Abstract
ABSTRACT Humans can be classified as early, intermediate and late chronotypes based on their preferred sleep and wakefulness patterns. Eveningness is associated with increased risk of developing several psychiatric conditions, such as major depressive and addictive disorders, however, the anatomical basis of chronotype distinctions, which might predispose to the above conditions, remains largely unexplored. Using magnetic resonance imaging data from 113 healthy young adults (71 females), we aimed to correlate individual chronotype scores with cortical thickness, as well as subcortical and cerebellar grey matter volume. The results revealed one cluster located in the left fusiform and entorhinal gyri showing increased cortical thickness with increasing preference for eveningness. These structures are well positioned to mediate well-established chronotype differences in affective processing, i.e. increased negative affect in late chronotypes. Furthermore, in line with the earlier findings, we found no differences in subcortical and cerebellar grey matter volume. Thus, our study confirms that circadian preference is associated with specific structural cortical substrates and provides a potential anatomical basis for differential affective functioning in morning- and evening-oriented individuals, bridging the gap between brain structure and function.
Highlights
Human physiology is characterised by circadian rhythmicity
The analysis revealed that the chronotype score was positively correlated with cortical thickness in the left fusiform and entorhinal gyri (p < 0.05)
The cortical thickness analysis revealed that late chronotype (LC) had a thicker cortex in the left fusiform and entorhinal gyri compared to Early chronotype (EC)
Summary
Human physiology is characterised by circadian rhythmicity. These patterns are evident at the cellular, system, and behavioural level (see Vadnie and McClung 2017 for review). The masterminds behind these rhythms are the suprachiasmatic nuclei, a pair of small structures located in the anterior part of the hypothalamus, above the optic chiasm. Humans are known to vary in their preferred time of sleep and wakefulness, reflecting differential functioning of the above system. These individual differences in circadian rhythms are known as chronotypes. Despite the growing interest in functional brain imaging research in the field of chronobiology, studies regarding the anatomical differences in that context are still lacking
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