加藤忠史 日本の精神科医、精神医学者
加藤, 忠史, 1963-
Katō, Tadafumi 1963-
加藤, 忠史
Katō, Tadafumi
VIAF ID: 34100054 (Personal)
Permalink: http://viaf.org/viaf/34100054
Preferred Forms
- 100 1 _ ‡a Katō, Tadafumi
-
- 100 1 _ ‡a Katō, Tadafumi ‡d 1963-
- 100 1 _ ‡a 加藤, 忠史
- 100 1 _ ‡a 加藤, 忠史, ‡d 1963-
- 100 0 _ ‡a 加藤忠史 ‡c 日本の精神科医、精神医学者
4xx's: Alternate Name Forms (17)
Works
Title | Sources |
---|---|
Burein banku : Mirai eno kibo no okurimono. | |
Dobutsu ni utsu wa aru noka : Kokoro no yamai ga nakunaru hi. | |
Hypermethylation of serotonin transporter gene in bipolar disorder detected by epigenome analysis of discordant monozygotic twins. | |
Identification of Rare, Single-Nucleotide Mutations in NDE1 and Their Contributions to Schizophrenia Susceptibility. | |
Increased levels of a mitochondrial DNA deletion in the brain of patients with bipolar disorder | |
Kokoro datte karada desu. | |
Kokoro no byōki no saiensu | |
Koredake wa shitte okitai sokyokusei shogai : Souutsu ni hayame ni kizuki saihatsu o fusegu. | |
Linkage studies between affective disorder and dopamine D2, D3, and D4 receptor gene loci in four Japanese pedigrees | |
Lithium response and Val66Met polymorphism of the brain-derived neurotrophic factor gene in Japanese patients with bipolar disorder | |
Mei wa doko ni iru : Yoi seishinka shuji ni meguriau tame ni. | |
Mice with neuron-specific accumulation of mitochondrial DNA mutations show mood disorder-like phenotypes | |
Mitochondrial dysfunction in bipolar disorder: from 31P-magnetic resonance spectroscopic findings to their molecular mechanisms. | |
Neurobehavioral basis of the impaired nurturing in mice lacking the immediate early gene FosB. | |
Neurobiological basis of bipolar disorder: Mitochondrial dysfunction hypothesis and beyond | |
Neuronal cell-type specific DNA methylation patterns of the Cacna1c gene | |
Neurons show distinctive DNA methylation profile and higher interindividual variations compared with non-neurons | |
No to seishin shikkan. | |
Plasma Nervonic Acid Is a Potential Biomarker for Major Depressive Disorder: A Pilot Study | |
A population-specific uncommon variant in GRIN3A associated with schizophrenia. | |
Possibility of over-diagnosis of bipolar disorder due to near-infrared spectroscopy | |
A promoter haplotype of the inositol monophosphatase 2 gene (IMPA2) at 18p11.2 confers a possible risk for bipolar disorder by enhancing transcription | |
Quantitative evaluation of incomplete preweaning lethality in mice by using the CRISPR/Cas9 system | |
Reduction of brain phosphocreatine in bipolar II disorder detected by phosphorus-31 magnetic resonance spectroscopy | |
Regional cerebral blood flow in catatonic schizophrenia | |
Relationship of energy metabolism detected by 31P-MRS in the human brain with mental fatigue | |
Reply to "Correspondence to Ant1 mutant mice bridge the mitochondrial and serotonergic dysfunctions in bipolar disorder" | |
Rinsho nokagaku : Kokoro kara mita no. | |
The role of brain-derived neurotrophic factor (BDNF)-induced XBP1 splicing during brain development. | |
Search for plasma biomarkers in drug-free patients with bipolar disorder and schizophrenia using metabolome analysis. | |
Seishin no no kagaku. | |
Senmon'i no tame no seishinka rinsho ryumieru. | |
Serotonin 6 receptor gene and mood disorders: case-control study and meta-analysis | |
Serotonin transporter gene polymorphisms: ethnic difference and possible association with bipolar affective disorder | |
SIRT1 gene, schizophrenia and bipolar disorder in the Japanese population: an association study | |
Sōkyokusei shōgai : Byōtai no rikai kara chiryō senryaku made | |
Sokyokusei shogai souutsubyo no hito no kimochi o kangaeru hon : Fushigi na kokoro no mekanizumu ga hitome de wakaru. | |
Sokyokusho to shindan sareta toki yomu hon : Tadashi rikai to kankai eno hinto. | |
Somatic mutations in the human brain: implications for psychiatric research | |
Souutsubyo to tsukiau. | |
Souutsubyo wa kokomade wakatta. | |
Systematic analysis of exonic germline and postzygotic de novo mutations in bipolar disorder | |
A systematic evaluation of whole genome amplification of bisulfite-modified DNA | |
TACKLING BIPOLAR DISORDER | |
Transport Response is a filial-specific behavioral response to maternal carrying in C57BL/6 mice. | |
Up-regulation of ADM and SEPX1 in the lymphoblastoid cells of patients in monozygotic twins discordant for schizophrenia | |
Use of human methylation arrays for epigenome research in the common marmoset (Callithrix jacchus). | |
Voxel-based analyses of gray/white matter volume and diffusion tensor data in major depression | |
What Can Mitochondrial DNA Analysis Tell Us About Mood Disorders? | |
Whole genome/exome sequencing in mood and psychotic disorders | |
うつ病の脳科学 : 精神科医療の未来を切り拓く | |
こころだって、からだです | |
こころの病気のサイエンス | |
これだけは知っておきたい双極性障害 : 躁・うつに早めに気づき再発を防ぐ! | |
もっと知りたい双極性障害 | |
ブレインバンク : 未来への希望の贈り物 | |
専門医のための精神科臨床リュミエール. | |
臨床脳科学 : 心から見た脳 | |
動物に「うつ」はあるのか : 「心の病」がなくなる日 | |
脳 (ブレイン) バンク : 精神疾患の謎を解くために | |
脳と精神疾患 | |
「双極性障害」ってどんな病気? : 「躁うつ病」への正しい理解と治療法 | |
双極性障害 : 病態の理解から治療戦略まで | |
双極性障害「躁うつ病」の人の気持ちを考える本 : 不思議な「心」のメカニズムが一目でわかる | |
双極性障害 : 躁うつ病への対処と治療 | |
受ける?受けない?精神科セカンドオピニオン | |
『名医』はどこにいる? : よい精神科主治医にめぐりあうために | |
岐路に立つ精神医学 : 精神疾患解明へのロードマップ | |
「特別企画」双極性障害 | |
精神の脳科学 | |
精神医学の基盤 = Foundations of psychiatry. | |
躁うつ病とつきあう | |
躁うつ病はここまでわかった : 患者・家族のための双極性障害ガイド |