Fabry-Pérot optical sensor and portable detector for monitoring high-resolution ocular hemodynamics

Creators: Lee, Jeong Oen; Narasimhan, Vinayak; Balakrishna, Ashwin; Smith, Marcus R.; Du, Juan; Sretavan, David; Choo, Hyuck

Abstract

Our understanding of ocular hemodynamics and its role in ophthalmic disease progression remains unclear due to the shortcomings of precise and on-demand biomedical sensing technologies. Here, we report high-resolution in vivo assessment of ocular hemodynamics using a Fabry–Pérot cavity-based micro-optical sensor and a portable optical detector. The designed optical system is capable of measuring both static intraocular pressure and dynamic ocular pulsation profiles in parallel. Through a dynamic intensity variation analysis method that improves sensing resolution by 3–4 folds, our system is able to extract systolic/diastolic phases from a single ocular pulsation profile. Using a portable detector, we performed in vivo studies on rabbits and verified that the ophthalmic parameters obtained from our optical system closely match with traditional techniques such as tonometry, electrocardiography, and photo-plethysmography.

Additional Information

© 2019 IEEE. Manuscript received November 11, 2018; revised January 9, 2019; accepted January 19, 2019. Date of publication February 1, 2019; date of current version March 12, 2019. This work was supported in part by the National Institutes of Health under Grant EY024582, in part by the Heritage Medical Research Institute, in part by the National Research Foundation of Korea (NRF-2013R1A6A3A03026384), and in part by the Powell Foundation Award.

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