Pradeep G. Bhide mostly deals with Neuroscience, Neurogenesis, Striatum, Cell cycle and Population. The Neuroscience study combines topics in areas such as Homeobox and Angiogenesis. In his study, which falls under the umbrella issue of Neurogenesis, Matrix metalloproteinase, Cell migration, GM6001, Extracellular matrix and Neuroblast is strongly linked to Subventricular zone.
His Striatum course of study focuses on Globus pallidus and Pathology. His Cell cycle study combines topics from a wide range of disciplines, such as Neuroprotection, Molecular biology, Transgene and Cell biology. His Dopamine research incorporates themes from Ganglionic eminence and Neuroepithelial cell.
His scientific interests lie mostly in Neuroscience, Dopamine, Endocrinology, Internal medicine and Neurogenesis. His study in the field of Neocortex, Ganglionic eminence and Cerebral cortex also crosses realms of Population and Prenatal cocaine exposure. His work carried out in the field of Ganglionic eminence brings together such families of science as Basal ganglia and Neuroepithelial cell.
His research investigates the connection with Cerebral cortex and areas like Central nervous system which intersect with concerns in Visual cortex and Neuron. His Dopamine research includes themes of Brain Structure and Function, Monoamine neurotransmitter and Methylphenidate. His Endocrinology research includes elements of Dystonia and Dystonia Musculorum Deformans.
Pradeep G. Bhide spends much of his time researching Neuroscience, Nicotine, Attention deficit hyperactivity disorder, Working memory and Dopamine. His research integrates issues of Neurotrophic factors and Tropomyosin receptor kinase B in his study of Neuroscience. The various areas that Pradeep G. Bhide examines in his Nicotine study include Offspring, Pregnancy, Physiology and Developmental psychology.
He has researched Attention deficit hyperactivity disorder in several fields, including Cingulate cortex and Comorbidity. His Working memory study combines topics in areas such as Receptor and Autism spectrum disorder. The Dopamine receptor research he does as part of his general Dopamine study is frequently linked to other disciplines of science, such as Population, therefore creating a link between diverse domains of science.
His main research concerns Neuroscience, Nicotine, Dopamine, Attention deficit hyperactivity disorder and Methylphenidate. He has included themes like Neural development, Transduction and Cell migration in his Neuroscience study. His research investigates the link between Nicotine and topics such as Physiology that cross with problems in DNA methylation, Dopamine receptor D2, Monoamine neurotransmitter and Dopamine receptor.
His Dopamine study integrates concerns from other disciplines, such as Nicotine replacement therapy and Prefrontal cortex. His Prefrontal cortex research incorporates elements of Neurogenesis, Cerebral cortex, Inhibitory postsynaptic potential and Neuron. His Attention deficit hyperactivity disorder research is multidisciplinary, incorporating elements of Offspring, Working memory, Cognition, Severity of illness and Comorbidity.
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Early and progressive accumulation of reactive microglia in the Huntington disease brain.
E. Sapp;K. B. Kegel;N. Aronin;T. Hashikawa.
Journal of Neuropathology and Experimental Neurology (2001)
Huntingtin localization in brains of normal and Huntington's disease patients.
E. Sapp;C. Schwarz;K. Chase;P. G. Bhide.
Annals of Neurology (1997)
Involvement of matrix metalloproteinase in neuroblast cell migration from the subventricular zone after stroke
Seong Ryong Lee;Hahn Young Kim;Jadwiga Rogowska;Bing Qiao Zhao.
The Journal of Neuroscience (2006)
Mild cerebral ischemia induces loss of cyclin-dependent kinase inhibitors and activation of cell cycle machinery before delayed neuronal cell death.
Juri Katchanov;Christoph Harms;Karen Gertz;Ludger Hauck.
The Journal of Neuroscience (2001)
Expression of Normal and Mutant Huntingtin in the Developing Brain
Pradeep G. Bhide;Michelle Day;Ellen Sapp;Cordula Schwarz.
The Journal of Neuroscience (1996)
Dopamine Modulates Cell Cycle in the Lateral Ganglionic Eminence
Nobuyo Ohtani;Tomohide Goto;Christian Waeber;Pradeep G. Bhide.
The Journal of Neuroscience (2003)
Cell Output, Cell Cycle Duration and Neuronal Specification: a Model of Integrated Mechanisms of the Neocortical Proliferative Process
V.S. Caviness;T. Goto;T. Tarui;T. Takahashi.
Cerebral Cortex (2003)
Compartment-specific transcription factors orchestrate angiogenesis gradients in the embryonic brain.
Anju Vasudevan;Jason E Long;James E Crandall;John L R Rubenstein.
Nature Neuroscience (2008)
Dopamine Receptor Activation Modulates GABA Neuron Migration from the Basal Forebrain to the Cerebral Cortex
James E. Crandall;Deirdre M. McCarthy;Kiyomi Y. Araki;John R. Sims.
The Journal of Neuroscience (2007)
Dopamine receptor mRNA and protein expression in the mouse corpus striatum and cerebral cortex during pre- and postnatal development.
Kiyomi Y. Araki;John R. Sims;Pradeep G. Bhide.
Brain Research (2007)
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