The Resistance Quantity in Knee Extension Movement of Exercise Bands (Thera-Band)

Sakanoue, Noboru; Katayama, Kunihiro

doi:10.1589/jpts.19.287

Cited by 13 publications

(9 citation statements)

References 7 publications

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“…Six different TheraBands ® were used to manage the muscle contraction strength (exercise intensity): thin (yellow, 1.3 kg), medium (red, 1.7 kg), heavy (green, 2.1 kg), extra heavy (blue, 2.6 kg), special heavy (black, 3.3 kg), and super heavy (silver, 4.6 kg), which values formally represent the degree of strength required to stretch the rubber band 30 cm to 60 cm in the Thera-Band ® product catalogue [19]. Validation of the stiffness of each band was previously reported by the manufacturer [20][21][22].…”

Section: Rubber Bands For Muscle Contraction Strength (Exercise Intenmentioning

confidence: 99%

Time-course of thigh muscle contraction-induced blood flow magnitude in amputated lower limb with prosthesis during dynamic knee extensions: A case study

Osada¹,

Ishiyama²,

Ueno³

2018

Phys Ther Rehabil

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Background:The increase in exercising leg blood flow (LBF) is directly proportional to the workload performed, in relation to the interplay between cardiovascular regulation and muscle energy metabolism. However, little information is available on exercise LBF in thigh muscle contractions in amputated lower legs (ALL) via the stump fitting prosthesis. Case presentation: A 79-year-old male patient performed 3-min one-legged repeat/dynamic knee extensor exercise at a target muscle contraction frequency (1-s thigh muscle contraction and 1-s relaxation, 90 repetitions) on each leg (left ALL as trans-tibial amputation using a patellar tendon-bearing prosthesis and right non-ALL) at six different contraction intensities. Simultaneous measurement of blood velocity/flow (Doppler ultrasound) in the femoral artery, blood pressure, leg vascular conductance and muscle strength were performed at pre-exercise, during 3-min exercise and 5-min recovery. There was a 12% reduction in the maximum thigh circumference in the ALL compared to non-ALL. LBF was lower in the ALL than non-ALL at pre-exercise and during exercise. In non-ALL, there was a good positive linear relationship (r=0.922, P<0.01) between mean peak muscle strength and mean exercising LBF during 30-s steady-state before the end of exercise, but the same relationship was not seen (r=0.220, P=ns) in the ALL. Conclusions: The present clinical intervention study showed no significant thigh LBF increase in the ALL with incremental workload (peak muscle strength). This might be due to a mismatch of the workloaddependent LBF increase in the disused and/or atrophic thigh muscle-resection stump of the ALL compared to non-ALL, which in ALL may be due to remaining muscle contractile effort with a reduced arterial inflow and/or lack of venous return in relation to the arteriovenous pressure gradient and/or hydrostatic pressure through the lower leg.

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Section: Rubber Bands For Muscle Contraction Strength (Exercise Intenmentioning

confidence: 99%

Time-course of thigh muscle contraction-induced blood flow magnitude in amputated lower limb with prosthesis during dynamic knee extensions: A case study

Osada¹,

Ishiyama²,

Ueno³

2018

Phys Ther Rehabil

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“…Elastic bands for rehabilitation are characterised by portability, light resistance and versatility and are used to increase strength in rehabilitation treatment programs and sports training programs [16,20,21,22,23]. According to the results of this 6-week research, 1) squat with elastic-band increased the duration of static squat or muscular endurance, 2) the number of squat repetitions in 30 seconds increased and 3) the height of vertical jumps increased.…”

Section: Discussionmentioning

confidence: 99%

Untitled

2016

JPES

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“…The subjects used a Thera-Band ® for strength training and did four exercises for the hip and knee joints. The strength training in this program was presumed to be of moderate intensity (Sakanoue and Katayama, 2007); it was performed as one or two sets of 15 repetitions of each exercise according to the subject's ability. Balance training consisted of a stepping exercise.…”

Section: Interventionmentioning

confidence: 99%

Effects on Balance, Falls, and Bone Mineral Density of a Home-based Exercise Program without Home Visits in Community-Dwelling Elderly Women: a Randomized Controlled Trial

Kamide

Shiba

Shibata

2009

J Physiol Anthropol

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The aim of the present study was to investigate the effects of home-based exercise without home visits on physical function, falls, and bone mineral density in community-dwelling elderly women. Sixty community-dwelling, elderly (> or =65 years of age) women were recruited from a Japanese community. Subjects were randomly assigned to a home-based exercise group or a control group. The subjects assigned to the home-based exercise group performed home-based exercise without home visits 3 times per week for 6 months in their homes. Assessments of physical function and bone mineral density were carried out before and after intervention in both groups. Muscle strength, gait velocity, the timed up and go test (TUGT), single leg stance time, the bend reach performance test, and reaction time were measured to assess physical function. The patients' history of falls was also assessed before and after the 12-month follow-up. To determine bone mineral density, the speed of sound (SOS) at the right calcaneus was measured using a quantitative ultrasound device. There were no significant differences between the two groups in baseline characteristics. 82.6% of subjects completed the prescribed exercise program in the home-based exercise group. Compared to the control group, TUGT improved significantly (p<0.05) in the home-based exercise group. Home-based exercise without home visits can be adopted for community-dwelling elderly women, particularly since no specific place or instructor is needed.

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The Resistance Quantity in Knee Extension Movement of Exercise Bands (Thera-Band)

Cited by 13 publications

References 7 publications

Time-course of thigh muscle contraction-induced blood flow magnitude in amputated lower limb with prosthesis during dynamic knee extensions: A case study

Time-course of thigh muscle contraction-induced blood flow magnitude in amputated lower limb with prosthesis during dynamic knee extensions: A case study

Untitled

Effects on Balance, Falls, and Bone Mineral Density of a Home-based Exercise Program without Home Visits in Community-Dwelling Elderly Women: a Randomized Controlled Trial

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