Eye Center, Affiliated Second Hospital, College of Medicine, Zhejiang University, Hangzhou 310009, China.
J Cataract Refract Surg. 2010 Feb;36(2):290-8. doi: 10.1016/j.jcrs.2009.09.027.
To evaluate the uveal and capsular biocompatibility of intraocular lenses (IOLs) with a hydrophilic anterior surface and a hydrophobic posterior surface in a rabbit model.
Eye Center, Affiliated Second Hospital, College of Medicine, Zhejiang University, Hangzhou, China.
Modified silicone IOLs were produced by grafting 2-methacryloyloxyethyl phosphorylcholine (MPC) onto the anterior IOL surface using a plasma technique. A contact-angle test characterized the hydrophilicity of the IOL surface; physical and optical properties were determined by State Food and Drug Administration (SFDA) standards. Rabbits had phacomulsification and implantation a modified silicone IOL, a control silicone IOL, or a hydrogel IOL. Postoperative inflammation was assessed by aqueous flare measurement, and PCO was evaluated by software analysis. Three months after surgery, attached cells on extracted IOLs were evaluated by light microscopy; PCO was evaluated by Miyake-Apple technique. Histologic sections of globes were used to assess lens epithelial cells (LECs) and extracellular matrix in the capsular bag.
Contact angle data showed the MPC-modified IOL had a hydrophilic anterior surface and hydrophobic posterior surface. The properties of the modified IOLs met SFDA standards. There was no statistical difference in aqueous flare between the IOL groups at any time. The modified and control IOLs had less PCO than the hydrogel IOLs (P<.05). There were fewer cells on modified IOLs than on silicone IOLs (P<.05). The LECs and cortical remnants on modified IOLs had a rapid, fibroblastic appearance at the optic periphery; the center was clear.
Results suggest that the MPC-modified IOL has excellent uveal and capsule biocompatibility from hydrophilic anterior surface and hydrophobic posterior surface properties, respectively.
在兔模型中评估具有亲水性前表面和疏水性后表面的眼内透镜(IOL)的葡萄膜和囊袋生物相容性。
浙江大学医学院附属第二医院眼科中心,杭州,中国。
使用等离子体技术将 2-(甲基丙烯酰氧基)乙基磷酰胆碱(MPC)接枝到前 IOL 表面上,从而生产出改良的硅酮 IOL。接触角测试用于表征 IOL 表面的亲水性;物理和光学性能符合国家食品药品监督管理局(SFDA)标准。兔子接受了白内障乳化和植入改良的硅酮 IOL、对照硅酮 IOL 或水凝胶 IOL。通过房水闪辉测量评估术后炎症,通过软件分析评估 PCO。手术后 3 个月,通过光镜评估提取的 IOL 上附着的细胞;通过 Miyake-Apple 技术评估 PCO。使用眼球切片评估囊袋中的晶状体上皮细胞(LEC)和细胞外基质。
接触角数据表明 MPC 修饰的 IOL 具有亲水性前表面和疏水性后表面。改性 IOL 的性能符合 SFDA 标准。在任何时间点,IOL 组之间的房水闪辉均无统计学差异。改良 IOL 和对照 IOL 的 PCO 少于水凝胶 IOL(P<.05)。改良 IOL 上的细胞少于硅酮 IOL(P<.05)。在改良 IOL 上,LEC 和皮质残留物在光学周边具有快速的成纤维细胞外观,中心清晰。
结果表明,MPC 修饰的 IOL 分别具有出色的亲水性前表面和疏水性后表面特性,具有出色的葡萄膜和囊袋生物相容性。
