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USE OF LUTEIN AND ZEAXANTHIN ALONE OR COMBINED WITH BRILLIANT BLUE TO IDENTIFY INTRAOCULAR STRUCTURES INTRAOPERATIVELY

2012; Lippincott Williams & Wilkins; Volume: 32; Issue: 7 Linguagem: Inglês

10.1097/iae.0b013e318239e2b6

1539-2864

Diogo Sousa-Martins, Maurício Maia, Milton Moraes, Acácio Alves de Souza Lima Filho, Eduardo B. Rodrigues, Jane Chen, Michel Eid Farah, Leticia B. Santos, Rubens Belfort,

Intraocular Surgery and Lenses

To determine whether a natural dye solution based on lutein and zeaxanthin alone or combined with Brilliant Blue stains and facilitates peeling of intraocular membranes in human eyes.In this study of 60 cadaveric eyes, open-sky vitrectomy including posterior hyaloid detachment was performed. Different lutein and zeaxanthin concentrations (0.01-20%) were tested alone or combined with different Brilliant Blue concentrations (0.0125-0.025%) in the corneal endothelium, corneal epithelium, anterior and posterior capsule, vitreous cavity through the macula including the posterior hyaloid, and internal limiting membrane. The various dye solutions were in contact with the intraocular membranes for <1 minute and then were removed by mechanical aspiration or membrane peeling initiated and completed with intraocular forceps. The specimens were examined by light and electron transmission microscopy.Contact between lutein and zeaxanthin and the retinal, lens, and vitreous surface resulted in orange and greenish staining of the intraocular membranes, which facilitated surgical steps in all eyes. Lutein and zeaxanthin alone was useful for vitreous identification and lutein and zeaxanthin combined with Brilliant Blue had strong affinity for internal limiting membrane and anterior capsule. Light microscopy confirmed internal limiting membrane removal in all eyes tested. No dye solutions remained in the eyes after the membrane removal.A natural dye solution based on lutein and zeaxanthin alone or combined with Brilliant Blue efficiently stained the anterior capsule, vitreous, and internal limiting membrane in human cadaveric eyes and may be a useful tool for vitreoretinal or cataract surgery.