Examination of the short term & long term gluing properties of double crosslink tissue adhesive (DCA)

Examination of the short term & long term gluing properties of double crosslink tissue adhesive (DCA)

Previously, a novel double crosslink tissue adhesive (DCA) was designed for wide area in vivo applications such as seroma prevention. Most mussel adhesive protein (MAP) biomimetic tissue adhesives employ a one-step approach in its curing process, which often result in limitations in their applicatio...

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Main Author: Phang, Eunice Kai Ying
Other Authors: Wang Dongan
Format: Final Year Project
Language:English
Published: 2016
Subjects:
DRNTU::Engineering
Online Access:http://hdl.handle.net/10356/68269
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-682692023-03-03T15:38:00Z Examination of the short term & long term gluing properties of double crosslink tissue adhesive (DCA) Phang, Eunice Kai Ying Wang Dongan School of Chemical and Biomedical Engineering DRNTU::Engineering Previously, a novel double crosslink tissue adhesive (DCA) was designed for wide area in vivo applications such as seroma prevention. Most mussel adhesive protein (MAP) biomimetic tissue adhesives employ a one-step approach in its curing process, which often result in limitations in their applications. The DCA, however, utilizes a stepwise approach to maximize the roles of the crosslinkers used while achieving optimal adhesive properties. Hence, it is of great interest to further examine the independent contribution by each of the crosslinker to the adhesive properties of the DCA. In continuation to the previous findings, this paper examines the adhesive properties of the short term and long term adhesive function of the aforementioned tissue adhesive separately. Factors such as reaction temperature, concentration of rapid crosslinker (Fe3+), effect of Fe3+ to adhesive properties and tissue stability were investigated. The adhesive strength of the adhesive was found to increase with higher concentration of FeCl3 added. In addition, the gelation times of the tissue adhesives were also observed to be significantly shortened at higher incubation temperature of 37°C as compared to 25°C. Despite the advantageous controllable and rapid crosslinking functions contributed by the addition of Fe3+, it also caused the modulation of the large adhesive strength contributed by the long term crosslinker, genipin. Similarly, G’ and G” of the DCA, which determines the adhesive’s viscoelastic properties were also found to be moderated with the addition of Fe3+. Bachelor of Engineering (Chemical and Biomolecular Engineering) 2016-05-25T04:35:51Z 2016-05-25T04:35:51Z 2016 Final Year Project (FYP) http://hdl.handle.net/10356/68269 en Nanyang Technological University 53 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering
spellingShingle DRNTU::Engineering
Phang, Eunice Kai Ying
Examination of the short term & long term gluing properties of double crosslink tissue adhesive (DCA)
description Previously, a novel double crosslink tissue adhesive (DCA) was designed for wide area in vivo applications such as seroma prevention. Most mussel adhesive protein (MAP) biomimetic tissue adhesives employ a one-step approach in its curing process, which often result in limitations in their applications. The DCA, however, utilizes a stepwise approach to maximize the roles of the crosslinkers used while achieving optimal adhesive properties. Hence, it is of great interest to further examine the independent contribution by each of the crosslinker to the adhesive properties of the DCA. In continuation to the previous findings, this paper examines the adhesive properties of the short term and long term adhesive function of the aforementioned tissue adhesive separately. Factors such as reaction temperature, concentration of rapid crosslinker (Fe3+), effect of Fe3+ to adhesive properties and tissue stability were investigated. The adhesive strength of the adhesive was found to increase with higher concentration of FeCl3 added. In addition, the gelation times of the tissue adhesives were also observed to be significantly shortened at higher incubation temperature of 37°C as compared to 25°C. Despite the advantageous controllable and rapid crosslinking functions contributed by the addition of Fe3+, it also caused the modulation of the large adhesive strength contributed by the long term crosslinker, genipin. Similarly, G’ and G” of the DCA, which determines the adhesive’s viscoelastic properties were also found to be moderated with the addition of Fe3+.
author2 Wang Dongan
author_facet Wang Dongan
Phang, Eunice Kai Ying
format Final Year Project
author Phang, Eunice Kai Ying
author_sort Phang, Eunice Kai Ying
title Examination of the short term & long term gluing properties of double crosslink tissue adhesive (DCA)
title_short Examination of the short term & long term gluing properties of double crosslink tissue adhesive (DCA)
title_full Examination of the short term & long term gluing properties of double crosslink tissue adhesive (DCA)
title_fullStr Examination of the short term & long term gluing properties of double crosslink tissue adhesive (DCA)
title_full_unstemmed Examination of the short term & long term gluing properties of double crosslink tissue adhesive (DCA)
title_sort examination of the short term & long term gluing properties of double crosslink tissue adhesive (dca)
publishDate 2016
url http://hdl.handle.net/10356/68269
_version_ 1759856535474798592

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