Steven P. Schettler scite author profile

Steven P. Schettler

3Publications

50Citation Statements Received

122Citation Statements Given

How they've been cited

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109

Affiliations

Boston University

Publications

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Age-related effects on cortical thickness patterns of the Rhesus monkey brain

Koo

Schettler

Murray

et al. 2012

Neurobiology of Aging

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The rhesus monkey is a useful model for examining age-related as well as other neurological and developmental effects on the brain, because of the extensive neuroanatomical homology to the human brain, the reduced occurrence of neurological diseases such as Alzheimer’s disease as well as the possibility of obtaining relevant behavioral data and post-mortem tissue for histological analyses. In this study, cortical thickness measurements based on a cortical surface modeling technique were applied for the first time to investigate cortical thickness patterns in the rhesus monkey brain, and were used to evaluate regional age related effects across a wide range of ages. Age-related effects were observed in several cortical areas, in particular in the somatosensory and motor cortices, where a robust negative correlation of cortical thickness with age was observed, similar to that found in humans. In contrast, results for monkeys compared to humans show significant inter-species differences in cortical thickness patterns in the frontal and the inferior temporal regions.

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Familial Circadian Rhythm Disorder in the Diurnal Primate, Macaca mulatta

et al. 2012

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In view of the inverse temporal relationship of central clock activity to physiological or behavioral outputs in diurnal and nocturnal species, understanding the mechanisms and physiological consequences of circadian disorders in humans would benefit from studies in a diurnal animal model, phylogenetically close to humans. Here we report the discovery of the first intrinsic circadian disorder in a family of diurnal non-human primates, the rhesus monkey. The disorder is characterized by a combination of delayed sleep phase, relative to light-dark cycle, mutual desynchrony of intrinsic rhythms of activity, food intake and cognitive performance, enhanced nighttime feeding or, in the extreme case, intrinsic asynchrony. The phenotype is associated with normal length of intrinsic circadian period and requires an intact central clock, as demonstrated by an SCN lesion. Entrainment to different photoperiods or melatonin administration does not eliminate internal desynchrony, though melatonin can temporarily reinstate intrinsic activity rhythms in the animal with intrinsic asynchrony. Entrainment to restricted feeding is highly effective in animals with intrinsic or SCN lesion-induced asynchrony. The large isolated family of rhesus macaques harboring the disorder provides a powerful new tool for translational research of regulatory circuits underlying circadian disorders and their effective treatment.

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Mapping of age-related cortical thickness changes in the Rhesus Macaque Monkeys

Koo¹,

Choi²,

Lee³

et al. 2009

NeuroImage

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