Physiological determinants of mechanical efficiency during advanced ageing and disuse

This study aimed to determine which physiological factors impact net efficiency (eta net) in oldest-old individuals at different stages of skeletal muscle disuse. To this aim, we examined eta net, central haemodynamics, peripheral circulation, and peripheral factors (skeletal muscle fibre type, capillarization and concentration of mitochondrial DNA [mtDNA]). Twelve young (YG; 25 +/- 2 years), 12 oldest-old mobile (OM; 87 +/- 3 years), and 12 oldest-old immobile (OI; 88 +/- 4 years) subjects performed dynamic knee extensor (KE) and elbow flexors (EF) exercise. Pulmonary oxygen uptake, photoplethysmography, Doppler ultrasound and muscle biopsies of the vastus lateralis and biceps brachii were used to assess central and peripheral adaptations to advanced ageing and disuse. Compared to the YG (12.1 +/- 2.4%), the eta net of lower-limb muscle was higher in the OM (17.6 +/- 3.5%, P < 0.001), and lower in the OI (8.9 +/- 1.9%, P < 0.001). These changes in eta net during KE were coupled with significant peripheral adaptations, revealing strong correlations between eta net and the proportion of type I muscle fibres (r = 0.82), as well as [mtDNA] (r = 0.77). No differences in eta net were evident in the upper-limb muscles between YG, OM and OI. In view of the differences in limb-specific activity across the lifespan, these findings suggest that eta net is reduced by skeletal muscle inactivity and not by chronological age, per se. Likewise, this study revealed that the age-related changes in eta net are not a consequence of central or peripheral haemodynamic adaptations, but are likely a product of peripheral changes related to skeletal muscle fibre type and mitochondrial density.