Abstract
The recovery of muscle oxygen consumption (mV˙O2) after exercise measured using near‐infrared spectroscopy (NIRS) provides a measure of skeletal muscle mitochondrial capacity. Nevertheless, due to sex differences in factors that can influence scattering and thus penetration depth of the NIRS signal in the tissue, e.g., subcutaneous adipose tissue thickness and intramuscular myoglobin and hemoglobin, it is unknown whether results in males can be extrapolated to a female population. Therefore, the aim of this study was to measure skeletal muscle mitochondrial capacity in females at different levels of aerobic fitness to test whether NIRS can measure relevant differences in mitochondrial capacity. Mitochondrial capacity was analyzed in the gastrocnemius muscle and the wrist flexors of 32 young female adults, equally divided in relatively high (V˙O2peak ≥ 47 ml/kg/min) and relatively low aerobic fitness group (V˙O2peak ≤ 37 ml/kg/min). mV˙O2 recovery was significantly faster in the high‐ compared to the low‐fitness group in the gastrocnemius, but not in the wrist flexors (p = 0.009 and p = 0.0528, respectively). Furthermore, V˙O2peak was significantly correlated to mV˙O2 recovery in both gastrocnemius (R 2 = 0.27, p = 0.0051) and wrist flexors (R 2 = 0.13, p = 0.0393). In conclusion, NIRS measurements can be used to assess differences in mitochondrial capacity within a female population and is correlated to V˙O2peak. This further supports NIRS assessment of muscle mitochondrial capacity providing additional evidence for NIRS as a promising approach to monitor mitochondrial capacity, also in an exclusively female population.
Highlights
Regular endurance exercise increases whole-body peak oxygen uptake (V O2peak) due to bodily adaptations that increase oxygen transport, delivery and consumption
In a normally active male population, we previously showed that near-infrared spectroscopy (NIRS) is able to detect differences in mitochondrial capacity in the gastrocnemius muscle between relatively high-and low-fitness subjects, and this NIRS-derived measure of mitochondrial capacity was correlated to V O2peak (Lagerwaard et al, 2019)
The aim of this study is to measure skeletal muscle mitochondrial capacity in healthy females at different levels of aerobic fitness to further support the applicability of NIRS assessment of mitochondrial capacity in this population
Summary
Regular endurance exercise increases whole-body peak oxygen uptake (V O2peak) due to bodily adaptations that increase oxygen transport, delivery and consumption. At the level of the skeletal muscle, maximal oxygen consumption increases due to an increase in muscle mitochondrial mass and function (Lanza & Nair, 2009). The exact contribution of this increased skeletal muscle oxidative capacity to the improved V O2peak after regular endurance exercise remains debated. Skeletal muscle oxidative or mitochondrial capacity is analyzed ex vivo, by measuring oxygen consumption in permeabilized muscle fibers from muscle biopsies. The invasive nature of this technique, the isolation of the tissue from its physiological environment, as well as the infringement of cell integrity by the permeabilization procedure provides a rationale for non-invasive assessment of muscle mitochondrial capacity in an intact system
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