sameAs
DHA improves cognition and prevents dysfunction of entorhinal cortex neurons in 3xTg-AD miceAlzheimer-specific variants in the 3'UTR of Amyloid precursor protein affect microRNA functionReduction in DHA transport to the brain of mice expressing human APOE4 compared to APOE2Accumulation of transactive response DNA binding protein 43 in mild cognitive impairment and Alzheimer diseaseThe benefit of docosahexaenoic acid for the adult brain in aging and dementiaIVIg protects the 3xTg-AD mouse model of Alzheimer’s disease from memory deficit and Aβ pathologyp21-activated kinase-aberrant activation and translocation in Alzheimer disease pathogenesisSpecificity of anti-tau antibodies when analyzing mice models of Alzheimer's disease: problems and solutions.PAK inactivation impairs social recognition in 3xTg-AD Mice without increasing brain deposition of tau and AβSirtuin 1 reduction parallels the accumulation of tau in Alzheimer disease.Transgenic autoinhibition of p21-activated kinase exacerbates synaptic impairments and fronto-dependent behavioral deficits in an animal model of Alzheimer's disease.Defective dentate nucleus GABA receptors in essential tremor.Increased LINGO1 in the cerebellum of essential tremor patients.In vivo labeling of brain capillary endothelial cells after intravenous injection of monoclonal antibodies targeting the transferrin receptor.Relevance of the MPTP primate model in the study of dyskinesia priming mechanisms.Docosahexaenoic acid protects from dendritic pathology in an Alzheimer's disease mouse modelNew highly sensitive rodent and human tests for soluble amyloid precursor protein alpha quantification: preclinical and clinical applications in Alzheimer's diseaseA diet enriched with the omega-3 fatty acid docosahexaenoic acid reduces amyloid burden in an aged Alzheimer mouse model.Insulin reverses the high-fat diet-induced increase in brain Aβ and improves memory in an animal model of Alzheimer disease.Sex-dependent alterations in social behaviour and cortical synaptic activity coincide at different ages in a model of Alzheimer's diseasePrevention of levodopa-induced dyskinesias by a selective NR1A/2B N-methyl-D-aspartate receptor antagonist in parkinsonian monkeys: implication of preproenkephalin.Prevention of dyskinesia by an NMDA receptor antagonist in MPTP monkeys: effect on adenosine A2A receptors.Levodopa response motor complications--GABA receptors and preproenkephalin expression in human brain.High dietary consumption of trans fatty acids decreases brain docosahexaenoic acid but does not alter amyloid-beta and tau pathologies in the 3xTg-AD model of Alzheimer's disease.Human apolipoprotein E ɛ4 expression impairs cerebral vascularization and blood-brain barrier function in micemiR-132/212 deficiency impairs tau metabolism and promotes pathological aggregation in vivo.Impact of intravenous immunoglobulin on the dopaminergic system and immune response in the acute MPTP mouse model of Parkinson's diseaseNovel pharmacological targets for the treatment of Parkinson's disease.Neuroprotective action of omega-3 polyunsaturated fatty acids against neurodegenerative diseases: evidence from animal studies.Brain bioavailability of human intravenous immunoglobulin and its transport through the murine blood-brain barrier.Impact of ω-3 fatty acids in Parkinson's disease.Omega-3 polyunsaturated fatty acids in Alzheimer's disease: key questions and partial answers.n-3 LCPUFA improves cognition: the young, the old and the sick.Age-Dependent Regulation of the Blood-Brain Barrier Influx/Efflux Equilibrium of Amyloid-β Peptide in a Mouse Model of Alzheimer's Disease (3xTg-AD).Can insulin signaling pathways be targeted to transport Aβ out of the brain?Immunotherapies in Alzheimer's disease: Too much, too little, too late or off-target?Internalization of targeted quantum dots by brain capillary endothelial cells in vivo.The role of the MYD88-dependent pathway in MPTP-induced brain dopaminergic degenerationAltered cerebral insulin response in transgenic mice expressing the epsilon-4 allele of the human apolipoprotein E gene.Tau hyperphosphorylation in the brain of ob/ob mice is due to hypothermia: Importance of thermoregulation in linking diabetes and Alzheimer's disease.
P50
Q21135531-AAC7BFFA-F7A3-4999-A34D-D25E1B255607Q21202833-B3AC4EBE-CEA5-46BE-A041-92EFA441B964Q24314295-E2C9CC10-E9A3-44BD-8A91-7AFBDDE232EAQ24634907-3E30062A-7639-415E-8DF7-D34FA998AFB4Q26997552-BFAD1AD3-9B1E-4C25-AC3D-B0CC56CDE8D2Q27497796-043B9E73-762F-4C46-A12B-BA27B9D9238AQ28570722-5EB1817C-356E-48B2-8291-592D7115534DQ33559937-9A7A43EA-4405-4B88-8D0E-CBBFC5C5F578Q33605706-6F7326B9-7D33-41F7-9170-236B51CC3B6BQ33619317-9A04A2F8-A81C-4A02-85FC-AD2429F8D136Q33804587-600D087D-AC7D-48BA-904A-D49745A0B72DQ34029544-D029A027-EFC5-44BA-8B43-AF472F8B95F5Q34039911-AEE9DF43-0A1A-4500-9172-54F893DCFA44Q34174728-E41F8707-D136-4479-9F4F-4CD951E153E9Q34326908-0BB20BA1-DE17-4218-A86D-8B100070CA1EQ34344634-499E633D-EDEC-45E7-84BB-42EF93946B78Q34348184-0DFD4FE1-B60B-43FD-966C-EC04A0E1B4B6Q34406066-DE8C6FBB-BE0D-4173-BE56-24BD197EF396Q34428494-0DA80379-3E05-4CB8-9FC9-5391994AABF3Q34430819-A5C09739-CCEB-4CB1-B28D-FC7668C66732Q34446551-F88987DB-DDEA-4520-87C4-5CAA93F6BB28Q34532735-26F7CCDA-4C68-4F3C-B32D-A92D0F971C9AQ34826230-442B19A9-B964-4B84-9E5C-4171D317B2CAQ34919010-7CDCBEB8-4C7E-4DCB-9890-EF89601E2BA0Q34976193-05C6D2E2-DD0A-4686-AAC9-D72F01C264CCQ36251998-7995DFFD-7FF6-4F9E-84FD-37A3EB7B7320Q36462680-8CBC8A21-A035-4C4B-8A30-05F2FA293D99Q36610996-BE801E15-DB90-4A5D-95BD-374827D8D6DAQ37013837-993EF607-90A5-4ACB-A221-9863DF87C9ECQ37365658-B7D4876A-5955-4271-AC86-C76D9EE976B3Q37854161-FC70239B-95C5-40FF-AD6F-4C65ED8135D3Q37878521-AC1E17D5-CB3D-4B5F-8E2F-D5E093B35155Q38218496-4C83D40F-6FBB-426E-8673-D9105ED857CDQ38295848-FA6B85D7-0368-4527-9D1B-5562C89ABAC4Q38542045-3E616770-E0A1-49D1-B2AE-8C4E1A0DCE48Q38675216-F02647EE-ECBA-4A36-8EE2-A7E162E8526AQ38812126-B70BE1C5-305A-4FA9-969D-A016380D618DQ38860761-2DE7FF17-1367-4758-88DC-1922B00DB016Q39020238-C672C10F-716F-4909-BE57-BDBD8449E0BAQ39236971-7F324861-CC45-4CEE-909A-44C2BEB9E60A
P50
description
Canadees apotheker
@nl
chercheur, pharmacien et professeur d'université
@fr
kanadischer Forscher und Apotheker
@de
researcher, pharmacist and university professor
@en
name
Frédéric Calon
@ast
Frédéric Calon
@ca
Frédéric Calon
@en
Frédéric Calon
@es
Frédéric Calon
@fr
Frédéric Calon
@ga
Frédéric Calon
@nl
Frédéric Calon
@sl
Frédéric Calon
@sq
type
label
Frédéric Calon
@ast
Frédéric Calon
@ca
Frédéric Calon
@en
Frédéric Calon
@es
Frédéric Calon
@fr
Frédéric Calon
@ga
Frédéric Calon
@nl
Frédéric Calon
@sl
Frédéric Calon
@sq
altLabel
F Calon
@en
prefLabel
Frédéric Calon
@ast
Frédéric Calon
@ca
Frédéric Calon
@en
Frédéric Calon
@es
Frédéric Calon
@fr
Frédéric Calon
@ga
Frédéric Calon
@nl
Frédéric Calon
@sl
Frédéric Calon
@sq
P106
P269
P108
P21
P214
17146030656035862590
P269
P27
P31
P496
0000-0002-4203-0887
P734
P735
P7859
viaf-17146030656035862590