Polylactide-glycoli acid and rapamycin coating intraocular lens prevent posterior capsular opacification in rabbit eyes

Objectives Posterior capsular opacification (PCO) is caused by the proliferation and migration of residual lens epithelium cells (LECs) after extracapsular cataract extraction (ECCE). Rapamcin (RAPA) is known to be a potent immunosuppressive drug with anti-inflammatory and anti-proliferative effects...

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Published in:Graefe's archive for clinical and experimental ophthalmology 2009-06, Vol.247 (6), p.801-807
Main Authors: Liu, Hongling, Wu, Lan, Fu, Shaoying, Hou, Yongsheng, Liu, Ping, Cui, Hao, Liu, Jingjing, Xing, Lin, Zhang, Xiaomei
Format: Article
Language:English
Subjects:
Animals
Aqueous Humor - metabolism
Cataract
Cataract - pathology
Cataract - prevention & control
Cell Proliferation
Chromatography, High Pressure Liquid
Coated Materials, Biocompatible
Drug Carriers
Epithelial Cells - pathology
Immunosuppressive Agents
Lactic Acid
Lens Capsule, Crystalline - drug effects
Lens Capsule, Crystalline - pathology
Lens Implantation, Intraocular
Lenses, Intraocular
Medicine
Medicine & Public Health
Ophthalmology
Phacoemulsification
Polyglycolic Acid
Postoperative Complications - prevention & control
Rabbits
Sirolimus
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Summary:Objectives Posterior capsular opacification (PCO) is caused by the proliferation and migration of residual lens epithelium cells (LECs) after extracapsular cataract extraction (ECCE). Rapamcin (RAPA) is known to be a potent immunosuppressive drug with anti-inflammatory and anti-proliferative effects. The aim of this study was to investigate the safety and efficacy of rapamycin sustained release from modified intraocular lens (IOLs) in the prevention of PCO in rabbits. Methods Three types of IOLs were used, including the original IOL without modification, IOL with polylactide-glycoli acid (PLGA) coating (PLGA-IOL), and RAPA-loaded PLGA-IOL (RAPA-PLGA-IOL). Sixty New Zealand albino rabbits undergoing phacoemulsification in left eyes were randomly and equally divided into three groups. Group A was implanted with the original IOLs, group B was implanted with the PLGA-IOLs, and group C was implanted with the RAPA-PLGA-IOLs. All of the 60 treated left eyes were examined by a slit-lamp microscope. The concentrations of RAPA in the aqueous humor and blood were determined by high-performance liquid chromatography (HPLC), indicating an vivo release of drug from the polymer carrier. Anterior segment tissue was histologically examined, and wet posterior capsules were weighed. Six months after intervention the PCO was graded. Results The mean concentrations of RAPA in the aqueous humor from group C at 2 h, 1 days, 3 days, and 7 days after operation were 12.81 ± 1.27 μg/ml, 14.57 ± 0.99 μg/ml, 6.39 ± 0.95 μg/ml, and 1.10 ± 0.32 μg /ml respectively. The concentrations of RAPA in blood were undetectable. During the early days after the operation, the reactions of the anterior chamber from groups A and B were more severe than from group C. Our findings showed that the initial appearance of PCO in group C was much later than in the other two groups. The wet posterior capsules were weighed to be 0.3735 ± 0.0943 g (group A), 0.3754 ± 0.1093 g (group B), and 0.0432 ± 0.0089 g (group C). Histological observation showed a similar phenomenon, that there was remarkably less accumulation of lens materials on the posterior capsules in group C than in the other two groups. Conclusion Our findings suggest that the designed RAPA-PLGA-IOL effectively prevented formation and development of PCO for a relatively long duration.
ISSN:0721-832X
1435-702X
DOI:10.1007/s00417-008-1007-0