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Yu-Jung Lin
Researcher at National Tsing Hua University
Publications - 37
Citations - 835
Yu-Jung Lin is an academic researcher from National Tsing Hua University. The author has contributed to research in topics: Receptor & TRPV1. The author has an hindex of 13, co-authored 31 publications receiving 484 citations. Previous affiliations of Yu-Jung Lin include University of Kentucky & National Yang-Ming University.
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Journal ArticleDOI
Controlled Release of an Anti-inflammatory Drug Using an Ultrasensitive ROS-Responsive Gas-Generating Carrier for Localized Inflammation Inhibition.
TL;DR: Results reveal that the proposed HMs may uniquely exploit biologically relevant concentrations of H2O2 and thus be used for the site-specific delivery of therapeutics in inflamed tissues.
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In Situ Nanoreactor for Photosynthesizing H2 Gas To Mitigate Oxidative Stress in Tissue Inflammation
Wei-Lin Wan,Yu-Jung Lin,Hsin-Lung Chen,Chieh-Cheng Huang,Po-Chien Shih,Yu-Ru Bow,Wei-Tso Chia,Hsing-Wen Sung +7 more
TL;DR: Experimental results indicate that the Lip NR system that can photosynthesize H2 gas has great potential for mitigating oxidative stress in tissue inflammation.
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Conductive Materials for Healing Wounds: Their Incorporation in Electroactive Wound Dressings, Characterization, and Perspectives.
Chiranjeevi Korupalli,Hui Li,Nhien Nguyen,Fwu Long Mi,Yen Chang,Yu-Jung Lin,Yu-Jung Lin,Hsing-Wen Sung +7 more
TL;DR: This article focuses on recent advancements in conductive materials, with emphasis on overviewing their incorporation with non-conducting polymers to fabricate electroactive wound dressings.
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In situ depot comprising phase-change materials that can sustainably release a gasotransmitter H2S to treat diabetic wounds.
Wei Chih Lin,Chieh-Cheng Huang,Shu-Jyuan Lin,Meng-Ju Li,Yen Chang,Yu-Jung Lin,Wei-Lin Wan,Po-Chien Shih,Hsing-Wen Sung +8 more
TL;DR: Results reveal the strong potential of NaHS@MPs for the sustained release of H2S for the treatment of diabetic wounds by extending the activation of cellular ERK1/2 and p38, accelerating the healing of full-thickness wounds in diabetic mice.
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Photosynthesis-inspired H2 generation using a chlorophyll-loaded liposomal nanoplatform to detect and scavenge excess ROS.
Wei-Lin Wan,Bo Tian,Yu-Jung Lin,Chiranjeevi Korupalli,Ming-Yen Lu,Qinghua Cui,Dehui Wan,Yen Chang,Hsing-Wen Sung +8 more
TL;DR: A photosynthesis-inspired FRET nanocomplex to detect and scavenge local excess of ROS in the tissue using photocatalytic hydrogen production is developed and indicates the potential of using the Lip NPs in the analysis of biological tissues, restoring their ROS homeostasis, possibly preventing the initiation and progression of diseases.