Nobuo Okado mostly deals with Anatomy, Neuroscience, Internal medicine, Endocrinology and Spinal cord. The concepts of his Anatomy study are interwoven with issues in Substance P, Immunostaining, Nucleus and Pathology. His study in the fields of Neocortex, Central nervous system, Afferent and Dorsal root ganglion under the domain of Neuroscience overlaps with other disciplines such as RUNX1.
His Internal medicine research is multidisciplinary, relying on both Neurodevelopmental disorder and Autism. His work in the fields of Spinal cord, such as Lumbar Spinal Cord, overlaps with other areas such as Tropomyosin receptor kinase C. His studies deal with areas such as Prenatal stress and Hippocampus as well as Serotonin.
The scientist’s investigation covers issues in Spinal cord, Anatomy, Serotonin, Internal medicine and Endocrinology. His study in Spinal cord is interdisciplinary in nature, drawing from both Immunocytochemistry, Lamina, Cholera toxin and Central nervous system. The Neurotransmitter research Nobuo Okado does as part of his general Central nervous system study is frequently linked to other disciplines of science, such as White matter, therefore creating a link between diverse domains of science.
His Anatomy research incorporates themes from Lumbar Spinal Cord, Nucleus, Embryo and Immunohistochemistry. His study looks at the relationship between Serotonin and topics such as Neuroscience, which overlap with Monoamine neurotransmitter. His study in the fields of Tyrosine hydroxylase under the domain of Endocrinology overlaps with other disciplines such as In situ hybridization.
His primary areas of investigation include Serotonin, Endocrinology, Internal medicine, Neuroscience and Cell biology. In his research, In vitro, Synaptic plasticity and NMDA receptor is intimately related to Agonist, which falls under the overarching field of Serotonin. His work deals with themes such as Neurodevelopmental disorder and Autism, which intersect with Endocrinology.
His study looks at the relationship between Neuroscience and fields such as Receptor, as well as how they intersect with chemical problems. His Cell biology study combines topics in areas such as Dorsal root ganglion, Spinal cord, Cholinergic neuron and Nervous system. His Spinal cord research includes themes of Proprioception, Neurite and Afferent.
His primary areas of study are Internal medicine, Endocrinology, Serotonin, Hippocampus and Serotonergic. His Internal medicine research is multidisciplinary, incorporating elements of Neurodevelopmental disorder and Autism. The study incorporates disciplines such as Prenatal stress and 5-HT receptor in addition to Endocrinology.
The various areas that Nobuo Okado examines in his Serotonin study include Chronic fatigue syndrome, Gene polymorphism and Polymorphism. His Hippocampus study integrates concerns from other disciplines, such as Receptor, Biochemistry, Excitatory postsynaptic potential, AMPA receptor and Environmental enrichment. The Serotonergic study combines topics in areas such as Monoamine neurotransmitter and Dopamine.
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Runx3 controls the axonal projection of proprioceptive dorsal root ganglion neurons
Ken-ichi Inoue;Shigeru Ozaki;Takashi Shiga;Kosei Ito;Kosei Ito.
Nature Neuroscience (2002)
Maternal stress induces synaptic loss and developmental disabilities of offspring.
Aska Hayashi;Masaaki Nagaoka;Kazuo Yamada;Yukio Ichitani.
International Journal of Developmental Neuroscience (1998)
Increased Monoamine Concentration in the Brain and Blood of Fetal Thalidomide- and Valproic Acid–Exposed Rat: Putative Animal Models for Autism
Naoko Narita;Michiko Kato;Mami Tazoe;Kaoru Miyazaki.
Pediatric Research (2002)
Serotonin transporter gene variation is a risk factor for sudden infant death syndrome in the Japanese population.
Naoko Narita;Masaaki Narita;Sachio Takashima;Masahiro Nakayama.
Descending input from the hypothalamic paraventricular nucleus to sympathetic preganglionic neurons in the rat.
Y. Hosoya;Y. Sugiura;N. Okado;A. D. Loewy.
Experimental Brain Research (1991)
Serum neurotrophin concentrations in autism and mental retardation: a pilot study.
Kaoru Miyazaki;Naoko Narita;Naoko Narita;Ryoichi Sakuta;Tomoko Miyahara.
Brain & Development (2004)
The cells of origin of the trigeminothalamic, trigeminospinal and trigeminocerebellar projections in the cat.
M. Matsushita;M. Ikeda;N. Okado.
Selective serotonin reuptake inhibitor treatment of early postnatal mice reverses their prenatal stress-induced brain dysfunction.
H. Ishiwata;T. Shiga;N. Okado.
Localization of 5-HT2A Receptor in rat cerebral cortex and olfactory system revealed by immunohistochemistry using two antibodies raised in rabbit and chicken
Shun Hamada;Kouji Senzaki;Kayoko Hamaguchi-Hamada;Katsuhiko Tabuchi.
Molecular Brain Research (1998)
The onset and development of descending pathways to the spinal cord in the chick embryo.
Nobuo Okado;Ronald W. Oppenheim.
The Journal of Comparative Neurology (1985)
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