Body cell mass to fat-free mass ratio and extra-to-intracellular water ratio are related to maximal oxygen uptake.
Yosuke YamadaTsukasa YoshidaHaruka MurakamiYuko GandoRyoko KawakamiHarumi OhnoKumpei TaniswaKana KonishiJulien TripetteEmi KondoTakashi NakagataHinako NanriMotohiko MiyachiPublished in: The journals of gerontology. Series A, Biological sciences and medical sciences (2023)
Fat-free mass (FFM) is a heterogeneous compartment comprising body cell mass (BCM), intracellular water (ICW), extracellular solids, and extracellular water (ECW). The BCM/FFM and ECW/ICW ratios vary among individuals and decrease with age. This study aimed to determine whether BCM/FFM and ECW/ICW ratios are predictors of maximal oxygen uptake (V̇O2peak) independently of age, sex, and objectively measured physical activity (PA). A total of 115 Japanese males and females, aged 55.3 ± 8.0 years (mean ± standard deviation), were included in the study. Anthropometry, explosive leg muscle power, and V̇O2peak were measured, and BCM, FFM, ICW, and ECW were estimated. Step count and PA were objectively measured using a triaxial accelerometer. Blood flow volume was assessed using ultrasonography. BCM and ICW were negatively correlated with age, whereas FFM and ECW were not significantly correlated with age. FFM, ICW/ECW, BCM/FFM, step counts, moderate and vigorous PA, and leg muscle power were positively correlated with V̇O2peak, even after adjusting for age and sex (P<0.05). Multiple regression analysis indicated that either BCM/FFM or ECW/ICW, leg power, and objectively measured PA were associated with V̇O2peak independent of age, sex, and FFM. Blood flow volume was significantly correlated with ECW (P<0.05), but not with BCM. The BCM/FFM and ECW/ICW ratios were significant predictors of VO2peak, independent of age, sex, FFM, leg power, and objectively measured PA.