Elsevier
Journal of Controlled Release
том 368 страницы 115-130

Multi-material 3D printed eutectogel microneedle patches integrated with fast customization and tunable drug delivery

Тип публикацииJournal Article
Дата публикации2024-04-01
Elsevier
scimago Q1
wos Q1
БС1
SJR2.470
CiteScore19.4
Impact factor11.5
ISSN01683659, 18734995
Pharmaceutical Science
Краткое описание
Microneedle patches are emerging multifunctional platforms for transdermal diagnostics and drug delivery. However, it still remains challenging to develop smart microneedles integrated with customization, sensing, detection and drug delivery by 3D printing strategy. Here, we present an innovative but facile strategy to rationally design and fabricate multifunctional eutectogel microneedle (EMN) patches via multi-material 3D printing. Polymerizable deep eutectic solvents (PDES) were selected as printing inks for rapid one-step fabrication of 3D printing functional EMN patches due to fast photopolymerization rate and ultrahigh drug solubility. Moreover, stretchable EMN patches incorporating rigid needles and flexible backing layers were easily realized by changing PDES compositions of multi-material 3D printing. Meanwhile, we developed multifunctional smart multi-material EMN patches capable of performing wireless monitoring of body movements, painless colorimetric glucose detection, and controlled transdermal drug delivery. Thus, such multi-material EMN system could provide an effective platform for the painless diagnosis, detection, and therapy of a variety of diseases.
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1 цитирование
Гайнанова Гульнара
к.х.н.
74 публикации 1 072 цитирования 1 рецензия
Индекс Хирша: 18
Институт органической и физической химии им. А.Е. Арбузова КазНЦ РАН
Институт органической и физической химии им. А.Е. Арбузова КазНЦ РАН
Области научных интересов
Коллоидная химия
Поверхностно-активные вещества
Системы доставки лекарственных веществ
Супрамолекулярная химия
Физическая химия
1 цитирование
Васильева Лейсан
к.х.н.
29 публикаций 491 цитирование
Индекс Хирша: 14
Институт органической и физической химии им. А.Е. Арбузова КазНЦ РАН
Институт органической и физической химии им. А.Е. Арбузова КазНЦ РАН
Области научных интересов
Коллоидная химия
Поверхностно-активные вещества
Системы доставки лекарственных веществ
Физическая химия
1 цитирование
Захарова Люция
д.х.н., проф.
394 публикации 6 163 цитирования
Индекс Хирша: 36
Институт органической и физической химии им. А.Е. Арбузова КазНЦ РАН
Институт органической и физической химии им. А.Е. Арбузова КазНЦ РАН

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Liu H. et al. Multi-material 3D printed eutectogel microneedle patches integrated with fast customization and tunable drug delivery // Journal of Controlled Release. 2024. Vol. 368. pp. 115-130.
ГОСТ со всеми авторами (до 50) Скопировать
Liu H., Liu H., Zhou X., Aminov N., Yu H., Yu Z., Sun Y., Sun Y., Wang K., Bao N., Meng D., Zhu L., Zhu L., Li H., Li H. Multi-material 3D printed eutectogel microneedle patches integrated with fast customization and tunable drug delivery // Journal of Controlled Release. 2024. Vol. 368. pp. 115-130.
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TY - JOUR
DO - 10.1016/j.jconrel.2024.02.023
UR - https://linkinghub.elsevier.com/retrieve/pii/S016836592400110X
TI - Multi-material 3D printed eutectogel microneedle patches integrated with fast customization and tunable drug delivery
T2 - Journal of Controlled Release
AU - Liu, Hui
AU - Liu, Huan
AU - Zhou, Xinmeng
AU - Aminov, Nail
AU - Yu, Hao
AU - Yu, Zilian
AU - Sun, Yao
AU - Sun, Yue
AU - Wang, Kun
AU - Bao, Nanbin
AU - Meng, Decheng
AU - Zhu, Liangdong
AU - Zhu, Liran
AU - Li, Huanjun
AU - Li, Huanjun
PY - 2024
DA - 2024/04/01
PB - Elsevier
SP - 115-130
VL - 368
PMID - 38367865
SN - 0168-3659
SN - 1873-4995
ER -
BibTex
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@article{2024_Liu,
author = {Hui Liu and Huan Liu and Xinmeng Zhou and Nail Aminov and Hao Yu and Zilian Yu and Yao Sun and Yue Sun and Kun Wang and Nanbin Bao and Decheng Meng and Liangdong Zhu and Liran Zhu and Huanjun Li and Huanjun Li},
title = {Multi-material 3D printed eutectogel microneedle patches integrated with fast customization and tunable drug delivery},
journal = {Journal of Controlled Release},
year = {2024},
volume = {368},
publisher = {Elsevier},
month = {apr},
url = {https://linkinghub.elsevier.com/retrieve/pii/S016836592400110X},
pages = {115--130},
doi = {10.1016/j.jconrel.2024.02.023}
}