about
Neurogenesis-independent antidepressant-like effects on behavior and stress axis response of a dual orexin receptor antagonist in a rodent model of depression.Activation of ventrolateral medullary neurons projecting to spinal autonomic areas after chemical stimulation of the central nucleus of amygdala: a neuroanatomical study in the rat.Early life genetic, epigenetic and environmental factors shaping emotionality in rodents.Chronic mild stress and antidepressant treatment alter 5-HT1A receptor expression by modifying DNA methylation of a conserved Sp4 siteNeuropeptides in psychiatric diseases: an overview with a particular focus on depression and anxiety disorders.Large-scale estimates of cellular origins of mRNAs: enhancing the yield of transcriptome analyses.MyD88 is crucial for the development of a protective CNS immune response to Toxoplasma gondii infectionCorticolimbic transcriptome changes are state-dependent and region-specific in a rodent model of depression and of antidepressant reversalMechanisms of antidepressant resistanceRole of orexin in the pathophysiology of depression: potential for pharmacological intervention.Translational Identification of Transcriptional Signatures of Major Depression and Antidepressant Response.Cingulate Overexpression of Mitogen-Activated Protein Kinase Phosphatase-1 as a Key Factor for Depression.Combined Metabolomics and Transcriptomics Approaches to Assess the IL-6 Blockade as a Therapeutic of ALS: Deleterious Alteration of Lipid Metabolism.Lack of serotonin1B receptor expression leads to age-related motor dysfunction, early onset of brain molecular aging and reduced longevityDeficit in BDNF does not increase vulnerability to stress but dampens antidepressant-like effects in the unpredictable chronic mild stress.Drug-dependent requirement of hippocampal neurogenesis in a model of depression and of antidepressant reversal.Changes in Heart Rate Variability during a tonic immobility test in quail.n-3 polyunsaturated fatty acid supplementation reverses stress-induced modifications on brain monoamine levels in mice.Is unpredictable chronic mild stress (UCMS) a reliable model to study depression-induced neuroinflammation?Activation of orexin neurons in dorsomedial/perifornical hypothalamus and antidepressant reversal in a rodent model of depression.Omics to Explore Amyotrophic Lateral Sclerosis Evolution: the Central Role of Arginine and Proline Metabolism.Schizophrénie et toxoplasmoseExpression of Fos protein in adrenal preganglionic neurons following chemical stimulation of the rostral ventrolateral medulla of the ratAutonomic dysreflexia increases plasma adrenaline level in the chronic spinal cord-injured ratDouble immunocytochemistry for the detection of Fos protein in retrogradely identified neurons using cholera toxin B subunitEffect of dorsal periaqueductal gray lesions on cardiovascular and behavioral responses to cat odor exposure in ratsNeuroinflammation and depression: A review
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Q30524245-B83F1C1A-2B88-4187-881B-1EC7D8921E62Q31872973-D6EC2E84-ABE2-4D32-A3EC-4E3E78729635Q36226571-09E69F90-8D04-48CF-BE6C-A0AABC2D5B5CQ36268893-23FE081D-9787-49EB-A80B-53FF14A1B092Q36447243-F34B7716-483A-4B24-BE85-C0F5E41D8ACBQ36487654-C227E01E-0C96-4810-B458-58A5AF78DCABQ36594433-F5489F15-3FE5-4E44-BA35-15438E395C64Q37159953-6D45D86E-26A2-437C-9E70-FABFB4147948Q37334088-4DFD1A81-91C4-42F9-9146-41E263B167F8Q38105280-B4F0FC21-D558-4E79-B8B4-36B0B702A70BQ38604950-94F7E12F-C6D4-40A8-9B62-2A0B09D639A9Q38866660-1059475F-4229-45FC-979B-03EC55E45EC2Q41585035-994716C7-6D90-4685-ADA0-77BC4B1FEDC0Q42392663-A00C86A5-9586-47AF-A559-8EA08CEB09D1Q45999975-C21D3B5F-AD48-4BDD-9AAF-81659BAD84B3Q46649293-02ED032A-FAD7-43E6-A518-A42DCF5973B8Q46876810-F20DF683-AAD8-4484-B26C-C855EE0605B8Q46908202-04AC95E8-B427-45F2-88FC-0FAA6A33F0C5Q48589388-8E3960F1-AD4B-488C-9132-A6895D05D63CQ48880164-DDD933EE-40F0-45A2-9D3C-D762729DFE05Q51825896-FBB263D1-BFA5-4898-8CE2-B1C152037F08Q59388053-9FFBD2B8-8CDC-49FC-A8A7-36934699C4EEQ73718377-EA3C6997-383F-4400-80D8-2AFFBDD98C6AQ73835521-2F72F146-F13A-467C-A5C6-D4F352DFD756Q74038356-1B4AFC2F-DFA2-4196-BD48-97913D58C3FBQ80362721-1940B0E7-5DDF-4476-B991-F182715598F0Q90158593-49269B6B-D766-4706-A546-46A5365D4257
P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0002-0999-9979
@en
name
Samuel Leman
@ast
Samuel Leman
@en
Samuel Leman
@es
Samuel Leman
@nl
type
label
Samuel Leman
@ast
Samuel Leman
@en
Samuel Leman
@es
Samuel Leman
@nl
prefLabel
Samuel Leman
@ast
Samuel Leman
@en
Samuel Leman
@es
Samuel Leman
@nl
P106
P108
P21
P31
P496
0000-0002-0999-9979