Role of Radiation Processing in Production of Hydrogels for Medical Applications

Recently, hydrophilic polymer gel (hydrogel) for application in medical fields has attracted much attention of researchers due to its unique properties which can resemble human living organs. Wound dressing, contact lenses and drug delivery system are among their applications in medical field. High...
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Autor*in:	D. Darwis [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2009

Schlagwörter:	Radiation processing hydrogel high energy radiation biomedical

Übergeordnetes Werk:	In: Atom Indonesia - Center for Development of Nuclear Informatics, National Nuclear Energy Agency (BATAN), 2013, 35(2009), 2, Seite 85-104
Übergeordnetes Werk:	volume:35 ; year:2009 ; number:2 ; pages:85-104

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Katalog-ID:	DOAJ010520406

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callnumber-first	T - Technology
author	D. Darwis
spellingShingle	D. Darwis misc TK9001-9401 misc Radiation processing misc hydrogel misc high energy radiation misc biomedical misc Nuclear engineering. Atomic power Role of Radiation Processing in Production of Hydrogels for Medical Applications
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topic_title	TK9001-9401 Role of Radiation Processing in Production of Hydrogels for Medical Applications Radiation processing hydrogel high energy radiation biomedical
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title	Role of Radiation Processing in Production of Hydrogels for Medical Applications
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title_full	Role of Radiation Processing in Production of Hydrogels for Medical Applications
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title_sort	role of radiation processing in production of hydrogels for medical applications
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title_auth	Role of Radiation Processing in Production of Hydrogels for Medical Applications
abstract	Recently, hydrophilic polymer gel (hydrogel) for application in medical fields has attracted much attention of researchers due to its unique properties which can resemble human living organs. Wound dressing, contact lenses and drug delivery system are among their applications in medical field. High energy radiation especially gamma ray and electron beam is often used for synthesis and modification of hydrogel. Through radiation crosslinking and or grafting process, hydrogel with specialty properties for specific application can be made. The advantage of radiation synthesized hydrogel over conventional methods is very pure products are obtained since the present of chemical initiators are not required; The preparation of sample does not require special sterile production rooms but still enables to obtain a sterile product; The irradiation process is easily controlled; Synthetis of new polymers and bulk or surface modification of commercial products can be accomplished with additional advantage of possibility of a concurrent sterilization. The future prospect of hydrogel seems to be in tissue engineering and diagnostic fields
abstractGer	Recently, hydrophilic polymer gel (hydrogel) for application in medical fields has attracted much attention of researchers due to its unique properties which can resemble human living organs. Wound dressing, contact lenses and drug delivery system are among their applications in medical field. High energy radiation especially gamma ray and electron beam is often used for synthesis and modification of hydrogel. Through radiation crosslinking and or grafting process, hydrogel with specialty properties for specific application can be made. The advantage of radiation synthesized hydrogel over conventional methods is very pure products are obtained since the present of chemical initiators are not required; The preparation of sample does not require special sterile production rooms but still enables to obtain a sterile product; The irradiation process is easily controlled; Synthetis of new polymers and bulk or surface modification of commercial products can be accomplished with additional advantage of possibility of a concurrent sterilization. The future prospect of hydrogel seems to be in tissue engineering and diagnostic fields
abstract_unstemmed	Recently, hydrophilic polymer gel (hydrogel) for application in medical fields has attracted much attention of researchers due to its unique properties which can resemble human living organs. Wound dressing, contact lenses and drug delivery system are among their applications in medical field. High energy radiation especially gamma ray and electron beam is often used for synthesis and modification of hydrogel. Through radiation crosslinking and or grafting process, hydrogel with specialty properties for specific application can be made. The advantage of radiation synthesized hydrogel over conventional methods is very pure products are obtained since the present of chemical initiators are not required; The preparation of sample does not require special sterile production rooms but still enables to obtain a sterile product; The irradiation process is easily controlled; Synthetis of new polymers and bulk or surface modification of commercial products can be accomplished with additional advantage of possibility of a concurrent sterilization. The future prospect of hydrogel seems to be in tissue engineering and diagnostic fields
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title_short	Role of Radiation Processing in Production of Hydrogels for Medical Applications
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