about
Vinpocetine regulates cation channel permeability of inner retinal neurons in the ischaemic retinaOctodon degus (Molina 1782): a model in comparative biology and biomedicineAnatomical specializations for nocturnality in a critically endangered parrot, the Kakapo (Strigops habroptilus)Retinal amino acid neurochemistry of the southern hemisphere lamprey, Geotria australisRetinal Development and Ommin Pigment in the Cranchiid Squid Teuthowenia pellucida (Cephalopoda: Oegopsida).Alzheimer's Disease-Related Protein Expression in the Retina of Octodon degusInfrared Video Pupillography Coupled with Smart Phone LED for Measurement of Pupillary Light Reflex.Retinal amino acid neurochemistry in health and disease.Alzheimer's disease in the human eye. Clinical tests that identify ocular and visual information processing deficit as biomarkers.Connexin43 in retinal injury and disease.Using the rd1 mouse to understand functional and anatomical retinal remodelling and treatment implications in retinitis pigmentosa: A review.Macromolecular markers in normal human retina and applications to human retinal disease.Pre-treatment with vinpocetine protects against retinal ischemia.Short- and long-term enzymatic regulation secondary to metabolic insult in the rat retina.Connexin43 Mimetic Peptide Improves Retinal Function and Reduces Inflammation in a Light-Damaged Albino Rat Model.Functional and anatomical remodeling in human retinal detachment.Creatine transporter immunolocalization in aged human and detached retinas.Retinal metabolic state of the proline-23-histidine rat model of retinitis pigmentosa.Glutamate metabolic pathways and retinal function.Retinal anatomy of the New Zealand kiwi: structural traits consistent with their nocturnal behavior.Mapping cation entry in photoreceptors and inner retinal neurons during early degeneration in the P23H-3 rat retina.Creatine transporter localization in developing and adult retina: importance of creatine to retinal function.Emergence of cellular markers and functional ionotropic glutamate receptors on tangentially dispersed cells in the developing mouse retina.Tonabersat Prevents Inflammatory Damage in the Central Nervous System by Blocking Connexin43 Hemichannels.Vinpocetine protects inner retinal neurons with functional NMDA glutamate receptors against retinal ischemia.Vinpocetine modulates metabolic activity and function during retinal ischemia.Intravitreal pro-inflammatory cytokines in non-obese diabetic mice: Modelling signs of diabetic retinopathySildenafil alters retinal function in mouse carriers of Retinitis PigmentosaReply to “Letter to the editor: ‘Comments on retinal metabolic state in P23H and normal retinas’”Amino acid immunoreactivity in normal human retina and after brachytherapyFunctional activation of glutamate ionotropic receptors in the human peripheral retinaFunctional activation of glutamate ionotropic receptors in the developing mouse retinaLight exposure causes functional changes in the retina: increased photoreceptor cation channel permeability, photoreceptor apoptosis, and altered retinal metabolic functionStudent acceptance of e-learning methods in the laboratory class in OptometryTargeting connexin hemichannels to control the inflammasome: the correlation between connexin43 and NLRP3 expression in chronic eye diseaseConnexin Hemichannel Block Using Orally Delivered Tonabersat Improves Outcomes in Animal Models of Retinal DiseaseConnexin43 hemichannels: A potential drug target for the treatment of diabetic retinopathy
P50
Q28305650-D2BFE38C-4D10-4F13-A280-A15FD78912C6Q28650311-E86F8BAB-5310-4D56-923D-1C3EFEEF1B7BQ28741321-CB8D73AE-73B6-4F30-857C-9743D30D6FC5Q34629583-C5A532A9-689C-4D76-9D2A-9D00A57BB0A8Q35603110-177755D7-6E1A-4377-B278-7801FCDF9455Q35743990-ABD449CA-1589-457E-A794-079CC86E4CC9Q37683052-5E7E0FF0-1B9D-47E7-A451-8988524DA373Q38086862-00621110-55EC-49A3-A8F6-B06C1D8969C6Q38135027-020C3C08-7C35-40CF-A9B8-EB26FD112F2EQ38598207-DBAC3EC8-5904-40EA-9F47-39B604225F79Q38621560-073228AE-E11D-4727-8FBA-664713A514E3Q38697310-87B8A8AE-9D78-40C2-85EC-6FDA9FDB4B0BQ38789256-07556252-FACE-4FF1-BDE1-14BD626F250DQ39268064-549C0730-3BE8-4CA9-B6C4-227072222D7CQ39525664-51D5C449-9754-402D-AF0D-931216539B02Q42503235-9BFAAF4E-7989-4DA4-B5B7-05CAAF6EA74CQ42503294-BED617D0-126F-489C-8B27-90186DB275BAQ43208931-A8EE8F39-8BF7-47E1-9DC9-DB5F91B56968Q43287149-59457C32-52F8-451F-8585-DBF72CAAE7C1Q44577585-65B3CDA2-AAFF-4142-8E95-9FD32AF7CA1AQ45136508-9981C5F0-7CA5-4EE2-9CB3-59C0A37EF5ECQ46522477-CDDFA955-8537-430C-8231-BF1B0DA38EC7Q46880086-B2369EB6-E241-45B2-BEEB-D1928DD9B919Q47871238-D4CA735E-F562-4A0E-8494-41FF6C1583B2Q50139663-ED228996-FFB7-4BFF-A7D4-5B125196729DQ53610957-3D000058-13C4-4D28-84D7-6C8CE63001DCQ58723006-9241F804-EF9B-4595-BDE7-294037B4986DQ59464357-057D83AE-0AC3-4049-8165-FE2C7961D095Q59464608-4AFA1784-D1C7-4496-AF8C-9870C5266804Q59543751-5EDBE49D-8741-4551-A9C5-BC0C023229D5Q59543752-49FD9735-BD09-42AF-AEA2-8FA37E0BEDDCQ59543757-99C72C96-CD3C-4341-A8BF-5D6319BDC186Q59543758-F4EA1E4A-CE08-4DD2-AE1C-49DB33914E4DQ60302542-3D6B739E-A17C-49DB-A8B7-5C4694783547Q90285262-233B9B9A-3BD2-4456-8956-324718D621DDQ90865636-16C12C9B-DDFD-4A51-9544-EA9E32800F57Q91251569-CDF96247-2F52-4D1A-9B0B-7D7E47A17120
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Monica L. Acosta
@ast
Monica L. Acosta
@en
Monica L. Acosta
@es
Monica L. Acosta
@sl
type
label
Monica L. Acosta
@ast
Monica L. Acosta
@en
Monica L. Acosta
@es
Monica L. Acosta
@sl
prefLabel
Monica L. Acosta
@ast
Monica L. Acosta
@en
Monica L. Acosta
@es
Monica L. Acosta
@sl
P106
P1153
8895548600
P21
P31
P496
0000-0002-5018-339X