Physicochemical properties of hydrogels for use in ophthalmology

B.J. Tighe

doi:10.1533/9781845697433.3.496

Physicochemical properties of hydrogels for use in ophthalmology

B.J. Tighe^*

^*Corresponding author for this work

Chemical Engineering & Applied Chemistry

Research output: Chapter in Book/Published conference output › Chapter

Abstract

This chapter deals with the physicochemical aspects of structure-property relationships in hydrogels, with particular reference to their application in optometry and ophthalmology. It demonstrates the ways in which the amount of water contained in the hydrogel network can be manipulated by changes in copolymer composition, and illustrates the advantages and limitations imposed by use of water as a means of influencing surface, transport and mechanical properties of the gel. The chapter then proceeds to show how interpenetrating networks and macroporous materials, in which behaviour is not so centrally dominated by the equilibrium water content as is the case with homogeneous hydrogels, provide advantageous ways of extending the properties of these interesting materials. 2010 Woodhead Publishing Limited All rights reserved.

Original language	English
Title of host publication	Biomaterials and regenerative medicine in ophthalmology
Editors	Traian V. Chirila
Place of Publication	Cambridge (UK)
Publisher	Woodhead
Pages	496-523
Number of pages	28
ISBN (Print)	978-1-84569-443-2
DOIs	https://doi.org/10.1533/9781845697433.3.496
Publication status	Published - 2010

Publication series

Name	Woodhead Publishing Series in Biomaterials
Publisher	Woodhead

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10.1533/9781845697433.3.496

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title = "Physicochemical properties of hydrogels for use in ophthalmology",

abstract = "This chapter deals with the physicochemical aspects of structure-property relationships in hydrogels, with particular reference to their application in optometry and ophthalmology. It demonstrates the ways in which the amount of water contained in the hydrogel network can be manipulated by changes in copolymer composition, and illustrates the advantages and limitations imposed by use of water as a means of influencing surface, transport and mechanical properties of the gel. The chapter then proceeds to show how interpenetrating networks and macroporous materials, in which behaviour is not so centrally dominated by the equilibrium water content as is the case with homogeneous hydrogels, provide advantageous ways of extending the properties of these interesting materials. 2010 Woodhead Publishing Limited All rights reserved.",

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AB - This chapter deals with the physicochemical aspects of structure-property relationships in hydrogels, with particular reference to their application in optometry and ophthalmology. It demonstrates the ways in which the amount of water contained in the hydrogel network can be manipulated by changes in copolymer composition, and illustrates the advantages and limitations imposed by use of water as a means of influencing surface, transport and mechanical properties of the gel. The chapter then proceeds to show how interpenetrating networks and macroporous materials, in which behaviour is not so centrally dominated by the equilibrium water content as is the case with homogeneous hydrogels, provide advantageous ways of extending the properties of these interesting materials. 2010 Woodhead Publishing Limited All rights reserved.

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SN - 978-1-84569-443-2

T3 - Woodhead Publishing Series in Biomaterials

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BT - Biomaterials and regenerative medicine in ophthalmology

A2 - Chirila, Traian V.

PB - Woodhead

CY - Cambridge (UK)

ER -

Physicochemical properties of hydrogels for use in ophthalmology

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