Abstract
PurposeThe recovery of muscle oxygen consumption (mdot{V}O2) after exercise provides a measure of skeletal muscle mitochondrial capacity, as more and better-functioning mitochondria will be able to restore mdot{V}O2 faster to the pre-exercise state. The aim was to measure muscle mitochondrial capacity using near-infrared spectroscopy (NIRS) within a healthy, normally active population and relate this to parameters of aerobic fitness, investigating the applicability and relevance of using NIRS to assess muscle mitochondrial capacity non-invasively.MethodsMitochondrial capacity was analysed in the gastrocnemius and flexor digitorum superficialis (FDS) muscles of eight relatively high-aerobic fitness (dot{V}O2peak ≥ 57 mL/kg/min) and eight relatively low-aerobic fitness male subjects (dot{V}O2peak ≤ 47 mL/kg/min). Recovery of whole body dot{V}O2, i.e. excess post-exercise oxygen consumption (EPOC) was analysed after a cycling protocol.ResultsMitochondrial capacity, as analysed using NIRS, was significantly higher in high-fitness individuals compared to low-fitness individuals in the gastrocnemius, but not in the FDS (p = 0.0036 and p = 0.20, respectively). Mitochondrial capacity in the gastrocnemius was significantly correlated with dot{V}O2peak (R2 = 0.57, p = 0.0019). Whole body dot{V}O2 recovery was significantly faster in the high-fitness individuals (p = 0.0048), and correlated significantly with mitochondrial capacity in the gastrocnemius (R2 = 0.34, p = 0.028).ConclusionNIRS measurements can be used to assess differences in mitochondrial muscle oxygen consumption within a relatively normal, healthy population. Furthermore, mitochondrial capacity correlated with parameters of aerobic fitness (dot{V}O2peak and EPOC), emphasising the physiological relevance of the NIRS measurements.
Highlights
Muscle mitochondrial mass and function are positively affected by regular endurance exercise (Tonkonogi and Sahlin 2002)
Our results show that the present near-infrared spectroscopy (NIRS) protocol was able to discriminate high-fitness and low-fitness individuals within a relatively homogenous group, i.e. young, healthy and normally active males, based on post-exercise mV O2 recovery
This study provides evidence that NIRS measurements can be used to assess differences in mitochondrial muscle oxygen consumption within a relatively normal, healthy population
Summary
Muscle mitochondrial mass and function are positively affected by regular endurance exercise (Tonkonogi and Sahlin 2002). Due to the pivotal role of mitochondria in determining endurance capacity, there is a need for robust and non-invasive measurements of muscle mitochondrial function (Lanza and Nair 2009). Mitochondrial function in skeletal muscle is classically analysed ex vivo by measuring oxygen consumption in muscle biopsies. Less-invasive techniques have emerged over the last quarter century, allowing the measurement of mitochondrial function in vivo. These techniques are both based on the recovery of muscle. Mitochondrial function analysed by both techniques have been shown to be in good agreement with each other (Ryan et al 2013), but NIRS offers advantages over 31P-MRS due to its higher portability and relatively low costs, making it more suitable for on-site and routine measurements
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