使用模拟白内障人工晶状体对兔子单眼形觉剥夺进行建模。
Modeling monocular form deprivation in rabbits using a simulated-cataract intraocular lens.
作者信息
Gu Si-Yi, Xu Li-Ming, Sun Wei-Jie, Liang Li-Li, Lin Lei, Zou Han, Xu Jing-Yuan, Zheng Yu, Li Yuan-Yuan, Zhao Yin-Ying, Chang Ping-Jun, Zhao Yun-E
机构信息
Eye Hospital and School of Ophthalmology and Optometry, Wenzhou Medical University, Wenzhou 325003, Zhejiang Province, China.
The State Key Laboratory of Optometry, Ophthalmology and Vision Science, Wenzhou 325003, Zhejiang Province, China.
出版信息
Int J Ophthalmol. 2024 Dec 18;17(12):2177-2184. doi: 10.18240/ijo.2024.12.04. eCollection 2024.
AIM
To establish an animal model of form deprivation amblyopia based on a simulated cataract intraocular lens (IOLs).
METHODS
Poly(dimethyl siloxane)-SiO thin films (PSF) with different degrees of opacity as IOL materials were prepared. The light transmission of the PSF-IOL was measured, and its biosafety was determined by cell counting kit (CCK)-8 assay using the HLEC-B3 cell line and ARPE-19 cell line. Subsequently, the safety was determined by implanting the PSF-IOL with 10% wt SiO into the right eyes of New Zealand white rabbits (PSF-IOL group), and compared with two control groups: contralateral comparison group and normal control (NC) group (Contralateral comparison group: the fellow eye; NC group: a group of binocular normal rabbits without intervention). The flash visual-evoked potentials (F-VEPs) were measured to verify amblyopia.
RESULTS
PSFs containing 0, 2%, and 10% wt SiO were successfully constructed. The 0 SiO PSF was transparent, while the 10% wt SiO PSF was completely opaque. It was found that PSF did not induce unwanted cytotoxicity in HLECs and ARPE19 cells . , PSF-IOL with 10% wt SiO was also non-toxic, and no significant inflammation or structural changes occurred after four weeks of PSF-IOL implantation. Finally, our IOL-simulated congenital cataract rabbit detected by F-VEPs suggested tentative amblyopia.
CONCLUSION
A PSF-IOL that mimics cataracts is created. A novel form deprivation model is created by the IOL-simulated congenital cataract rabbit. It can be developed fast and stable and holds great potential for future study.
目的
基于模拟白内障人工晶状体(IOL)建立形觉剥夺性弱视动物模型。
方法
制备具有不同不透明度的聚二甲基硅氧烷-SiO薄膜(PSF)作为IOL材料。测量PSF-IOL的透光率,并使用HLEC-B3细胞系和ARPE-19细胞系通过细胞计数试剂盒(CCK)-8测定法确定其生物安全性。随后,将含10%重量比SiO的PSF-IOL植入新西兰白兔右眼(PSF-IOL组)来确定安全性,并与两个对照组进行比较:对侧比较组和正常对照组(NC组)(对侧比较组:对侧眼;NC组:一组未经干预的双眼正常兔子)。测量闪光视觉诱发电位(F-VEP)以验证弱视。
结果
成功构建了含0%、2%和10%重量比SiO的PSF。0% SiO的PSF是透明的,而10%重量比SiO的PSF是完全不透明的。发现PSF在HLEC和ARPE19细胞中未诱导不必要的细胞毒性。此外,含10%重量比SiO的PSF-IOL也是无毒的,PSF-IOL植入四周后未发生明显炎症或结构变化。最后,通过F-VEP检测的我们的IOL模拟先天性白内障兔提示存在初步弱视。
结论
创建了一种模拟白内障的PSF-IOL。通过IOL模拟先天性白内障兔创建了一种新型形觉剥夺模型。它可以快速稳定地发展,对未来研究具有巨大潜力。
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