9 - Polymer coatings for biocompatibility and reduced nonspecific adsorption

The pursuit of discovering a material with ideal surface properties and essential mechanical properties is a continued work in progress, particularly in the case of cardiovascular stent materials. The current generation of stent materials tends to trigger various adverse reactions such as inflammati...

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Main Authors: Ramkumar, M. C., Cools, P., Arunkumar, A., Geyter, N. De, Morent, R., Kumar, V., Udaykumar, S., Gopinath, P., Jaganathan, S. K., Pandiyaraj, K. N.
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Published: Elsevier Ltd. 2018
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Online Access:http://eprints.utm.my/id/eprint/84524/
http://dx.doi.org/10.1016/B978-0-08-100496-8.00009-3
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Institution: Universiti Teknologi Malaysia
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spelling my.utm.845242020-01-11T07:32:02Z http://eprints.utm.my/id/eprint/84524/ 9 - Polymer coatings for biocompatibility and reduced nonspecific adsorption Ramkumar, M. C. Cools, P. Arunkumar, A. Geyter, N. De Morent, R. Kumar, V. Udaykumar, S. Gopinath, P. Jaganathan, S. K. Pandiyaraj, K. N. Q Science (General) The pursuit of discovering a material with ideal surface properties and essential mechanical properties is a continued work in progress, particularly in the case of cardiovascular stent materials. The current generation of stent materials tends to trigger various adverse reactions such as inflammation, fibrosis, thrombosis, and infection. Most of these issues arise due to interface problems between the stent surface and its immediate environment. The main focus of most research groups therefore lies on modifying the surface of materials without altering the bulk properties. Most polymeric materials already possess the proper bulk properties, for instance, light weight-to-volume ratio, exceptional corrosion resistance, easy processing and molding, and excellent mechanical properties. Altering the surface properties of the already available polymers is therefore the most followed approach. Various surface modification methods have been studied extensively, resulting in enhancement of the hemocompatibility by decreasing either late-stage restenosis or acute thrombogenicity. This chapter focuses specifically on nonthermal plasma technology, as it is a well-established surface modification and has proved to be successful for various applications related to biomedical materials. Elsevier Ltd. 2018 Article PeerReviewed Ramkumar, M. C. and Cools, P. and Arunkumar, A. and Geyter, N. De and Morent, R. and Kumar, V. and Udaykumar, S. and Gopinath, P. and Jaganathan, S. K. and Pandiyaraj, K. N. (2018) 9 - Polymer coatings for biocompatibility and reduced nonspecific adsorption. Functionalised Cardiovascular Stents . pp. 155-198. http://dx.doi.org/10.1016/B978-0-08-100496-8.00009-3 DOI:10.1016/B978-0-08-100496-8.00009-3
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic Q Science (General)
spellingShingle Q Science (General)
Ramkumar, M. C.
Cools, P.
Arunkumar, A.
Geyter, N. De
Morent, R.
Kumar, V.
Udaykumar, S.
Gopinath, P.
Jaganathan, S. K.
Pandiyaraj, K. N.
9 - Polymer coatings for biocompatibility and reduced nonspecific adsorption
description The pursuit of discovering a material with ideal surface properties and essential mechanical properties is a continued work in progress, particularly in the case of cardiovascular stent materials. The current generation of stent materials tends to trigger various adverse reactions such as inflammation, fibrosis, thrombosis, and infection. Most of these issues arise due to interface problems between the stent surface and its immediate environment. The main focus of most research groups therefore lies on modifying the surface of materials without altering the bulk properties. Most polymeric materials already possess the proper bulk properties, for instance, light weight-to-volume ratio, exceptional corrosion resistance, easy processing and molding, and excellent mechanical properties. Altering the surface properties of the already available polymers is therefore the most followed approach. Various surface modification methods have been studied extensively, resulting in enhancement of the hemocompatibility by decreasing either late-stage restenosis or acute thrombogenicity. This chapter focuses specifically on nonthermal plasma technology, as it is a well-established surface modification and has proved to be successful for various applications related to biomedical materials.
format Article
author Ramkumar, M. C.
Cools, P.
Arunkumar, A.
Geyter, N. De
Morent, R.
Kumar, V.
Udaykumar, S.
Gopinath, P.
Jaganathan, S. K.
Pandiyaraj, K. N.
author_facet Ramkumar, M. C.
Cools, P.
Arunkumar, A.
Geyter, N. De
Morent, R.
Kumar, V.
Udaykumar, S.
Gopinath, P.
Jaganathan, S. K.
Pandiyaraj, K. N.
author_sort Ramkumar, M. C.
title 9 - Polymer coatings for biocompatibility and reduced nonspecific adsorption
title_short 9 - Polymer coatings for biocompatibility and reduced nonspecific adsorption
title_full 9 - Polymer coatings for biocompatibility and reduced nonspecific adsorption
title_fullStr 9 - Polymer coatings for biocompatibility and reduced nonspecific adsorption
title_full_unstemmed 9 - Polymer coatings for biocompatibility and reduced nonspecific adsorption
title_sort 9 - polymer coatings for biocompatibility and reduced nonspecific adsorption
publisher Elsevier Ltd.
publishDate 2018
url http://eprints.utm.my/id/eprint/84524/
http://dx.doi.org/10.1016/B978-0-08-100496-8.00009-3
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