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Coordinated human sleeping brainwaves map peripheral body glucose homeostasis

Raphaël Vallat, Vyoma D. Shah, Matthew P. Walker

2023Cell Reports Medicine39 citationsDOIOpen Access PDF

Abstract

Insufficient sleep impairs glucose regulation, increasing the risk of diabetes. However, what it is about the human sleeping brain that regulates blood sugar remains unknown. In an examination of over 600 humans, we demonstrate that the coupling of non-rapid eye movement (NREM) sleep spindles and slow oscillations the night before is associated with improved next-day peripheral glucose control. We further show that this sleep-associated glucose pathway may influence glycemic status through altered insulin sensitivity, rather than through altered pancreatic beta cell function. Moreover, we replicate these associations in an independent dataset of over 1,900 adults. Of therapeutic significance, the coupling between slow oscillations and spindles was the most significant sleep predictor of next-day fasting glucose, even more so than traditional sleep markers, relevant to the possibility of an electroencephalogram (EEG) index of hyperglycemia. Taken together, these findings describe a sleeping-brain-body framework of optimal human glucose homeostasis, offering a potential prognostic sleep signature of glycemic control.

Topics & Concepts

Sleep (system call)Glucose homeostasisNeuroscience of sleepHomeostasisDiabetes mellitusNon-rapid eye movement sleepGlycemicBlood sugarInternal medicineEndocrinologyMedicineElectroencephalographySleep deprivationInsulinPeripheralNeuroscienceBiologyInsulin resistanceCircadian rhythmOperating systemComputer scienceSleep and Wakefulness ResearchSleep and related disordersRegulation of Appetite and Obesity
Coordinated human sleeping brainwaves map peripheral body glucose homeostasis | Litcius