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Daylength and the rates of changes in daylength have been associated with seasonal fluctuations in psychiatric symptoms and in cognition and mood in healthy adults. However, variations in human brain glucose metabolism in concordance with seasonal changes remain under explored.
Methods
In this cross-sectional study, we examined seasonal effects on brain glucose metabolism, which we measured using 18F-fluorodeoxyglucose-PET in 97 healthy participants. To maximize the sensitivity of regional effects, we computed relative metabolic measures by normalizing the regional measures to white matter metabolism. Additionally, we explored the role of rest–activity rhythms/sleep–wake activity measured with actigraphy in the seasonal variations of regional brain metabolic activity.
Results
We found that seasonal variations of cerebral glucose metabolism differed across brain regions. Glucose metabolism in prefrontal regions increased with longer daylength and with greater day-to-day increases in daylength. The cuneus and olfactory bulb had the maximum and minimum metabolic values around the summer and winter solstice respectively (positively associated with daylength), whereas the temporal lobe, brainstem, and postcentral cortex showed maximum and minimum metabolic values around the spring and autumn equinoxes, respectively (positively associated with faster daylength gain). Longer daylength was associated with greater amplitude and robustness of diurnal activity rhythms suggesting circadian involvement.
Conclusions
The current findings advance our knowledge of seasonal patterns in a key indicator of brain function relevant for mood and cognition. These data could inform treatment interventions for psychiatric symptoms that peak at specific times of the year.
This chapter deals with the developmental theories of schizophrenia to provide a foundation for a discussion of functional brain imaging studies of childhood-onset schizophrenia. Neurochemical brain imaging methodologies have permitted testing of the dopamine hypothesis of schizophrenia. Clinical studies have demonstrated prominent premorbid developmental delays in childhood-onset schizophrenia, especially in the areas of speech and language. Neurobiologic studies of the NIMH childhood-onset schizophrenia sample have generally supported neurobiologic continuity between childhood- and adult-onset schizophrenia. Very few functional brain imaging studies have been conducted in patients with childhood-onset schizophrenia. The only study of cerebral glucose metabolism in childhood-onset schizophrenia has been conducted with a subset of the National Institute of Mental Health (NIMH) childhood-onset schizophrenia sample. The finding of cerebellar hypermetabolism in childhood-onset schizophrenia, seen with both data analytic approaches, is notable in light of recent evidence implicating the cerebellum in higher cortical processes.
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