AI Article Synopsis
- Myopic individuals, especially those with severe myopia, face higher risks of serious eye conditions like cataracts and retinal detachment, often leading to visual impairment.
- The study investigates the effect of scleral crosslinking (using riboflavin and UV-A radiation) on preventing axial myopia in a rabbit model by measuring eye length changes.
- Results show that this technique effectively reduces induced axial elongation in the rabbits, suggesting potential benefits for treating myopia-related issues.
Article Abstract
Myopic individuals, especially those with severe myopia, are at higher-than-normal risk of cataract, glaucoma, retinal detachment and chorioretinal abnormalities. In addition, pathological myopia is a common irreversible cause of visual impairment and blindness. Our study demonstrates the effect of scleral crosslinking using riboflavin and ultraviolet-A radiation on the development of axial myopia in a rabbit model. The axial length of the eyeball was measured by A-scan ultrasound in New Zealand white rabbits aged 13 days (male and female). The eye then underwent 360° conjunctival peritomy with scleral crosslinking, followed by tarsorrhaphy. Axial elongation was induced in 13 day-old New Zealand rabbits by suturing their right eye eyelids (tarsorrhaphy). The eyes were divided into quadrants, and every quadrant had two scleral irradiation zones, each with an area of 0.2 cm² and a radius of 4 mm. Crosslinking was performed by dropping 0.1% dextran-free riboflavin-5-phosphate onto the irradiation zones 20 sec before ultraviolet-A irradiation and every 20 sec during the 200 sec irradiation time. UVA radiation (370 nm) was applied perpendicular to the sclera at 57 mW/cm² (total UVA light dose, 57 J/cm²). Tarsorrhaphies were removed on day 55, followed by repeated axial length measurements. This study demonstrates that scleral crosslinking with riboflavin and ultraviolet-A radiation effectively prevents occlusion-induced axial elongation in a rabbit model.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4841336 | PMC |
| http://dx.doi.org/10.3791/53201 | DOI Listing |
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Article Synopsis
- The study explores the effectiveness of iontophoresis-assisted riboflavin delivery for treating the posterior sclera compared to traditional passive soaking in terms of delivery time and riboflavin permeation efficiency.
- Researchers applied riboflavin solutions into porcine eye sclerae using both methods over varying time intervals of 5 to 20 minutes and analyzed riboflavin distribution using fluorescence microscopy.
- Results showed that while iontophoresis led to higher riboflavin concentration at shorter times (12.5 and 15 minutes) compared to passive soaking, both methods provided similar mechanical strength in the sclera, suggesting that iontophoresis could reduce treatment time without sacrificing effectiveness in collagen cross-linking.
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