about
Melanin-Concentrating Hormone (MCH): Role in REM Sleep and DepressionMood disorders: A potential link between ghrelin and leptin on human body?Update on psychiatric geneticsTeneurins, TCAP, and latrophilins: roles in the etiology of mood disorders.Long-lasting suppression of acoustic startle response after mild traumatic brain injury.Effects of brief stress exposure during early postnatal development in Balb/CByJ mice: II. Altered cortical morphology.Interactions between genotype and depressive symptoms on obesity.Prenatal depression effects and interventions: a review.Sleep pathologies in depression and the clinical utility of polysomnography.Plasma NPY concentrations during tryptophan and sham depletion in medication-free patients with remitted depression.Preliminary analysis of age of illness onset effects on symptom profiles in major depressive disorder.Creatine supplementation associated or not with strength training upon emotional and cognitive measures in older women: a randomized double-blind studyEssential amino acids in the gluten-free diet and serum in relation to depression in patients with celiac disease.Newborn neurobehavioral patterns are differentially related to prenatal maternal major depressive disorder and serotonin reuptake inhibitor treatmentAltered sleep and affect in the neurotensin receptor 1 knockout mouse.Restraint stress-induced central monoaminergic & oxidative changes in rats & their prevention by novel Ocimum sanctum compounds.Activation of immediate-early response gene c-Fos protein in the rat paralimbic cortices after myocardial infarction.On the influence of emotion on conflict processing.Prenatal serotonin and neonatal outcome: brief reportPrenatal dopamine and neonatal behavior and biochemistry.Chronic creatine supplementation alters depression-like behavior in rodents in a sex-dependent manner.Genetics of depression: an overview of the current science.Tinnitus and depression.Stress-mediated modulations in dopaminergic system and their subsequent impact on behavioral and oxidative alterations: an update.The potential role of monocyte chemoattractant protein-1 for major depressive disorder.Oxytocin and Social Relationships: From Attachment to Bond Disruption.The role of prolactin in andrology: what is new?DNA Damage in Major Psychiatric Diseases.Dysregulation of the dopamine system in the pathophysiology of schizophrenia and depression.Connecting Brain Proteomics with Behavioural Neuroscience in Translational Animal Models of Neuropsychiatric Disorders.Effects of Dopamine and Serotonin Systems on Modulating Neural Oscillations in Hippocampus-Prefrontal Cortex Pathway in Rats.Pattern of distribution of serotonergic fibers to the amygdala and extended amygdala in the rat.The infralimbic cortex bidirectionally modulates mesolimbic dopamine neuron activity via distinct neural pathways.Cocaine regulates protein kinase B and glycogen synthase kinase-3 activity in selective regions of rat brain.Early traumatic life events, parental attitudes, family history, and birth risk factors in patients with depressive disorder and healthy controls.A facilitator of leisure activities for stress-related growth experience among middle-aged Korean women with depression.Methamphetamine Induces Anhedonic-Like Behavior and Impairs Frontal Cortical Energetics in Mice.Effect of chronic corticosterone application on depression-like behavior in C57BL/6N and C57BL/6J mice.Obstructive sleep apnea (OSA) and depressive symptoms.Frontal cerebral blood flow changes after hormone replacement therapy in depressed postmenopausal women.
P2860
Q26770777-6F2A75BA-981A-4FE4-AF4E-1832648FA517Q26862798-66033EF6-F0D1-4025-B1D0-536C5EE84661Q28306713-8C63A09C-A5CA-4E7E-BCB4-3D95FDC84721Q30365112-F612349B-49DF-4198-A07C-DA4DBC9442FAQ30382468-ACE7FEDD-8AF8-4462-BE81-46D5397E48F5Q33874597-E7EC10BA-EE1C-4CD6-A46F-7B5B6D5AA339Q33910349-D59116E8-B144-4A89-A700-8742D51EEDA3Q34104320-23FDB1B6-FFDB-43DD-940B-D84C51E5C6CCQ34130919-DC20CDD8-2DDE-40A8-B8A8-90CB83037066Q34751176-F3705116-019A-46FF-B862-F50DE0E6C14BQ34998805-59C58F93-D5D1-415A-B5EB-502A87811F15Q35009362-547D883A-98D4-4125-8722-6680E7193CB5Q35464761-07B56087-A0EA-4422-814D-AF5C611927F1Q35549316-EBFC8EA0-58E3-491A-8FF2-58FEDE8AF4CBQ36013871-944AA3B1-E945-41EF-9D77-0A9FD687A8B7Q36064320-1BAA8FCC-8A54-4ACA-BB8B-68F1D24EF286Q36110720-EAA0D797-A66D-4A07-93D1-6777A1588756Q36135915-22187F3D-E58F-413E-8789-BB4B2E32EF7BQ36563074-471989E9-66C6-4E80-A2FB-8F29D0D774D6Q37029195-312178AC-E7D1-46A9-A0F3-FCF45F480B3BQ37480270-64F29360-3F10-47AC-9351-97DB8F65B02FQ37847575-257307BD-4830-41F3-809A-ADF45AACEE1DQ37875067-DC2E7EE2-ACF1-4409-9438-5E81EB442B3EQ38154648-49455397-473A-4D70-913A-DC6DDB301B6FQ38238754-27D29B5F-3E88-47DE-BE55-00AC011B94D7Q38622644-A760E8E5-3467-4598-9A4D-3CA6C886870FQ38626657-A7E416B8-A2A1-4E23-9A26-841A1DE938B4Q38820530-96331F0C-5844-4A16-B1A1-3C96C60625AEQ38852249-31D9C25C-3CB4-4506-A4C0-21436DFCF83CQ38869531-A037A039-8EB4-4FD7-B588-67DE08581265Q39926767-49544771-D7DB-46E0-89B5-59DD3158FD47Q42493544-F68D6E30-5BCD-4C1B-816F-09CE3B16201AQ42936154-C28E1CD3-11DA-484F-B8E6-79AA8453D84BQ43244270-52CAD229-5C74-41C9-A1E0-A2E83EF1A9C6Q44472614-BEB1E0A9-3097-4002-B4B8-982F30DC20D1Q44846274-D48DECB7-527A-479C-BC5A-7B14CB4DBD6DQ47391901-E41A02CB-D2FB-4E8A-BD5A-8A35829A5900Q48100253-811F9265-99B6-4D2E-89B7-8EB585E8F901Q48404990-22914510-88C4-4702-B33A-C659E64B468BQ48494441-5A14D68E-829E-46A9-8568-475D522AF69E
P2860
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Neurobiological basis of depression: an update.
@ast
Neurobiological basis of depression: an update.
@en
type
label
Neurobiological basis of depression: an update.
@ast
Neurobiological basis of depression: an update.
@en
prefLabel
Neurobiological basis of depression: an update.
@ast
Neurobiological basis of depression: an update.
@en
P1433
P1476
Neurobiological basis of depression: an update.
@en
P2093
Madhu Kalia
P356
10.1016/J.METABOL.2005.01.009
P433
P577
2005-05-01T00:00:00Z