Age-related differences in lower extremity tissue compartments and associations with physical function in older adults

Abstract

The lower extremities are important to performing physical activities of daily life. This study investigated lower extremity tissue composition, i.e. muscle and fat volumes, in young and older adults and the relative importance of individual tissue compartments to the physical function of older adults. A total of 43 older (age 78.3±5.6 years) and 20 younger (age 23.8±3.9 years) healthy men and women participated in the study. Older participants were further classified as either high- (HF) or low-functioning (LF) according to the Short Physical Performance Battery (SPPB). Magnetic resonance images were used to determine the volumes of skeletal muscle, subcutaneous fat (SAT), and intermuscular fat (IMAT) in the thigh (femoral) and calf (tibiofibular) regions. After adjusting for the sex of participants, younger participants had more femoral muscle mass than older adults (p<0.001 for between group differences) as well as less femoral IMAT (p=0.008) and tibiofibular IMAT (p<0.001). Femoral muscle was the only tissue compartment demonstrating a significant difference between the two older groups, with HF participants having 31% more femoral muscle mass than LF participants (mean difference=103.0±34.0 cm(3); p=0.011). In subsequent multiple regression models including tissue compartments and demographic confounders, femoral muscle was the primary compartment associated with both SPPB score (r(2)=0.264, p=0.001) and 4-meter gait speed (r(2)=0.187, p=0.007). These data suggest that aging affects all lower extremity compartments, but femoral muscle mass is the major compartment associated with physical function in older adults.

Copyright © 2011 Elsevier Inc. All rights reserved.

Figures

Figure 1

Representative magnetic resonance images of the femoral region collected at 3T from A) young B) high-functioning older, and C) low-functioning older study groups.

Figure 2

Volumes of skeletal muscle, subcutaneous adipose tissue (SAT), and intermuscular adipose tissue (IMAT) in the femoral and tibiofibular regions expressed A) in absolute terms (cm3) and B) as a percentage (%) of total region volume. Columns represent group sex-adjusted means, error bars indicate standard error. Groups sharing a common symbol (i.e. a, b, or c) were not significantly different at α = 0.05. High Fxn = High-functioning older adults; Low Fxn = Low-functioning older adults. Functional status of older adults was determined based on the participants’ score on the Short Physical Performance Battery (SPPB).

Figure 3

Scatterplot demonstrating the linear relationships, including Spearman’s correlation coefficient, between lower extremity skeletal muscle volumes and score on the Short Physical Performance Battery among high- and low-functioning older adults.

Figure 4

Scatterplot demonstrating the linear relationships, including Pearson’s correlation coefficient, between lower extremity skeletal muscle volumes and self-selected gait speed among high- and low-functioning older adults.