentric muscle strength was measured using an isokinetic dynamometer (Biodex Medical Systems Inc, Shirley, NY, USA) with 3 repetitions at a velocity of 60°/s and 5 repetitions at a velocity of 120°/s. Trunk muscular performance was characterized by peak torque, torque at 90°, total work, and total work normalized by trunk mass. Student's t-test was used for independent samples (α=0.05) for group comparisons. RESULTS: All trunk muscle performance variables values investigated were significantly lower in chronic stroke patients when compared to matched-healthy subjects (p≤0.001). The obtained ratios of chronic stroke patients scores to that of the matched-healthy subjects at velocities of 60°/s and 120°/s were, respectively: flexor peak torque (60% & 53%)/extensor (54% & 53%); flexor torque at 90° (56.20% & 36.58%)/extensor (57.92% & 30.65%); flexor total muscular work (51.27% & 38.03%)/extensor (47.97% & 39.52%); and flexor total muscular work normalized by trunk mass (55.57% & 40%)/extensor (51.40% & 42%). CONCLUSIONS: Chronic stroke patients showed decreased trunk muscle performance when compared to matched-healthy subjects in all variables investigated.
BACKGROUND: Although chronic strokepatients commonly show impairment of trunk muscle performance, this disability has only been analyzed in terms of peak torque. Therefore, other measures are needed for a more adequate description. OBJECTIVE: This study aimed to compare concentric muscle performance of trunk flexor/extensor muscles between chronic strokepatients and matched-healthy subjects. METHODS: 18 chronic strokepatients and 18 healthy subjects were matched according to their age, sex, body mass index and level of physical activity. After familiarization, trunk flexor/extensor concentric muscle strength was measured using an isokinetic dynamometer (Biodex Medical Systems Inc, Shirley, NY, USA) with 3 repetitions at a velocity of 60°/s and 5 repetitions at a velocity of 120°/s. Trunk muscular performance was characterized by peak torque, torque at 90°, total work, and total work normalized by trunk mass. Student's t-test was used for independent samples (α=0.05) for group comparisons. RESULTS: All trunk muscle performance variables values investigated were significantly lower in chronic strokepatients when compared to matched-healthy subjects (p≤0.001). The obtained ratios of chronic strokepatients scores to that of the matched-healthy subjects at velocities of 60°/s and 120°/s were, respectively: flexor peak torque (60% & 53%)/extensor (54% & 53%); flexor torque at 90° (56.20% & 36.58%)/extensor (57.92% & 30.65%); flexor total muscular work (51.27% & 38.03%)/extensor (47.97% & 39.52%); and flexor total muscular work normalized by trunk mass (55.57% & 40%)/extensor (51.40% & 42%). CONCLUSIONS:Chronic strokepatients showed decreased trunk muscle performance when compared to matched-healthy subjects in all variables investigated.
Authors: David R Burnett; Naira H Campbell-Kyureghyan; Patricia B Cerrito; Peter M Quesada Journal: J Electromyogr Kinesiol Date: 2011-04-13 Impact factor: 2.368
Authors: Lucas R Nascimento; Luci F Teixeira-Salmela; Janaine C Polese; Louise Ada; Christina D C M Faria; Glória E C Laurentino Journal: Braz J Phys Ther Date: 2014-06-24 Impact factor: 3.377