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Warren G. Young
Researcher at Scripps Research Institute
Publications - 26
Citations - 2030
Warren G. Young is an academic researcher from Scripps Research Institute. The author has contributed to research in topics: Hippocampal formation & Dentate gyrus. The author has an hindex of 18, co-authored 26 publications receiving 1946 citations. Previous affiliations of Warren G. Young include Torrey Pines Institute for Molecular Studies & Scripps Health.
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Journal ArticleDOI
Numbers of meynert and layer IVB cells in area V1: a stereologic analysis in young and aged macaque monkeys.
TL;DR: Analysis of the effect of aging on two well‐characterized neuronal populations in the primary visual cortex of macaque monkeys suggests that the deficits that occur during aging in the visual system are not due to the loss of highly specific neocortical neuronal populations, such as those analyzed in this study.
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Effects of social deprivation in prepubescent rhesus monkeys: immunohistochemical analysis of the neurofilament protein triplet in the hippocampal formation
Steven J. Siegel,Stephen D. Ginsberg,Patrick R. Hof,Stephen L. Foote,Warren G. Young,Gary W. Kraemer,William T. McKinney,John H. Morrison +7 more
TL;DR: Results suggest that constitutive chemical components related to structural integrity may be as susceptible to early environmental manipulations as the more traditionally viewed measures of cellular perturbations, such as neurotransmitter dynamics, cell density and the establishment of connectivity.
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Noradrenergic innervation of vasopressin-and oxytocin-containing neurons in the hypothalamic paraventricular nucleus of the macaque monkey: Quantitative analysis using double-label immunohistochemistry and confocal laser microscopy
TL;DR: Qualitative assessment of immunohistochemically identified magnocellular cells indicated that vasopressin‐ and oxytocin‐containing neurons are observed throughout the rostrocaudal extent of the monkey hypothalamic paraventricular nucleus, demarcating this structure from the surrounding anterior hypothalamus.
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High-throughput Morphometric Analysis of Individual Neurons
TL;DR: The present protocol provides a high-throughput strategy for full-scale quantitative analysis of three-dimensional neuronal morphology with optimized spatio-temporal diOlistic loading parameters, along with image acquisition parameters optimized for subsequent photoconversion.
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Mouse models of human neurodegenerative disorders: requirements for medication development.
TL;DR: Evidence for Alzheimer disease suggests some starting requirements for the experimental data that could enhance the likelihood of developing medications in these mouse models that would also be effective in humans.