Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure.
Kim Yong Woo, Kim Mi Jeung, Park Ki Ho, Jeoung Jin Wook, Kim Seok Hwan, Jang Cheol In, Lee Soo Hyun, Kim Jae Hun, Lee Seok, Kang Ji Yoon
AI Summary
This study validated an implantable IOP sensor, finding it wirelessly detects pressure changes and is biocompatible in rabbits, offering a promising tool for continuous glaucoma monitoring.
Abstract
Background
This study aims to validate the performance and biocompatibility of an implantable inductive-type sensor for continuous monitoring of intraocular pressure (IOP) METHODS: The sensor is composed of a top layer integrated with an inductor and capacitor circuit, and a bottom layer integrated with ferrite. With IOP change, the sensor's bottom layer is mechanically deflected, which changes the distance between the bottom-layer ferrite and top-layer inductor, resulting in an alteration of inductance magnitude and the resonant frequency (RF). In-vitro measurement was conducted via air pressurization in a sealing jig (n = 3). Subsequently, the sensor was implanted into the anterior chamber of a rabbit eye. In-vivo measurement was performed while the IOP was elevated by infusion of balanced salt solution (BSS, 6 μL/min). Smaller-sized sensors later were implanted into two rabbit eyes, which were microscopically examined at 2, 4 and 8 weeks post-implantation. The eyes were then immediately enucleated for histological examination.
Results
The in-vitro measurement showed a significant RF shift as pressure in the jig was increased from 0 mmHg to 60 mmHg (average initial frequency: 10.86 MHz, average shift: 403 kHz). The in-vivo measurement also showed an RF decrease, from 12.80 MHz to 12.67 MHz, as the pressure was increased from 10 mmHg to 20 mmHg. Microscopic in-vivo evaluations and histological exams, performed at intervals up to 8 weeks post-implantation, showed no evidence of significant inflammation or deformity of the ocular-tissue structures.
Conclusions
The implantable inductive-type IOP sensor demonstrated wireless pressure-sensing ability and favourable biocompatibility in the rabbit eye.
MeSH Terms
Shields Classification
Key Concepts4
An implantable inductive-type sensor for continuous monitoring of intraocular pressure (IOP) demonstrated a significant resonant frequency (RF) shift, from an average initial frequency of 10.86 MHz to an average shift of 403 kHz, as pressure in a sealing jig was increased from 0 mmHg to 60 mmHg during in-vitro measurement.
An implantable inductive-type sensor for continuous monitoring of intraocular pressure (IOP) showed an RF decrease, from 12.80 MHz to 12.67 MHz, as the IOP was increased from 10 mmHg to 20 mmHg during in-vivo measurement in a rabbit eye.
Microscopic in-vivo evaluations and histological exams of smaller-sized implantable inductive-type IOP sensors in two rabbit eyes, performed at intervals up to 8 weeks post-implantation, showed no evidence of significant inflammation or deformity of the ocular-tissue structures, indicating favorable biocompatibility.
The implantable inductive-type IOP sensor demonstrated wireless pressure-sensing ability and favourable biocompatibility in the rabbit eye.
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