Journal article
Altered EEG power spectrum, but not sleep-wake architecture, in HCN1 knockout mice
LE Bleakley, RJ Keenan, RD Graven, JA Metha, S Ma, H Daykin, L Cornthwaite-Duncan, D Hoyer, CA Reid, LH Jacobson
Behavioural Brain Research | ELSEVIER | Published : 2023
Abstract
Sleep is a complex biological state characterized by large populations of neurons firing in a rhythmic or synchronized manner. HCN channels play a critical role in generating and sustaining synchronized neuronal firing and are involved in the actions of anaesthetics. However, the role of these channels in sleep-wakefulness per se has yet to be studied. We conducted polysomnographic recordings of Hcn1 constitutive knockout (Hcn1 KO) and wild-type (WT) mice in order to investigate the potential role of HCN1 channels in sleep/wake regulation. EEG and EMG data were analysed using the Somnivore™ machine learning algorithm. Time spent in each vigilance state, bout number and duration, and EEG powe..
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Awarded by National Health and Medical Research Council
Funding Acknowledgements
Funding This work was supported by the Australian Government National Health and Medical Research Council (NHMRC) grants 1105284 and 2003370 to DH and LHJ, and NHMRC grant 1143101 to CAR. LEB ac- knowledges the support of an Australian Government Research Training Program Scholarship.