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Contact lens-based microchannel rings for detecting ocular hypertension

Contact lens-based microchannel rings for detecting ocular hypertension
Contact lens-based microchannel rings for detecting ocular hypertension

Glaucoma is a major cause of irreversible blindness worldwide. The most acknowledged biomarker to diagnose and monitor glaucoma progression is intraocular pressure (IOP). Gold standard techniques for IOP monitoring are invasive, uncomfortable, and require visiting a clinic. In addition, most methods only provide a single snapshot on widely varying parameters. On the other hand, contact lenses have attracted particular interest to be used as continuous monitoring platforms to incorporate sensors, drugs, and more. Here, commercial contact lenses were laser-processed to be capable of detecting IOP variations in the physiological range. Three ring-couples with interspaces of 1.0, 1.5, and 2.0 mm were engraved on three soft contact lenses separately by using a carbon dioxide laser. The IOP/pressure variations induced repeatable changes in the ring-couple interspace which acted as a smartphone-readable pressure sensor. The processed contact lenses may be a potential candidate toward IOP monitoring at point-of-care settings.

carbon dioxide laser, contact lenses, glaucoma, intraocular pressure
2076-3417
Alqurashi, Yousef
a71a92d8-c1e5-4d5a-8f0f-75471ee36155
Elsherif, Mohamed
7d3a17e1-6eaf-42df-ab35-ce3a97f54622
Moreddu, Rosalia
8a5d77bc-dac4-4966-baa3-be26c5eec1ef
Cieslak, Magdalena
90c5fbf2-5969-44ec-bef5-112e53af61ae
Dhaliwal, Hemeth
ab45187e-6928-4e86-a28b-adaacb1a06ce
Essa, Khamis
c0780aac-f62f-474e-bb26-56cba49c4bb0
Butt, Haider
4ffc26d6-273f-4684-a832-662bd055fc54
Alqurashi, Yousef
a71a92d8-c1e5-4d5a-8f0f-75471ee36155
Elsherif, Mohamed
7d3a17e1-6eaf-42df-ab35-ce3a97f54622
Moreddu, Rosalia
8a5d77bc-dac4-4966-baa3-be26c5eec1ef
Cieslak, Magdalena
90c5fbf2-5969-44ec-bef5-112e53af61ae
Dhaliwal, Hemeth
ab45187e-6928-4e86-a28b-adaacb1a06ce
Essa, Khamis
c0780aac-f62f-474e-bb26-56cba49c4bb0
Butt, Haider
4ffc26d6-273f-4684-a832-662bd055fc54

Alqurashi, Yousef, Elsherif, Mohamed, Moreddu, Rosalia, Cieslak, Magdalena, Dhaliwal, Hemeth, Essa, Khamis and Butt, Haider (2022) Contact lens-based microchannel rings for detecting ocular hypertension. Applied Sciences (Switzerland), 12 (20), [10661]. (doi:10.3390/app122010661).

Record type: Article

Abstract

Glaucoma is a major cause of irreversible blindness worldwide. The most acknowledged biomarker to diagnose and monitor glaucoma progression is intraocular pressure (IOP). Gold standard techniques for IOP monitoring are invasive, uncomfortable, and require visiting a clinic. In addition, most methods only provide a single snapshot on widely varying parameters. On the other hand, contact lenses have attracted particular interest to be used as continuous monitoring platforms to incorporate sensors, drugs, and more. Here, commercial contact lenses were laser-processed to be capable of detecting IOP variations in the physiological range. Three ring-couples with interspaces of 1.0, 1.5, and 2.0 mm were engraved on three soft contact lenses separately by using a carbon dioxide laser. The IOP/pressure variations induced repeatable changes in the ring-couple interspace which acted as a smartphone-readable pressure sensor. The processed contact lenses may be a potential candidate toward IOP monitoring at point-of-care settings.

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More information

Published date: 1 October 2022
Additional Information: Publisher Copyright: © 2022 by the authors.
Keywords: carbon dioxide laser, contact lenses, glaucoma, intraocular pressure

Identifiers

Local EPrints ID: 503370
URI: http://eprints.soton.ac.uk/id/eprint/503370
DOI: doi:10.3390/app122010661
ISSN: 2076-3417
PURE UUID: 4f79fa71-b9f8-4f98-bf39-db5c13ba2d47
ORCID for Rosalia Moreddu: ORCID iD orcid.org/0000-0002-0332-1606

Catalogue record

Date deposited: 29 Jul 2025 17:04
Last modified: 30 Jul 2025 02:14

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Contributors

Author: Yousef Alqurashi
Author: Mohamed Elsherif
Author: Rosalia Moreddu ORCID iD
Author: Magdalena Cieslak
Author: Hemeth Dhaliwal
Author: Khamis Essa
Author: Haider Butt

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