Photodynamic bubble-generating microneedles for enhanced transdermal cancer therapy
Active bubble-generating microneedles (MNs) upon skin interstitial fluid (ISF) contact facilitate deeper and more efficient delivery of intradermal therapeutics. However, bubble-generating MN platforms are sensitive to moisture, which limits their variety to load various functional drugs. This artic...
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sg-ntu-dr.10356-1624312023-07-21T15:41:15Z Photodynamic bubble-generating microneedles for enhanced transdermal cancer therapy Ning, Xiaoyu Chen, Si Yang, Yating Hwang, Jangsun Wiraja, Christian Zhang, Chi Liu, Wei Liu, Linbo Xu, Chenjie School of Electrical and Electronic Engineering Interdisciplinary Graduate School (IGS) School of Chemical and Biomedical Engineering NTU Institute for Health Technologies Engineering::Bioengineering Engineering::Nanotechnology Bubble-Generating Microneedles Frozen Immersion Active bubble-generating microneedles (MNs) upon skin interstitial fluid (ISF) contact facilitate deeper and more efficient delivery of intradermal therapeutics. However, bubble-generating MN platforms are sensitive to moisture, which limits their variety to load various functional drugs. This article presents a frozen immersion method that facilitates both hydrophobic and hydrophilic drug loading onto bubble-generating MNs without compromising both drug and MN properties. The formed bubbles upon ISF contact induce distinct vortex flow that produces a propulsion force to enhance drug transportation. The efficiency of transdermal drug delivery is further enhanced by sonophoresis. The drug delivery efficiency of this platform is first evaluated ex vivo using fresh mouse skins and human keloid tissues. Later, in the tumor-bearing mouse model, the platform enhances the skin penetration of photosensitizers (i.e., methylene blue) and correspondingly improves the efficacy of photodynamic therapy. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Ministry of Health (MOH) National Medical Research Council (NMRC) Submitted/Accepted version This project is supported by the Singapore Agency for Science, Technology and Research (A*STAR) Science and Engineering Research Council Additive Manufacturing for Biological Materials (AMBM) program (A18A8b0059). C.X. acknowledges the funding support from the City University of Hong Kong (#9610472), General Research Fund (GRF) from the University Grants Committee of Hong Kong (UGC) Research Grant Council (RGC) (#9042951 and 9043133), and NSFC/ RGC Joint Research Scheme (#N_CityU118/20). L.L. acknowledges the funding support from the Singapore Ministry of Health’s National Medical Research Council under its Open Fund Individual Research Grant (MOH-OFIRG19may-0009), and the Ministry of Education Singapore under its Academic Research Funding Tier 2 (MOE-T2EP30120-0001). 2022-10-19T01:05:44Z 2022-10-19T01:05:44Z 2021 Journal Article Ning, X., Chen, S., Yang, Y., Hwang, J., Wiraja, C., Zhang, C., Liu, W., Liu, L. & Xu, C. (2021). Photodynamic bubble-generating microneedles for enhanced transdermal cancer therapy. ACS Applied Polymer Materials, 3(12), 6502-6512. https://dx.doi.org/10.1021/acsapm.1c01219 2637-6105 https://hdl.handle.net/10356/162431 10.1021/acsapm.1c01219 2-s2.0-85120970265 12 3 6502 6512 en A18A8b0059 MOH-OFIRG19may-0009 MOE-T2EP30120-0001 ACS Applied Polymer Materials This document is the Accepted Manuscript version of a Published Work that appeared in final form in ACS Applied Polymer Materials, copyright © 2021 American Chemical Society, after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acsapm.1c01219. application/pdf |
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Engineering::Bioengineering Engineering::Nanotechnology Bubble-Generating Microneedles Frozen Immersion |
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Engineering::Bioengineering Engineering::Nanotechnology Bubble-Generating Microneedles Frozen Immersion Ning, Xiaoyu Chen, Si Yang, Yating Hwang, Jangsun Wiraja, Christian Zhang, Chi Liu, Wei Liu, Linbo Xu, Chenjie Photodynamic bubble-generating microneedles for enhanced transdermal cancer therapy |
| description |
Active bubble-generating microneedles (MNs) upon skin interstitial fluid (ISF) contact facilitate deeper and more efficient delivery of intradermal therapeutics. However, bubble-generating MN platforms are sensitive to moisture, which limits their variety to load various functional drugs. This article presents a frozen immersion method that facilitates both hydrophobic and hydrophilic drug loading onto bubble-generating MNs without compromising both drug and MN properties. The formed bubbles upon ISF contact induce distinct vortex flow that produces a propulsion force to enhance drug transportation. The efficiency of transdermal drug delivery is further enhanced by sonophoresis. The drug delivery efficiency of this platform is first evaluated ex vivo using fresh mouse skins and human keloid tissues. Later, in the tumor-bearing mouse model, the platform enhances the skin penetration of photosensitizers (i.e., methylene blue) and correspondingly improves the efficacy of photodynamic therapy. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Ning, Xiaoyu Chen, Si Yang, Yating Hwang, Jangsun Wiraja, Christian Zhang, Chi Liu, Wei Liu, Linbo Xu, Chenjie |
| format |
Article |
| author |
Ning, Xiaoyu Chen, Si Yang, Yating Hwang, Jangsun Wiraja, Christian Zhang, Chi Liu, Wei Liu, Linbo Xu, Chenjie |
| author_sort |
Ning, Xiaoyu |
| title |
Photodynamic bubble-generating microneedles for enhanced transdermal cancer therapy |
| title_short |
Photodynamic bubble-generating microneedles for enhanced transdermal cancer therapy |
| title_full |
Photodynamic bubble-generating microneedles for enhanced transdermal cancer therapy |
| title_fullStr |
Photodynamic bubble-generating microneedles for enhanced transdermal cancer therapy |
| title_full_unstemmed |
Photodynamic bubble-generating microneedles for enhanced transdermal cancer therapy |
| title_sort |
photodynamic bubble-generating microneedles for enhanced transdermal cancer therapy |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162431 |
| _version_ |
1773551404212813824 |