Abstract
Oscillatory activity in the beta (13–30 Hz) frequency band is widespread in cortico-basal ganglia circuits, and becomes prominent in Parkinson's disease (PD). Here we develop the hypothesis that the degree of synchronization in this frequency band is a critical factor in gating computation across a population of neurons, with increases in beta band synchrony entailing a loss of information-coding space and hence computational capacity. Task and context drive this dynamic gating, so that for each state there will be an optimal level of network synchrony, and levels lower or higher than this will impair behavioural performance. Thus, both the pathological exaggeration of synchrony, as observed in PD, and the ability of interventions like deep brain stimulation (DBS) to excessively suppress synchrony can potentially lead to impairments in behavioural performance. Indeed, under physiological conditions, the manipulation of computational capacity by beta activity may itself present a mechanism of action selection and maintenance.
Highlights
Rhythmic phenomena are a ubiquitous feature of the cortico-basal ganglia network
Oscillatory activity in the beta (13–30 Hz) frequency band is widespread in cortico-basal ganglia circuits, and becomes prominent in Parkinson’s disease (PD)
We develop the hypothesis that the degree of synchronization in this frequency band is a critical factor in gating computation across a population of neurons, with increases in beta band synchrony entailing a loss of information-coding space and computational capacity
Summary
Document Version Publisher's PDF, also known as Version of record Citation for published version (Harvard): Brittain, J, Sharott, A & Brown, P 2014, 'The highs and lows of beta activity in cortico-basal ganglia loops', European Journal of Neuroscience, vol 39, no. 11, pp. 1951-1959. https://doi.org/10.1111/ejn.12574
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