Abstract
We investigated beta-band intermuscular coherence (IMC) in 92 healthy adults stratified by decade of age, and analysed variability between and within subjects. In the dominant upper limb, IMC was estimated between extensor digitorum communis and first dorsal interosseous as well as between flexor digitorum superficialis and first dorsal interosseous. In the ipsilateral lower limb, IMC was measured between medial gastrocnemius and extensor digitorum brevis as well as between tibialis anterior and extensor digitorum brevis. Age-related changes in IMC were analysed with age as a continuous variable or binned by decade. Intrasession variance of IMC was examined by dividing sessions into pairs of epochs and comparing coherence estimates between these pairs. Eight volunteers returned for a further session after one year, allowing us to compare intrasession and intersession variance. We found no age-related changes in IMC amplitude across almost six decades of age, allowing us to collate data from all ages into an aggregate normative dataset. Interindividual variability ranged over two orders of magnitude. Intrasession variance was significantly greater than expected from statistical variability alone, and intersession variance was even larger. Potential contributors include fluctuations in task performance, differences in electrode montage and short-term random variation in central coupling. These factors require further exploration and, where possible, minimisation. This study provides evidence that coherence is remarkably robust to senescent changes in the nervous system and provides a large normative dataset for future applications of IMC as a biomarker in disease states.
Highlights
Beta-band (15-30Hz) oscillations are demonstrable in the motor systems of monkeys [1] and humans [2,3,4]
These oscillations are coherent between sensorimotor cortex and contralateral muscles [4,5,6,7], between cocontracting muscles within one limb [6] and between single motor units in one muscle [8]
We found that beta-band intermuscular coherence (IMC) did not change significantly across adulthood, and was highly variable between subjects
Summary
Beta-band (15-30Hz) oscillations are demonstrable in the motor systems of monkeys [1] and humans [2,3,4]. During sustained contractions, these oscillations are coherent between sensorimotor cortex and contralateral muscles (corticomuscular coherence, CMC) [4,5,6,7], between cocontracting muscles within one limb (intermuscular coherence, IMC) [6] and between single motor units in one muscle (intramuscular coherence, IntraMC) [8]. Whilst measured between different pairs of signals, CMC, IMC and IntraMC reflect the same central coupling mechanism. Often deemed a purely efferent phenomenon mediated by the corticospinal
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