about
Experimentally Induced Mammalian Models of GlaucomaOptic nerve head morphology assessed by laser scanning tomography in normal Japanese subjects.TSPO activation modulates the effects of high pressure in a rat ex vivo glaucoma model.Effects of acutely elevated hydrostatic pressure in a rat ex vivo retinal preparationNeurosteroids are endogenous neuroprotectants in an ex vivo glaucoma model.Future therapies of wet age-related macular degeneration.Association of Myopic Deformation of Optic Disc with Visual Field Progression in Paired Eyes with Open-Angle Glaucoma24(S)-Hydroxycholesterol protects the ex vivo rat retina from injury by elevated hydrostatic pressure.Abnormalities in glutamate metabolism and excitotoxicity in the retinal diseases.Structure and function of the interphotoreceptor matrix surrounding retinal photoreceptor cells.Dorzolamide-induced relaxation of isolated rabbit ciliary arteries mediated by inhibition of extracellular calcium influx.Wistar rat palpebral conjunctiva contains more slow-cycling stem cells that have larger proliferative capacity: implication for conjunctival epithelial homeostasis.Lectin cytochemistry of the rabbit conjunctiva and lacrimal sac.Temperature-dependent ultrastructural changes in the cone interphotoreceptor matrix.Ultrastructural changes in rat eyes with experimental Vogt-Koyanagi-Harada disease.Role of ammonia in reversal of glutamate-mediated Müller cell swelling in the rat retina.Acute vigabatrin retinotoxicity in albino rats depends on light but not GABA.Clinical evaluation of local ocular toxicity in candidate anti-adenoviral agents in vivo.Lectin cytochemistry of the lacrimal sac epithelium in experimental dacryocystitis.Lamina Cribrosa Depth Variation Measured by Spectral-Domain Optical Coherence Tomography Within and Between Four Glaucomatous Optic Disc Phenotypes.Sialoglycoconjugates in primary and recurrent mixed tumors of lacrimal glands.Investigation of luminal surface structures of rod photoreceptor outer segments by lectin cytochemistry combined with freeze-etchingAdditive neuroprotective effects of 24(S)-hydroxycholesterol and allopregnanolone in an ex vivo rat glaucoma modelDemonstration of rod and cone photoreceptors in the lamprey retina by freeze-replication and immunofluorescenceDevelopment and distribution of the major pollen allergen (Cry j I) in male flower buds of Japanese cedar (Cryptomeria japonica)Demonstration by lectin cytochemistry of rod and cone photoreceptors in the lamprey retinaLectin cytochemical analysis of glycoconjugates in photoreceptor cell membranes of Lampetra japonicaImmunohistochemical localization of inhibin in the retinal interphotoreceptor matrixPreference of peanut agglutinin labeling for long-wavelength-sensitive cone photoreceptors in the dace retinaLectin cytochemical analysis of lacrimal pleomorphic adenomasFocal Lamina Cribrosa Defect in Myopic Eyes With Nonprogressive Glaucomatous Visual Field DefectMultiple Temporal Lamina Cribrosa Defects in Myopic Eyes with Glaucoma and Their Association with Visual Field DefectsThe neurosteroid allopregnanolone protects retinal neurons by effects on autophagy and GABRs/GABAA receptors in rat glaucoma modelsOptic Disc Margin Anatomic Features in Myopic Eyes with Glaucoma with Spectral-Domain OCT
P50
Q27022424-DDEE2434-1B55-4610-B916-7DC71E7812E0Q33695819-FEDB5B2F-5B7A-4C9F-83D6-3E6C75079524Q33807216-CABBE377-13D3-4E1B-9257-21089F90536CQ34662217-8B9BB090-0B74-49FF-900D-DDD932A3DB90Q34789708-3DDBE0CC-B5EC-43FF-B57D-1E39FA51515AQ35162495-C8FA4DCE-94FF-4045-85F6-5CF686FB0895Q36257379-65526C10-3389-410D-A554-F2D042F82D70Q37274400-46B5825A-B52D-459A-BED6-BBCB26C5C8B8Q38175406-56216CDB-E7DE-4B22-A552-F1E97CF5E8CBQ38394777-7B6689CF-4561-4570-AAB2-854646F95A14Q40115810-699A0529-94F8-4EC9-A0C2-4CD6435CED59Q42440927-03CECC7C-B31B-40DE-982D-AC146B788B4AQ42466466-9CBFEF86-C6E0-430D-A504-C6767CC2D1CAQ43256997-B5A72A48-7AA2-46EA-9BD5-10868D65A150Q44919972-C6ABF5F4-D44A-4AB7-A37D-AD56B3EB1ED1Q45028403-0F14E29E-E70E-4AB9-BAA4-5F5F00DE8ADCQ45030233-C36F55B6-86DE-402B-AD68-B2F71A6CFCC9Q46100034-CA419392-9FFB-4D90-9D32-2A050A7C5B6CQ50518698-625A2C52-9854-4376-8D17-44202F287DBCQ53361106-BAE70FA0-E721-4C93-8FE0-FCE43497960FQ54634818-6B26D29F-230E-4CF2-B26A-9723A5D0F133Q57108632-AF578794-B307-48E1-B895-21094FCBC8E4Q58701424-E054A048-54D6-43C4-854D-76CA0D9BA853Q68180542-34A4B3D3-2580-46C2-AC53-53BA70C4CD5BQ69463308-4347EE2B-D146-4928-8334-607E5D3444B5Q69626935-215B2DD1-03C1-4489-A69E-1E07CF3433B3Q71402578-FD95C588-F6DB-4948-A38F-3109D2E27BAEQ71889689-AF97A2C5-B22A-41E5-9449-625FDAC98922Q73348627-4A9982E0-E929-42AA-9F4C-EED34E9F5DABQ77337432-A23C503C-353F-48F4-BEE7-2D428459DAFAQ88112161-7EA383F9-25EE-4F2F-AC01-408D255E4173Q88168516-D3EBC4FA-D742-44A7-B7FC-3552B98DDE36Q89762883-B0DB0D4C-FFC1-4256-A48F-D9943271BB36Q91140122-25140BEF-169E-4726-9F7F-91E7573E40FD
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Makoto Ishikawa
@ast
Makoto Ishikawa
@en
Makoto Ishikawa
@es
Makoto Ishikawa
@sl
type
label
Makoto Ishikawa
@ast
Makoto Ishikawa
@en
Makoto Ishikawa
@es
Makoto Ishikawa
@sl
prefLabel
Makoto Ishikawa
@ast
Makoto Ishikawa
@en
Makoto Ishikawa
@es
Makoto Ishikawa
@sl
P106
P1153
55740361100
P31
P496
0000-0002-1808-1799