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Wearable smart contact lenses for continual glucose monitoring: a review

Wearable smart contact lenses for continual glucose monitoring: a review
Wearable smart contact lenses for continual glucose monitoring: a review

Diabetes mellitus is a chronic disease requiring a careful management to prevent its collateral complications, such as cardiovascular and Alzheimer's diseases, retinopathy, nephropathy, foot and hearing impairment, and neuropathy. Self-monitoring of blood glucose at point-of-care settings is an established practice for diabetic patients. However, current technologies for glucose monitoring are invasive, costly, and only provide single snapshots for a widely varying parameter. On the other hand, tears are a source of physiological information that mirror the health state of an individual by expressing different concentrations of metabolites, enzymes, vitamins, salts, and proteins. Therefore, the eyes may be exploited as a sensing site with substantial diagnostic potential. Contact lens sensors represent a viable route for targeting minimally-invasive monitoring of disease onset and progression. Particularly, glucose concentration in tears may be used as a surrogate to estimate blood glucose levels. Extensive research efforts recently have been devoted to develop smart contact lenses for continual glucose detection. The latest advances in the field are reviewed herein. Sensing technologies are described, compared, and the associated challenges are critically discussed.

contact lenses, enzymes, fluorescence, glucose sensors, light diffraction, phenylboronic acid
2296-858X
Elsherif, Mohamed
7d3a17e1-6eaf-42df-ab35-ce3a97f54622
Moreddu, Rosalia
8a5d77bc-dac4-4966-baa3-be26c5eec1ef
Alam, Fahad
63f65eb4-14a8-4cf0-ae36-d14bb814bed7
Salih, Ahmed E.
186700e4-d46a-4ff0-bc4e-b208b4df18b6
Ahmed, Israr
7e68db8f-f335-4f3a-93d6-d977a490ff64
Butt, Haider
4ffc26d6-273f-4684-a832-662bd055fc54
Elsherif, Mohamed
7d3a17e1-6eaf-42df-ab35-ce3a97f54622
Moreddu, Rosalia
8a5d77bc-dac4-4966-baa3-be26c5eec1ef
Alam, Fahad
63f65eb4-14a8-4cf0-ae36-d14bb814bed7
Salih, Ahmed E.
186700e4-d46a-4ff0-bc4e-b208b4df18b6
Ahmed, Israr
7e68db8f-f335-4f3a-93d6-d977a490ff64
Butt, Haider
4ffc26d6-273f-4684-a832-662bd055fc54

Elsherif, Mohamed, Moreddu, Rosalia, Alam, Fahad, Salih, Ahmed E., Ahmed, Israr and Butt, Haider (2022) Wearable smart contact lenses for continual glucose monitoring: a review. Frontiers in Medicine, 9, [858784]. (doi:10.3389/fmed.2022.858784).

Record type: Review

Abstract

Diabetes mellitus is a chronic disease requiring a careful management to prevent its collateral complications, such as cardiovascular and Alzheimer's diseases, retinopathy, nephropathy, foot and hearing impairment, and neuropathy. Self-monitoring of blood glucose at point-of-care settings is an established practice for diabetic patients. However, current technologies for glucose monitoring are invasive, costly, and only provide single snapshots for a widely varying parameter. On the other hand, tears are a source of physiological information that mirror the health state of an individual by expressing different concentrations of metabolites, enzymes, vitamins, salts, and proteins. Therefore, the eyes may be exploited as a sensing site with substantial diagnostic potential. Contact lens sensors represent a viable route for targeting minimally-invasive monitoring of disease onset and progression. Particularly, glucose concentration in tears may be used as a surrogate to estimate blood glucose levels. Extensive research efforts recently have been devoted to develop smart contact lenses for continual glucose detection. The latest advances in the field are reviewed herein. Sensing technologies are described, compared, and the associated challenges are critically discussed.

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More information

Published date: 4 April 2022
Additional Information: Publisher Copyright: Copyright © 2022 Elsherif, Moreddu, Alam, Salih, Ahmed and Butt.
Keywords: contact lenses, enzymes, fluorescence, glucose sensors, light diffraction, phenylboronic acid

Identifiers

Local EPrints ID: 503368
URI: http://eprints.soton.ac.uk/id/eprint/503368
DOI: doi:10.3389/fmed.2022.858784
ISSN: 2296-858X
PURE UUID: 8f61b956-6558-43eb-9d5d-5f95b9363425
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: Mohamed Elsherif
Author: Rosalia Moreddu ORCID iD
Author: Fahad Alam
Author: Ahmed E. Salih
Author: Israr Ahmed
Author: Haider Butt

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