Effects of resistance training on lower-extremity impairments in older people with hip fracture

6533b829fe1ef96bd128ae33

RESEARCH PRODUCT

Effects of resistance training on lower-extremity impairments in older people with hip fracture

Sanna Sihvonen Taina Rantanen Sarianna Sipilä Mauri Kallinen Ari Heinonen Ilkka Kiviranta Markku Alen Markku Alen Erja Portegijs

subject

Male medicine.medical_specialty medicine.medical_treatment Population education Physical Therapy Sports Therapy and Rehabilitation Isometric exercise Walking law.invention Weight-Bearing 03 medical and health sciences 0302 clinical medicine Randomized controlled trial law One-repetition maximum medicine Humans 030212 general & internal medicine Muscle Strength Mobility Limitation education Aged Aged 80 and over Hip fracture education.field_of_study Analysis of Variance Rehabilitation Chi-Square Distribution Anthropometry business.industry Hip Fractures Rehabilitation Recovery of Function Middle Aged medicine.disease Exercise Therapy Preferred walking speed Treatment Outcome Lower Extremity Torque Physical therapy Female Range of motion business 030217 neurology & neurosurgery

description

Abstract Portegijs E, Kallinen M, Rantanen T, Heinonen A, Sihvonen S, Alen M, Kiviranta I, Sipila S. Effects of resistance training on lower-extremity impairments in older people with hip fracture. Objective To study the effects of resistance training on muscle strength parameters, mobility, and balance. Design Randomized controlled trial. Setting Research laboratory and senior gym. Participants Population-based sample of eligible 60- to 85-year-old community-dwelling men and women 0.5 to 7.0 years after hip fracture. Forty-six people had no contraindications and were willing to participate in the exercise trial. Intervention Twelve-week intensive progressive strength-power training (n=24), aiming to reduce asymmetric deficit in leg muscle strength and power, or no intervention (n=22). Main Outcome Measures Isometric knee extension torque (KET) and leg extension power (LEP) measured in the weaker and stronger leg and the asymmetric deficit ([weak/sum both legs]×100%), 10-m walking speed, dynamic balance test, and self-reported outdoor mobility. Results KET increased in both legs ( P P =.071), and asymmetric LEP deficit decreased ( P =.010) after training compared with the control group. LEP of the stronger leg, asymmetric KET deficit, walking speed, and balance performance were not significantly affected by training. Self-reported ability to walk outdoors improved after training. The compliance to the training was over 90%, and few adverse events (n=4; mainly musculoskeletal) were likely to be caused by the training. Conclusions Intensive resistance training is feasible for people with a hip fracture and improved muscle strength and power. More intensive training especially for the weaker leg may be needed to obtain more marked effects on asymmetric deficit, mobility, and balance. Also, the timing and duration of training program should be considered. (ISRCTN identifier ISRCTN34271567.)

year	journal	country	edition	language
2008-01-01	Archives of physical medicine and rehabilitation

10.1016/j.apmr.2008.01.026 https://doi.org/10.1016/j.apmr.2008.01.026