C A McGibbon1, M S Puniello, D E Krebs. 1. Department of Orthopaedics, Biomotion Laboratory, MGH Institute of Health Professions, Massachusetts General Hospital, RSH 010, 40 Parkman Street, Boston, MA 02114, USA. cmcgibbon@partners.org
Abstract
OBJECTIVE: To examine the relationships among strength impairment, pathology and the mechanical energy transfers across the leg and low-back joints in a sample of frail elderly women with functional limitations. BACKGROUND: Past studies suggest mechanical energy analyses may be useful for identifying compensatory strategies used by elders during gait, but also suggest that age and strength are not the only factors that determine the extent of compensatory strategy use. METHODS: Gait data for 75 functionally limited women 60-90 years of age were analyzed. Subjects were categorized by strength and pathology diagnoses. Inverse dynamics was used to compute concentric (positive) and eccentric (negative) mechanical energy expenditures of the ankle, knee, hip and low-back during the stance phase of gait. Joint mechanical energy expenditures were compared between strength and diagnoses groups, and relationships among joint mechanical energy expenditures examined within groups. RESULTS: Weaker subjects demonstrated lower concentric ankle and eccentric knee mechanical energy expenditures, and higher eccentric low-back mechanical energy expenditures, than stronger subjects. Subjects with orthopaedic impairments demonstrated higher eccentric low-back mechanical energy expenditures than subjects with other impairments. Inverse correlations were found between ankle mechanical energy expenditures and hip and low-back mechanical energy expenditures for subjects with orthopaedic impairments. CONCLUSIONS: Elders with weak leg muscles and orthopaedic impairments increased hip and low-back mechanical energy expenditures, apparently to compensate for reduced ankle and knee mechanical energy expenditures. Further research is warranted to determine what long-term influences these compensatory strategies have on function and disability. Relevance. Mechanical energy methods could be useful for developing rehabilitative training programs to eliminate mobility impairments and avoid disablement in frail elders.fs
OBJECTIVE: To examine the relationships among strength impairment, pathology and the mechanical energy transfers across the leg and low-back joints in a sample of frail elderly women with functional limitations. BACKGROUND: Past studies suggest mechanical energy analyses may be useful for identifying compensatory strategies used by elders during gait, but also suggest that age and strength are not the only factors that determine the extent of compensatory strategy use. METHODS: Gait data for 75 functionally limited women 60-90 years of age were analyzed. Subjects were categorized by strength and pathology diagnoses. Inverse dynamics was used to compute concentric (positive) and eccentric (negative) mechanical energy expenditures of the ankle, knee, hip and low-back during the stance phase of gait. Joint mechanical energy expenditures were compared between strength and diagnoses groups, and relationships among joint mechanical energy expenditures examined within groups. RESULTS: Weaker subjects demonstrated lower concentric ankle and eccentric knee mechanical energy expenditures, and higher eccentric low-back mechanical energy expenditures, than stronger subjects. Subjects with orthopaedic impairments demonstrated higher eccentric low-back mechanical energy expenditures than subjects with other impairments. Inverse correlations were found between ankle mechanical energy expenditures and hip and low-back mechanical energy expenditures for subjects with orthopaedic impairments. CONCLUSIONS: Elders with weak leg muscles and orthopaedic impairments increased hip and low-back mechanical energy expenditures, apparently to compensate for reduced ankle and knee mechanical energy expenditures. Further research is warranted to determine what long-term influences these compensatory strategies have on function and disability. Relevance. Mechanical energy methods could be useful for developing rehabilitative training programs to eliminate mobility impairments and avoid disablement in frail elders.fs
Authors: Neil A Segal; Natalie A Glass; Patricia Teran-Yengle; Bhupinder Singh; Robert B Wallace; H John Yack Journal: Am J Phys Med Rehabil Date: 2015-10 Impact factor: 2.159
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