Anthocyanin-Functionalized Contact Lens Sensors for Ocular pH Monitoring
Anthocyanin-Functionalized Contact Lens Sensors for Ocular pH Monitoring
Anthocyanins are bioactive compounds naturally found in a variety of leaves, fruits, and vegetables. Anthocyanin pigments undergo a modification in their chemical structure when exposed to different concentrations of hydrogen ions, and they were extensively studied to be used as active elements in biocompatible pH sensors. The ocular pH is a significant parameter to assess the ocular physiology in cases of postocular surgery, keratoconjunctivitis, and ocular rosacea. Contact lenses have the potential to be used as medical diagnostic devices for in situ continuous monitoring of the ocular physiology. Here, anthocyanin-functionalized contact lenses were developed as wearable sensors to monitor the ocular pH. Anthocyanin pigments were extracted from Brassica oleracea and used to functionalize the polymeric matrices of commercial soft contact lenses by soaking and drop-casting processes. Contact lenses responded to the physiological ocular pH of 6.5, 7.0, and 7.5, exhibiting a systematic color shift from pink (pH 6.5) to purple (pH 7.0) and blue (pH 7.5). The functionalization of contact lens sensors was evaluated as a function of the dye concentration. Quantitative values were obtained by comparing the RGB triplets of the colors obtained with the naturally extracted dye and with delphinidin chloride dye in 0.0 to 1.5 mmol L-1 aqueous solution. The functionalization of contact lenses was studied as a function of the soaking time, resulting in best results when soaking for 24 h. The dye leakage from the contact lenses in deionized water was evaluated, and a negligible leakage after 18 h was observed. Poly-2-hydroxy ethylmethacrylate contact lenses were fabricated and cross-linked with anthocyanin dye, resulting in a slight color shift upon pH changes from 6.5 to 7.4. Contact lens pH sensors may be used to continuously monitor the ocular pH at point-of-care settings.
21792-21798
Riaz, Rafia Sarah
16369e87-b5b3-4da8-a064-2ce4d6ef114f
Elsherif, Mohamed
7d3a17e1-6eaf-42df-ab35-ce3a97f54622
Moreddu, Rosalia
8a5d77bc-dac4-4966-baa3-be26c5eec1ef
Rashid, Ijaz
6da5d0c1-8acd-48ac-92ff-531985d71147
Hassan, Muhammad Umair
446367b2-ccbf-4330-ac6d-b9b603b812fb
Yetisen, Ali K.
73141f83-3104-470a-bbf5-a7b42d9420a1
Butt, Haider
4ffc26d6-273f-4684-a832-662bd055fc54
24 December 2019
Riaz, Rafia Sarah
16369e87-b5b3-4da8-a064-2ce4d6ef114f
Elsherif, Mohamed
7d3a17e1-6eaf-42df-ab35-ce3a97f54622
Moreddu, Rosalia
8a5d77bc-dac4-4966-baa3-be26c5eec1ef
Rashid, Ijaz
6da5d0c1-8acd-48ac-92ff-531985d71147
Hassan, Muhammad Umair
446367b2-ccbf-4330-ac6d-b9b603b812fb
Yetisen, Ali K.
73141f83-3104-470a-bbf5-a7b42d9420a1
Butt, Haider
4ffc26d6-273f-4684-a832-662bd055fc54
Riaz, Rafia Sarah, Elsherif, Mohamed, Moreddu, Rosalia, Rashid, Ijaz, Hassan, Muhammad Umair, Yetisen, Ali K. and Butt, Haider
(2019)
Anthocyanin-Functionalized Contact Lens Sensors for Ocular pH Monitoring.
ACS Omega, 4 (26), .
(doi:10.1021/acsomega.9b02638).
Abstract
Anthocyanins are bioactive compounds naturally found in a variety of leaves, fruits, and vegetables. Anthocyanin pigments undergo a modification in their chemical structure when exposed to different concentrations of hydrogen ions, and they were extensively studied to be used as active elements in biocompatible pH sensors. The ocular pH is a significant parameter to assess the ocular physiology in cases of postocular surgery, keratoconjunctivitis, and ocular rosacea. Contact lenses have the potential to be used as medical diagnostic devices for in situ continuous monitoring of the ocular physiology. Here, anthocyanin-functionalized contact lenses were developed as wearable sensors to monitor the ocular pH. Anthocyanin pigments were extracted from Brassica oleracea and used to functionalize the polymeric matrices of commercial soft contact lenses by soaking and drop-casting processes. Contact lenses responded to the physiological ocular pH of 6.5, 7.0, and 7.5, exhibiting a systematic color shift from pink (pH 6.5) to purple (pH 7.0) and blue (pH 7.5). The functionalization of contact lens sensors was evaluated as a function of the dye concentration. Quantitative values were obtained by comparing the RGB triplets of the colors obtained with the naturally extracted dye and with delphinidin chloride dye in 0.0 to 1.5 mmol L-1 aqueous solution. The functionalization of contact lenses was studied as a function of the soaking time, resulting in best results when soaking for 24 h. The dye leakage from the contact lenses in deionized water was evaluated, and a negligible leakage after 18 h was observed. Poly-2-hydroxy ethylmethacrylate contact lenses were fabricated and cross-linked with anthocyanin dye, resulting in a slight color shift upon pH changes from 6.5 to 7.4. Contact lens pH sensors may be used to continuously monitor the ocular pH at point-of-care settings.
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riaz-et-al-2019-anthocyanin-functionalized-contact-lens-sensors-for-ocular-ph-monitoring
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Published date: 24 December 2019
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© 2019 American Chemical Society.
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Local EPrints ID: 503182
URI: http://eprints.soton.ac.uk/id/eprint/503182
ISSN: 2470-1343
PURE UUID: a2bf994c-5ca4-419f-bb7a-1164b2e24841
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Date deposited: 23 Jul 2025 16:38
Last modified: 22 Aug 2025 02:46
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Contributors
Author:
Rafia Sarah Riaz
Author:
Mohamed Elsherif
Author:
Rosalia Moreddu
Author:
Ijaz Rashid
Author:
Muhammad Umair Hassan
Author:
Ali K. Yetisen
Author:
Haider Butt
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