眼内投影仪对人眼影响的轴对称热有限元分析。

John A Stark, Craig D Foster, Charles Yu
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引用次数: 3

摘要

全世界有数百万人患有角膜混浊症,这仍然是导致失明的主要原因之一。角膜混浊是可以治疗的。然而,治疗这种疾病的手术方法,如角膜移植和角膜假体,有许多并发症。使用眼内投影仪是治疗角膜失明的一种很有前途的方法。像任何使用电力的设备一样,眼内投影设备会产生热量,这可能会损害眼组织。澳大利亚和国际标准规定,植入设备不能导致温度升高2°C。为了确定是否满足这些标准,在ANSYS Workbench中对投影仪在人眼中的二维轴对称热进行了分析。随着投影仪在其最大瓦数下运行,我们的分析表明,投影仪内的气隙扩展将有助于保持温度升高低于2°C。
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Axisymmetric Thermal Finite Element Analysis of Effects of Intraocular Projector in the Human Eye.

Millions of people worldwide live with corneal opacity, which continues to be one of the leading causes of blindness. Corneal opacity is treatable. However, the surgical methods for treating this condition, such as corneal transplantation and keratoprosthesis, have many complications. The use of an intraocular projector is a promising approach to treat corneal blindness. Like any device using electrical power, an intraocular projection device produces heat, which could potentially damage eye tissue. Australian and international standards state that there cannot be an increase of temperature of 2 °C caused by an implanted device. In order to determine if these standards are met, a 2D axisymmetric thermal analysis of the projector in the human eye is conducted in ANSYS Workbench. With the projector operating at its maximum wattage, our analysis shows that an air gap extension within the projector will help maintain the temperature increase below 2 °C.

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