Henry Sershen mainly investigates Pharmacology, Dopamine, NMDA receptor, Nucleus accumbens and Internal medicine. His Pharmacology research integrates issues from Agonist, Amphetamine and Ibogaine, Tabernanthe iboga, Noribogaine. Prefrontal cortex and Glutamate receptor is closely connected to Psychosis in his research, which is encompassed under the umbrella topic of Amphetamine.
His study in Dopaminergic, Ventral tegmental area and Microdialysis is carried out as part of his Dopamine studies. He has researched NMDA receptor in several fields, including Glycine and Glycine transport. His research on Internal medicine frequently connects to adjacent areas such as Endocrinology.
Henry Sershen focuses on Dopamine, Pharmacology, Internal medicine, Endocrinology and Neuroscience. His biological study spans a wide range of topics, including NMDA receptor, Nicotine and Neurotransmitter. His work in Nicotine addresses issues such as Nucleus accumbens, which are connected to fields such as Ventral tegmental area.
His Pharmacology research is multidisciplinary, incorporating elements of Agonist, Serotonergic, Nicotinic agonist, Phencyclidine and Ibogaine. Henry Sershen interconnects Anesthesia and Antagonist in the investigation of issues within Endocrinology. The Prefrontal cortex research Henry Sershen does as part of his general Neuroscience study is frequently linked to other disciplines of science, such as Neurofilament, therefore creating a link between diverse domains of science.
His scientific interests lie mostly in NMDA receptor, Internal medicine, Phencyclidine, Neuroscience and Endocrinology. His study on Appetite is often connected to Betahistine as part of broader study in Internal medicine. His Phencyclidine study incorporates themes from Glutamatergic and Pharmacology.
The study incorporates disciplines such as Glycine, Glycine transport and Dopamine in addition to Glutamatergic. Henry Sershen combines subjects such as Dopaminergic and Nucleus accumbens with his study of Pharmacology. His Endocrinology research is mostly focused on the topic Amphetamine.
The scientist’s investigation covers issues in NMDA receptor, Pharmacology, Dopamine, Schizophrenia and Phencyclidine. His NMDA receptor research incorporates themes from Neuroscience and Neurotransmission. His Pharmacology research incorporates elements of Glycine, Glycine transport, Receptor and Glutamatergic.
His work on Dopaminergic as part of general Dopamine study is frequently linked to Binge drinking, bridging the gap between disciplines. His studies in Schizophrenia integrate themes in fields like Varenicline, Randomized controlled trial and Cotinine. Phencyclidine is a subfield of Internal medicine that Henry Sershen explores.
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Effect of nicotine on extracellular levels of neurotransmitters assessed by microdialysis in various brain regions: Role of glutamic acid
E. Toth;H. Sershen;A. Hashim;E. S. Vizi.
Neurochemical Research (1992)
Characterization of nicotinic receptors involved in the release of noradrenaline from the hippocampus
H Sershen;A Balla;A Lajtha;E.S Vizi.
INHIBITION PATTERN BY ANALOGS INDICATES THE PRESENCE OF TEN OR MORE TRANSPORT SYSTEMS FOR AMINO ACIDS IN BRAIN CELLS
Henry Sershen;Abel Lajtha.
Journal of Neurochemistry (1979)
Capillary transport of amino acids in the developing brain.
Henry Sershen;Abel Lajtha.
Experimental Neurology (1976)
Saturable (3H)cocaine binding in central nervous system of mouse.
Maarten E.A. Reith;Henry Sershen;Abel Lajtha.
Life Sciences (1980)
Inhibition of System A-mediated glycine transport in cortical synaptosomes by therapeutic concentrations of clozapine: implications for mechanisms of action
D C Javitt;L Duncan;A Balla;H Sershen.
Molecular Psychiatry (2005)
Reversal of phencyclidine-induced effects by glycine and glycine transport inhibitors
Daniel C Javitt;Andrea Balla;Henry Sershen;Abel Lajtha.
Biological Psychiatry (1999)
Reversal of phencyclidine-induced dopaminergic dysregulation by N-methyl-D-aspartate receptor/glycine-site agonists.
Daniel C Javitt;Andrea Balla;Sarah Burch;Ray Suckow.
Effects of transcranial direct current stimulation (tDCS) on cognition, symptoms, and smoking in schizophrenia: A randomized controlled study.
Robert C. Smith;Sylvia Boules;Sanela Mattiuz;Mary Youssef.
Schizophrenia Research (2015)
Nicotine-induced changes in neurotransmitter levels in brain areas associated with cognitive function.
S Singer;S Rossi;S Verzosa;A Hashim.
Neurochemical Research (2004)
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