Implantable Unpowered Parylene MEMS Intraocular Pressure Sensor

P.-J. Chen, D. Rodger, E. Meng, M. Humayun, Y. Tai
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引用次数: 15

Abstract

This paper presents the first implantable, unpowered, parylene-based micro-electro-mechanical-systems (MEMS) pressure sensor for intraocular pressure (IOP) sensing. From in situ mechanical deformation of the compliant structures, this sensor registers pressure variations without power consumption/transduction. Micromachined high-aspect-ratio thin-walled tubes in different geometric layouts are exploited to obtain a high-sensitivity pressure response. An integrated packaging method has been successfully developed to realize suture-less implantation of the device. In vitro testing results have demonstrated that the IOP sensor can achieve 0.67 degree/mmHg angular sensitivity with a spiral-tube design, 3.43 mum/mmHg lateral sensitivity with a long-armed-tube design, and 0.38 mum/mmHg longitudinal sensitivity with a serpentine-tube design. This IOP sensor is designed to be implanted in the anterior chamber of the eye and anchored directly on the iris so that, under incident visible light, the pressure response of the implant can be directly observed from outside the eye, which enables faithful and unpowered IOP monitoring in glaucoma patients
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植入式无动力聚对二甲苯MEMS眼压传感器
本文介绍了第一个可植入的、无动力的、基于聚苯乙烯的微机电系统(MEMS)眼压传感器。从柔性结构的原位机械变形,该传感器记录压力变化,而无需功耗/转导。利用不同几何布局的微机械高纵横比薄壁管来获得高灵敏度的压力响应。成功开发了一种集成包装方法来实现该装置的无缝线植入。体外测试结果表明,螺旋管设计的IOP传感器的角灵敏度为0.67度/mmHg,长臂管设计的横向灵敏度为3.43 μ m/mmHg,蛇形管设计的纵向灵敏度为0.38 μ m/mmHg。该IOP传感器被设计植入眼球前房,直接固定在虹膜上,在入射可见光下,可以从眼外直接观察到植入物的压力响应,从而实现对青光眼患者的忠实和无动力IOP监测
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