BACKGROUND: Triamcinolone acetonide (TA) has applications for the treatment of a large range of intraocular vascular diseases. The present study in pigs was performed to investigate histopathological and histochemical changes in the levels of myocilin deposition in the anterior segment in a model of branch retinal vein occlusion (BRVO) after vitreal administration of TA. METHODS: After ophthalmoscopic examination, intraocular pressure (IOP) measurement and fundus photography, a BRVO was created photothrombotically in each eye of six pigs, using argon green photocoagulation. The left eye was then injected intravitreally with 4 mg/0.1 ml TA. After 11 weeks, the eyes were re-examined, animals sacrificed, and eyes enucleated and processed in paraffin and epoxy resin. Immunofluorescence cytochemistry on paraffin sections was performed to localise the distribution of myocilin in the anterior segment and histology by light and transmission electron microscopy on epoxy resin sections on TA-treated and untreated eyes. RESULTS: Histology revealed pathological changes in the TA-treated eye, including swollen mitochondria, layered long endoplasmic reticulum, pleomorphic nuclei, dense fibrillar extracelluar deposits and aggregates of unusual cell inclusions. Myocilin levels were significantly higher in the TA-treated eyes in the trabecular meshwork (p = 0.001), ciliary process (p = 0.011) and iris (p = 0.030) than in the untreated eyes. CONCLUSIONS: This study suggests that increased myocilin synthesis and related ultrastructural changes in the anterior segment after treatment with intravitreal TA in a porcine model of retinal oedema in BRVO may contribute to IOP elevation.
BACKGROUND:Triamcinolone acetonide (TA) has applications for the treatment of a large range of intraocular vascular diseases. The present study in pigs was performed to investigate histopathological and histochemical changes in the levels of myocilin deposition in the anterior segment in a model of branch retinal vein occlusion (BRVO) after vitreal administration of TA. METHODS: After ophthalmoscopic examination, intraocular pressure (IOP) measurement and fundus photography, a BRVO was created photothrombotically in each eye of six pigs, using argon green photocoagulation. The left eye was then injected intravitreally with 4 mg/0.1 ml TA. After 11 weeks, the eyes were re-examined, animals sacrificed, and eyes enucleated and processed in paraffin and epoxy resin. Immunofluorescence cytochemistry on paraffin sections was performed to localise the distribution of myocilin in the anterior segment and histology by light and transmission electron microscopy on epoxy resin sections on TA-treated and untreated eyes. RESULTS: Histology revealed pathological changes in the TA-treated eye, including swollen mitochondria, layered long endoplasmic reticulum, pleomorphic nuclei, dense fibrillar extracelluar deposits and aggregates of unusual cell inclusions. Myocilin levels were significantly higher in the TA-treated eyes in the trabecular meshwork (p = 0.001), ciliary process (p = 0.011) and iris (p = 0.030) than in the untreated eyes. CONCLUSIONS: This study suggests that increased myocilin synthesis and related ultrastructural changes in the anterior segment after treatment with intravitreal TA in a porcine model of retinal oedema in BRVO may contribute to IOP elevation.
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