Abstract
BackgroundThis study tested the hypothesis that sarcopenia and its constituent components, reduced lean muscle mass and impaired motor function, are associated with reduced survival and increased risk of incident disabilities.Methods1466 community-dwelling older adults underwent assessment of muscle mass with bioelectrical impedance analysis (BIA), grip strength, gait speed and other components of physical frailty and annual self-report assessments of disability. We used Cox proportional hazards models that controlled for age, sex, race, education and height to examine the associations of a continuous sarcopenia metric with the hazard of death and incident disabilities.ResultsMean baseline age was about 80 years old and follow-up was 5.5 years. In a proportional hazards model controlling for age, sex, race, education and baseline sarcopenia, each 1-SD higher score on a continuous sarcopenia scale was associated with lower hazards of death (HR 0.70, 95%CI [0.62, 0.78]), incident IADL (HR 0.80,95%CI [0.70, 0.93]), incident ADL disability (HR 0.80 95%CI [71, 91]) and incident mobility disability (HR 0.81, 95%CI [0.70, 0.93]). Further analyses suggest that grip strength and gait speed rather than muscle mass drive the associations with all four adverse health outcomes. Similar findings were observed when controlling for additional measures used to assess physical frailty including BMI, fatigue and physical activity.ConclusionsMotor function is the primary driver of the associations of sarcopenia and physical frailty with diverse adverse health outcomes. Further work is needed to identify other facets of muscle structure and motor function which together can identify adults at risk for specific adverse health outcomes.
Highlights
Aging is associated with degenerative and structural changes in muscle and body composition as well as other musculoskeletal elements
In a proportional hazards model controlling for age, sex, race, education and baseline sarcopenia, each 1-SD higher score on a continuous sarcopenia scale was associated with lower hazards of death (HR 0.70, 95%CI [0.62, 0.78]), incident IADL (HR 0.80,95%CI [0.70, 0.93]), incident ADL disability (HR 0.80 95%CI [71, 91]) and incident mobility disability (HR 0.81, 95%CI [0.70, 0.93])
Further analyses suggest that grip strength and gait speed rather than muscle mass drive the associations with all four adverse health outcomes
Summary
Aging is associated with degenerative and structural changes in muscle and body composition as well as other musculoskeletal elements. Consensus developed recommending measurements of both lean muscle mass together with loss of muscle function assessed by grip strength and/or gait speed to identify sarcopenia [2]. During this period, portable devices based on measures of electrical bioimpendance became available and led to a wealth of information about sarcopenia in aging adults. Portable devices based on measures of electrical bioimpendance became available and led to a wealth of information about sarcopenia in aging adults These new data have led to a reassessment of the independent role of lean muscle mass metrics as part of the construct of sarcopenia as well as the recognition of the difficulties of using categorical measures for the capturing the heterogeneity of aging phenotypes in old age [3, 4]. This study tested the hypothesis that sarcopenia and its constituent components, reduced lean muscle mass and impaired motor function, are associated with reduced survival and increased risk of incident disabilities
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