3D printed flexible bioesensing platform

The concept of drug delivery has evolved over the years. From the form of immediate release oral-dosage, to targeted release drug delivery system. While most of the drugs adopts the oral-dosage ways, some medications cannot be delivered by oral administration due to its ease of degradation. Therefor...

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Main Author: Goh, Yong Hao
Other Authors: Yeong Wai Yee
Format: Final Year Project
Language:English
Published: 2019
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Online Access:http://hdl.handle.net/10356/78731
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-787312023-03-04T18:23:53Z 3D printed flexible bioesensing platform Goh, Yong Hao Yeong Wai Yee School of Mechanical and Aerospace Engineering Engineering::Materials The concept of drug delivery has evolved over the years. From the form of immediate release oral-dosage, to targeted release drug delivery system. While most of the drugs adopts the oral-dosage ways, some medications cannot be delivered by oral administration due to its ease of degradation. Therefore, research efforts are targeting invasive methods of drug delivery that is being developed and introduced into the market such as transdermal patches. The transdermal route is utilised to deliver drugs through skin into systemic circulation. Its main advantages over oral dosage drug delivery includes controlled drug release with minimum side effects, suitable for administered drug having poor oral availability, avoidance of first-pass effect and many more. The production of these transdermal patches has conventionally been manufactured via a process that includes blending of drugs, coating of adhesive, backing lamination and die-cutting the patch followed by packing. This conventional manufacturing process of transdermal patch only allows each patch to be used once and disposal of these patches creates waste materials. This report experiments with an alternate way of manufacturing the transdermal patch via additive manufacturing, also known as 3D printing. Stereolithography technology has been developed for many years and is widely used in biomedical and tissue engineering and one of its application is explored in pharmaceutical application. This report provides a brief summary of current techniques in manufacturing the transdermal patch and comprehensive analysis of the stereolithography apparatus method as it has good accuracy and thus be used for many areas. Research and results of SLA manufactured drug delivery platform for internal delivery applications are also described in this paper. Finally, the characterization of the additive manufactured product is also reviewed. Bachelor of Engineering (Materials Engineering) 2019-06-26T04:51:59Z 2019-06-26T04:51:59Z 2019 Final Year Project (FYP) http://hdl.handle.net/10356/78731 en Nanyang Technological University 46 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 Engineering::Materials
spellingShingle Engineering::Materials
Goh, Yong Hao
3D printed flexible bioesensing platform
description The concept of drug delivery has evolved over the years. From the form of immediate release oral-dosage, to targeted release drug delivery system. While most of the drugs adopts the oral-dosage ways, some medications cannot be delivered by oral administration due to its ease of degradation. Therefore, research efforts are targeting invasive methods of drug delivery that is being developed and introduced into the market such as transdermal patches. The transdermal route is utilised to deliver drugs through skin into systemic circulation. Its main advantages over oral dosage drug delivery includes controlled drug release with minimum side effects, suitable for administered drug having poor oral availability, avoidance of first-pass effect and many more. The production of these transdermal patches has conventionally been manufactured via a process that includes blending of drugs, coating of adhesive, backing lamination and die-cutting the patch followed by packing. This conventional manufacturing process of transdermal patch only allows each patch to be used once and disposal of these patches creates waste materials. This report experiments with an alternate way of manufacturing the transdermal patch via additive manufacturing, also known as 3D printing. Stereolithography technology has been developed for many years and is widely used in biomedical and tissue engineering and one of its application is explored in pharmaceutical application. This report provides a brief summary of current techniques in manufacturing the transdermal patch and comprehensive analysis of the stereolithography apparatus method as it has good accuracy and thus be used for many areas. Research and results of SLA manufactured drug delivery platform for internal delivery applications are also described in this paper. Finally, the characterization of the additive manufactured product is also reviewed.
author2 Yeong Wai Yee
author_facet Yeong Wai Yee
Goh, Yong Hao
format Final Year Project
author Goh, Yong Hao
author_sort Goh, Yong Hao
title 3D printed flexible bioesensing platform
title_short 3D printed flexible bioesensing platform
title_full 3D printed flexible bioesensing platform
title_fullStr 3D printed flexible bioesensing platform
title_full_unstemmed 3D printed flexible bioesensing platform
title_sort 3d printed flexible bioesensing platform
publishDate 2019
url http://hdl.handle.net/10356/78731
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