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Items: 1 to 20 of 94

1.

Morphological and morphometric changes in rat optic nerve microvessels in a glaucoma experimental model.

Moreno M, Ríos MC, Alba C, Díaz F, Villena A, Figueroa-Ortiz LC, García-Campos J.

Arch Soc Esp Oftalmol. 2014 Dec;89(12):471-6. doi: 10.1016/j.oftal.2014.05.011. Epub 2014 Jul 30. English, Spanish.

PMID:
25086879
2.

Experimental model of ocular hypertension in the rat: study of the optic nerve capillaries and action of hypotensive drugs.

Díaz F, Villena A, Vidal L, Moreno M, García-Campos J, Pérez de Vargas I.

Invest Ophthalmol Vis Sci. 2010 Feb;51(2):946-51. doi: 10.1167/iovs.09-3667. Epub 2009 Sep 24.

PMID:
19797218
3.

Anterior optic nerve capillary blood flow response to diurnal variation of mean ocular perfusion pressure in early untreated primary open-angle glaucoma.

Sehi M, Flanagan JG, Zeng L, Cook RJ, Trope GE.

Invest Ophthalmol Vis Sci. 2005 Dec;46(12):4581-7.

PMID:
16303952
4.

Comparative quantitative study of astrocytes and capillary distribution in optic nerve laminar regions.

Balaratnasingam C, Kang MH, Yu P, Chan G, Morgan WH, Cringle SJ, Yu DY.

Exp Eye Res. 2014 Apr;121:11-22. doi: 10.1016/j.exer.2014.02.008. Epub 2014 Feb 19.

PMID:
24560677
5.

Comparison of anterior segment structures in two rat glaucoma models: an ultrasound biomicroscopic study.

Nissirios N, Chanis R, Johnson E, Morrison J, Cepurna WO, Jia L, Mittag T, Danias J.

Invest Ophthalmol Vis Sci. 2008 Jun;49(6):2478-82. doi: 10.1167/iovs.07-0965.

6.

Radiation pretreatment does not protect the rat optic nerve from elevated intraocular pressure-induced injury.

Johnson EC, Cepurna WO, Choi D, Choe TE, Morrison JC.

Invest Ophthalmol Vis Sci. 2014 Dec 18;56(1):412-9. doi: 10.1167/iovs.14-15094.

7.

Glaucoma drops control intraocular pressure and protect optic nerves in a rat model of glaucoma.

Morrison JC, Nylander KB, Lauer AK, Cepurna WO, Johnson E.

Invest Ophthalmol Vis Sci. 1998 Mar;39(3):526-31.

PMID:
9501862
8.

Changes in the lamina and prelamina after intraocular pressure reduction in patients with primary open-angle glaucoma and acute primary angle-closure.

Park HY, Shin HY, Jung KI, Park CK.

Invest Ophthalmol Vis Sci. 2014 Jan 9;55(1):233-9. doi: 10.1167/iovs.12-10329.

PMID:
24204049
9.
10.

Lack of blood-brain barrier properties in microvessels of the prelaminar optic nerve head.

Hofman P, Hoyng P, vanderWerf F, Vrensen GF, Schlingemann RO.

Invest Ophthalmol Vis Sci. 2001 Apr;42(5):895-901.

PMID:
11274064
11.

Factors associated with topographic changes of the optic nerve head induced by acute intraocular pressure reduction in glaucoma patients.

Prata TS, Lima VC, de Moraes CG, Guedes LM, Magalhães FP, Teixeira SH, Ritch R, Paranhos A Jr.

Eye (Lond). 2011 Feb;25(2):201-7. doi: 10.1038/eye.2010.179. Epub 2010 Dec 3.

12.
13.

[A challenge to primary open-angle glaucoma including normal-pressure. Clinical problems and their scientific solution].

Sugiyama K.

Nippon Ganka Gakkai Zasshi. 2012 Mar;116(3):233-67; discussion 268. Review. Japanese.

PMID:
22568103
14.

Qualitative and quantitative morphologic changes in the vasculature and extracellular matrix of the prelaminar optic nerve head in eyes with POAG.

Tektas OY, Lütjen-Drecoll E, Scholz M.

Invest Ophthalmol Vis Sci. 2010 Oct;51(10):5083-91. doi: 10.1167/iovs.09-5101. Epub 2010 May 19.

PMID:
20484598
15.

Corneal hysteresis but not corneal thickness correlates with optic nerve surface compliance in glaucoma patients.

Wells AP, Garway-Heath DF, Poostchi A, Wong T, Chan KC, Sachdev N.

Invest Ophthalmol Vis Sci. 2008 Aug;49(8):3262-8. doi: 10.1167/iovs.07-1556. Epub 2008 Mar 3.

PMID:
18316697
16.

Retinal glutamate transporter changes in experimental glaucoma and after optic nerve transection in the rat.

Martin KR, Levkovitch-Verbin H, Valenta D, Baumrind L, Pease ME, Quigley HA.

Invest Ophthalmol Vis Sci. 2002 Jul;43(7):2236-43.

PMID:
12091422
17.

Microvessels of the human optic nerve head: ultrastructural and radioreceptorial changes in eyes with increased IOP.

Feher J, Pescosolido N, Tranquilli Leali FM, Cavallotti C.

Can J Ophthalmol. 2005 Aug;40(4):492-8.

PMID:
16116516
18.

Optic nerve dynein motor protein distribution changes with intraocular pressure elevation in a rat model of glaucoma.

Martin KR, Quigley HA, Valenta D, Kielczewski J, Pease ME.

Exp Eye Res. 2006 Aug;83(2):255-62. Epub 2006 Mar 20.

PMID:
16546168
19.

Morphologic changes in chronic high-pressure experimental glaucoma in rhesus monkeys.

Hayreh SS, Pe'er J, Zimmerman MB.

J Glaucoma. 1999 Feb;8(1):56-71.

PMID:
10084276
20.

Characterization of retinal damage in the episcleral vein cauterization rat glaucoma model.

Danias J, Shen F, Kavalarakis M, Chen B, Goldblum D, Lee K, Zamora MF, Su Y, Brodie SE, Podos SM, Mittag T.

Exp Eye Res. 2006 Feb;82(2):219-28. Epub 2005 Aug 16. Erratum in: Exp Eye Res. 2006 Oct;83(4):1002. Brodie, Scott E [added].

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