洪慧珊 Huey-Shan Hung 助理研究員
洪慧珊助理教授開始研究如何開發新穎血管奈米生醫材料以提供血管組織工程臨床之應用。主要的研究方向是以奈米粒子修飾高分子生醫材料改植人工血管表面,包括 (1) 人工高分子:聚氨酯奈米金複合基材及 (2) 天然高分子: 膠原蛋白奈米複合基材及纖維蛋白奈米複合基材。研究包括:奈米基材表面型態的改變及奈米粒子的大小對血管生醫材料表面改植相關生物相容性及生物穩定性以及如何調控促進血管修復內皮化能力之探討。
相關連結
學術機構典藏
論文
期刊論文
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期刊論文/Journal Paper (作者群,論文題目,期刊名稱,出版年月,卷號(期別):頁次起迄) |
日期 | |
| 1 | 唐健綸(Chien-Lun Tang)、(Chen-Feng Chiu)、(Shan-hui Hsu)、(Song-Yi Yan)、(Chun-Yu Yueh)、蔡嘉哲(Gregory J. Tsay)、(Wen-Ching Chiu)、(Yi-Chin Yang)、(Alex Yang-Hao Yu)*、洪慧珊(Huey-Shan Hung)*,Cytotoxicity and Cellular Uptake Capacity of a Berberine-Loaded Nanogold/Collagen Drug Delivery System in Lung Cancer,COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS,2024 Jul,702():134961 | 2024 . 07 |
| 2 | 洪慧珊(Huey-Shan Hung)、(Chiung-Chyi Shen)、(Jyun-Ting, Wu)、(Chun-Yu Yueh)、(Meng-Yin Yang)、(Yi-Chin Yang)、(Wen-Yu Cheng)*,Assessment of the Biocompatibility Ability and Differentiation Capacity of Mesenchymal Stem Cells on Biopolymer/Gold Nanocomposites,INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES,2024 Jun,25():7241 | 2024 . 06 |
| 3 | (Ruei-Hong Lin)、洪慧珊(Huey-Shan Hung)、(Cheng-Ming Tang)、(Hsi-Kai Tsou)、(Po-Hsiang Chen)、(Chun-Yu Yueh)、(Hui-Min David Wang)*,In Vitro Biocompatibility of Polycaprolactone/Hydroxyapatite Nanocomposite Membranes Modified by Oleic Acid for Bone Regeneration,COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS,2024 Feb,688():133576 | 2024 . 02 |
| 4 | (Meng-Yin Yang)、邱正?(Cheng-Di Chiu)、(Yi-Chun Ke)、(Yi-Chin Yang)、(Kai-Bo Chang)、(Chien-Min Chen)、(Hsu-Tung Lee)、(Chien-Lun Tang)、(Bai-Shuan Liu)、洪慧珊(Huey-Shan Hung)*,Differentiation Induction of Mesenchymal Stem Cells by a Au Delivery Platform,Cells,2023 Jul,12(14):1893 | 2023 . 07 |
| 5 | (Wen-Yu Cheng)*、(Meng-Yin Yang)、(Chun-An Yeh)、(Yi-Chin Yang)、(Kai-Bo Chang)、(Kai-Yuan Chen)、(Szu-Yuan Liu)、(Chien-Lun Tang)、(Chiung-Chyi Shen)、洪慧珊(Huey-Shan Hung)*,Therapeutic Applications of Mesenchymal Stem Cell Loaded with Gold Nanoparticles for Regenerative Medicine,Pharmaceutics,2023 Apr,15(5):1385 | 2023 . 04 |
| 6 | (Ruei-Hong Lin)、(Hsu-Tung Lee)、(Chun-An Yeh)、(Yi-Chin Yang)、(Chiung-Chyi Shen)、(Kai-Bo Chang)、(Bai-Shuan Liu)、(Hsien-Hsu Hsieh)、(Hui-Min David Wang)*、洪慧珊(Huey-Shan Hung)*,Favorable Biological Performance Regarding the Interaction Between Gold Nanoparticles and Mesenchymal Stem Cells,INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES,2023 Jan,24(1):5 | 2023 . 01 |
| 7 | (Yun-Hua Kuo)、洪慧珊(Huey-Shan Hung)、蔡佳文(Chia-Wen Tsai)、邱紹智(Shao-Chih Chiu)、劉詩平(Shih-Ping Liu)、蔣郁亭(Chiang, Yu-Ting)、徐偉成(Woei-Cheang Shyu)、(Shinn-Zong Lin)、傅如輝(Ru-Huei Fu)*,A Novel Splice Variant of BCAS1 Inhibits β-Arrestin 2 to Promote the Proliferation and Migration of Glioblastoma Cells, and This Effect was Blocked by Maackiain,Cancers,2022 Aug,14(16):3890 | 2022 . 08 |
| 8 | (Ming-Tai Hsing)、(Hui-Ting Hsu)、(Chih-Hsuan Chang)、(Kai-Bo Chang)、(Chun-Yuan Cheng)、(Jae Hwan Lee)、(Chien-Li Huang)、(Meng-Yin Yang)、(Yi-Chin Yang)、(Szu-Yuan Liu)、(Chun-Ming Yen)、(Shun-Fa Yang)*、洪慧珊(Huey-Shan Hung)*,Improved Delivery Performance of n-Butylidenephthalide- Polyethylene Glycol-Gold Nanoparticles Efficient for Enhanced Anti-Cancer Activity in Brain Tumor,Cells,2022 Jul,11(14):2172 | 2022 . 07 |
| 9 | 洪慧珊(Huey-Shan Hung)、(Yi-Chin Yang)、(Chih-Hsuan Chang)、(Kai-Bo Chang)、(Chiung-Chyi Shen)、(Chien-Lun Tang)、(Szu-Yuan Liu)、(Chung-Hsin Lee)、(Chun-Ming Yen)、(Meng-Yin Yang)*,Neural Differentiation Potential of Mesenchymal Stem Cells enhanced by Biocompatible Chitosan-Gold Nanocomposites,Cells,2022 Jun,11(12):1861 | 2022 . 06 |
| 10 | 鄒瑞煌(Ruey-Hwang Chou)、(Meng-Yin Yang)、(Yi-Ping Yang)、(Chun-An Yeh)、(Wei-Yi Lai)、(Tzu-Wei Lin)、(Yuan-Chi Teng)、(Shu-Chen Hsieh)、(Mei-Lang Kung)、(Hsien-Hsu Hsiehi)、洪慧珊(Huei-Shan Hung)*,Evaluating the Biocompatibility and Biological Performance of FePt-decorated Nano-epoxy Nanoparticles in Mesenchymal Stem Cells,Journal of the Chinese Medical Association,2021 Dec,84(12):1109-1119 | 2021 . 12 |
| 11 | 洪慧珊(Huei-Shan Hung)、(Yi-Chin Yang)、(Wei-Chien Kao)、(Chun-An Yeh)、(Kai-Bo Chang)、(Cheng-Ming Tang)、(Cheng-Ming Tang)、(Hsu-Tung Lee)*,Evaluation of the Biocompatibility and Endothelial Differentiation Capacity of Mesenchymal Stem Cells by Polyethylene Glycol Nanogold Composites,Polymers,2021 Dec,13(23):4265 | 2021 . 12 |
| 12 | (Alex Yang-Hao Yu)、傅如輝(Ru-Huei Fu)、(Shan-hui Hsu)、(Chen-Feng Chiu)、(Wei-Hsiang Fang)、(Chun-An Yeh)、(Chang Ming Tang)、(Hsien-Hsu Hsieh)、洪慧珊(Huei-Shan Hung)*,Epidermal Growth Factor Receptors siRNA-conjugated collagen modified gold nanoparticles for targeted imaging and therapy of lung cancer,Materials Today Advances,2021 Dec,12():100191 | 2021 . 12 |
| 13 | 陳惠珍、(Mei-Lang Kung)、(Wei-Xiang Huang)、傅如輝(Ru-Huei Fu)、(Alex Yang-Hao Yu)、(Ya-Tsu Yang)、洪慧珊(Huei-Shan Hung)*,Delivery of Stromal-Derived Factor-1 alpha via Biocompatible Gold Nanoparticles Promotes Dendritic Cells Viability and Migration,COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS,2021 Nov,628():127298 | 2021 . 11 |
| 14 | (Chiung-Chyi Shen)、(Meng-Yin Yang)、(Kai-Bo Chang)、(Chia-Hsuan Tseng)、(Yi-Ping Yang)、(Yi-Chin Yang)、(Mei-Lang Kung)、(Wei-Yi Lai)、(Tzu-Wei Lin)、(Hsien-Hsu Hsieh)、洪慧珊(Huei-Shan Hung)*,Fabrication of Hyaluronic Acid-Gold Nanoparticles with Chitosan to Modulate Neural Differentiation of Mesenchymal Stem Cells,Journal of the Chinese Medical Association,2021 Nov,84(11):1007-1018 | 2021 . 11 |
| 15 | (Chiung-Chyi Shen)、(Shan-hui Hsu)、(Kai-Bo Chang)、(Chun-An Yeh)、(Hsiang-Chun Chang)、(Cheng-Ming Tang)、(Yi-Chin Yang)、(Hsien-Hsu Hsieh)、洪慧珊(Huei-Shan Hung)*,Physical Gold Nanoparticles-Decorated Polyethylene Glycol- Hydroxyapatite Composites Guide Osteogenesis and Angiogenesis of Mesenchymal Stem Cells,Biomedicines,2021 Nov,9(11):1632 | 2021 . 11 |
| 16 | 洪慧珊(Huei-Shan Hung)*、(Wei-Chien Kao)、(Kai-Bo Chang)、(Cheng-Ming Tang)、(Meng-Yin Yang)、(Yi-Chin Yang)、(Chun-An Yeh)、(Jia-Jhan Li)、(Hsien-Hsu Hsieh),Inflammatory Modulation of Polyethylene Glycol-AuNP for Regulation of the Neural Differentiation Capacity of Mesenchymal Stem Cell,Cells,2021 Nov,10(11):2854 | 2021 . 11 |
| 17 | (Meng-Yin Yang)、(Bai-Shuan Liu)、(Hsiu-Yuan Huang)、(Yi-Chin Yang)、(Kai-Bo Chang)、(Pei-Yeh Kuo)、(You-Hao Deng)、(Cheng-Ming Tang)、(Hsien-Hsu Hsieh)、洪慧珊(Huei-Shan Hung)*,Engineered Pullulan-Collagen-Gold Nano Composite Improves Mesenchymal Stem Cells Neural Differentiation and Inflammatory Regulation,Cells,2021 Nov,10(12):3276 | 2021 . 11 |
| 18 | 徐佑靈(Hsu, Yu-Ling)、洪慧珊(Huei-Shan Hung)、蔡佳文(Chia-Wen Tsai)、劉詩平(Shih-Ping Liu)、蔣郁亭(Chiang, Yu-Ting)、(Yun-Hua Kuo)、徐偉成(Woei-Cheang Shyu)、(Shinn-Zong Lin)、傅如輝(Ru-Huei Fu)*,Peiminine Reduces ARTS-Mediated Degradation of XIAP by Modulating the PINK1/Parkin Pathway to Ameliorate 6-Hydroxydopamine Toxicity and α-Synuclein Accumulation in Parkinson Disease Models in Vivo and in Vitro,INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES,2021 Oct,22(19):10240 | 2021 . 10 |
| 19 | (Chen-Feng Chiu)、傅如輝(Ru-Huei Fu)、(Shan-hui Hsu)、(Alex Yang-Hao Yu)、(Shun-Fa Yang)、(Thomas Chang-Yao Tsao)、(Kai-Bo Chang)、(Chun-An Yeh)、(Cheng-Ming Tang)、(Sheng-Chu Huang)、洪慧珊(Huei-Shan Hung)*,Delivery Capacity and Anticancer Ability of the Berberine-Loaded Gold Nanoparticles to Promote the Apoptosis Effect in Breast Cancer,Cancers,2021 Oct,13(21):5317 | 2021 . 10 |
| 20 | 洪慧珊(Huei-Shan Hung)*、(Kai-Bo Chang)、(Cheng-Ming Tang)、(Tian Ren Ku)、(Mei-Lang Kung)、(Alex Yang-Hao Yu)、(Chiung-Chyi Shen)、(Yi-Chin Yang)、(Hsien-Hsu Hsieh)、(Shan-hui Hsu)*,Anti-inflammatory Fibronectin-AgNP for Regulation of Bio-logical Performance and Endothelial Differentiation Ability of Mesenchymal Stem Cells,INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES,2021 Sep,22(17):9262 | 2021 . 09 |
| 21 | (Kai-Bo Chang)、(Chiung-Chyi Shen)、(Shan-hui Hsu)、(Chang Ming Tang)、Yi-Chin Yan、(Sin-Ying Liu)、(Tian Ren Ku)、(Mei-Lang Kung)、(Hsien-Hsu Hsieh)、洪慧珊(Huei-Shan Hung)*,Functionalized Collagen-Silver Nanocomposites for Evaluation of the Biocompatibility and Vascular Differentiation Capacity of Mesenchymal Stem Cells,COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS,2021 Sep,624():126814 | 2021 . 09 |
| 22 | 洪慧珊(Huei-Shan Hung)、(Mei-Lang Kung)、(Fang-Chung Chen)、(Yi-Chun Ke)、(Chiung-Chyi Shen)、(Yi-Chin Yang)、(Chang Ming Tang)、(Chun-An Yeh)、(Hsien-Hsu Hsieh)、Shan-hui Hsu*,Nanogold-Carried Graphene Oxide: Anti-inflammation and Increased Differentiation Capacity of Mesenchymal Stem Cells,Nanomaterials,2021 Aug,11(8):2046 | 2021 . 08 |
| 23 | 洪慧珊(Huei-Shan Hung)*、(Alex YH Yu)、(Shu-Chen Hsieh)、(Mei-Lang Kung)、(Hsiu-Yuan Huang)、傅如輝(Ru-Huei Fu)、(Chun-An Yeh)、(Shan-hui Hsu)*,Enhanced Biocompatibility and Differentiation Capacity of Mesenchymal Stem Cells on Polydimethylsiloxane by Topographical Patterned Dopamine,ACS Applied Materials & Interfaces,2020 Oct,12(40):44393-44406 | 2020 . 10 |
| 24 | (Rong-Tzong Tsai)、蔡佳文、劉詩平(Shih-Ping Liu)、高佳昕(Kao, Chia-Hsin)、(Yun-Hua Kuo)、趙蓓敏(Pei-Min Chao)、洪慧珊(Huei-Shan Hung)、徐偉成(Woei-Cheang Shyu)、(Shinn-Zong Lin)、傅如輝(Ru-Huei Fu)*,Maackiain Ameliorates 6-Hydroxydopamine and SNCA Pathologies by Modulating the PINK1/Parkin Pathway in Models of Parkinson’s Disease in Caenorhabditis elegans and the SH-SY5Y Cell Line,INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES,2020 Jun,21(12):E4455 | 2020 . 06 |
| 25 | 洪慧珊(Hung, Huey-Shan)、(Shan-hui Hsu)*,Surface modification by nanobiomaterials for vascular tissue engineering applications,CURRENT MEDICINAL CHEMISTRY,2020 Apr,27(10):1634-1646 | 2020 . 04 |
| 26 | 洪慧珊(Huei-Shan Hung)、包大?(Da-Tian Bau)、(Chun-An Yeh)、(Mei-Lang Kung)*,Evaluation of cellular uptake mechanisms for AuNP-collagen-Avemar nanocarrier on transformed and non-transformed cell lines,COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS,2019 Nov,580():123791 | 2019 . 11 |
| 27 | (Shan-hui Hsu)、(Alex Yu)、(Chun-An Yeh)、(Wei-Shen Sun)、(Shinn-Zong Lin)、傅如輝(Ru-Huei Fu)、(Hsien-Hsu Hsieh)、吳伯元(Po-Yuan Wu)、洪慧珊(Huei-Shan Hung)*,Biocompatible nanogold carrier coated with hyaluronic acid for efficient delivery of plasmid or siRNA to mesenchymal stem cells,ACS Applied Bio Materials,2019 Jan,2(3):1017-1030 | 2019 . 01 |
| 28 | (Huang, Yen-Jang)、(Hung, Kun-Che)、洪慧珊(Hung, Huey-Shan)、(Hsu, Shan-hui)*,Modulation of macrophage phenotype by biodegradable polyurethane nanoparticles: possible relation between macrophage polarization and immune response of nanoparticles,ACS Applied Materials & Interfaces,2018 May,10(23):19436-19448 | 2018 . 05 |
| 29 | (Yun-Wen Chen)、(Shu-Chen Hsieh)、(Yi-Chun Yang)、(Shan-Hui Hsu)、(Mei-Lang Kung)、(Pei-Ying Lin)、(Hsien-Hsu Hsieh)、(Ching-Hao Lin)、(Cheng-Ming Tang)、洪慧珊(Hung, Huey-Shan)*,Functional engineered mesenchymal stem cells with fibronectin-gold composite coated catheters for vascular tissue regeneration,Nanomedicine-Nanotechnology Biology and Medicine,2018 Apr,14(3):699-711 | 2018 . 04 |
| 30 | 蔡佳文(Chia-Wen Tsai)、(Rong-Tzong Tsai)、劉詩平(Shih-Ping Liu)、(Chang-Shi Chen)、(Min-Chen Tsai)、簡韶萱、洪慧珊(Huey-Shan Hung)、(Shinn-Zong Lin)、徐偉成(Woei-Cherng Shyu)、傅如輝(Ru-Huei Fu)*,Neuroprotective Effects of Betulin in Pharmacological and Transgenic C. elegans Models of Parkinson’s Disease,CELL TRANSPLANTATION,2017 Dec,26(12):1903-1918 | 2017 . 12 |
| 31 | (YI-WEN HUNG)、蔡佳紋(Tsai, Chia-Wen)、(CHENG-NAN WU)、施亮均(Liang-Chun Shih)、陳妍宇(Yan-Yu Chen)、劉彥芳(Yen-Fang Liu)、洪慧珊(Huey-Shan Hung)、沈明毅(Ming-Yi Shen)、張文馨(Chang, Wen-Shin)、包大靝(Da-Tian Bau)*,The Contribution of Matrix Metalloproteinase-8 Promoter Polymorphism to Oral Cancer Susceptibility,IN VIVO,2017 Jul,31(4):585-590 | 2017 . 07 |
| 32 | (CHENG-HSI LIAO)、張文馨(Chang, Wen-Shin)、(PEI-SHIN HU)、吳錫金(Wu,Hsi-Chin)、(SHIH-WEI HSU)、劉彥芳(Yen-Fang Liu)、劉詩平(Shih-Ping Liu)、洪慧珊(Huey-Shan Hung)、包大靝(Da-Tian Bau)*、蔡佳紋(Tsai, Chia-Wen)*,The Contribution of MMP-7 Promoter Polymorphisms in Renal Cell Carcinoma,IN VIVO,2017 Jul,31(3):631-635 | 2017 . 07 |
| 33 | (Mei-Lang Kung)、(Ming-Hong Tai)、(Pei-Ying Lin)、(Deng-Chyang Wu)、(Wen-Jeng Wu)、(Bi-Wen Yeh)、洪慧珊(Huey-Shan Hung)、(Chao-Hung Kuo)、(Yun-Wen Chen)、(Shu-Ling Hsieh)、(Shuchen Hsieh)*,Silver Decorated Copper Oxide (Ag@CuO) Nanocomposite Enhances ROS-mediated Bacterial Architecture Collapse,COLLOIDS AND SURFACES B-BIOINTERFACES,2017 Apr,155():399-407 | 2017 . 04 |
| 34 | (Shu-Chen Hsieh)、陳慧婕(Hui-Jye Chen)、(Shan-hui Hsu)、(Yi-Chin Yang)、(Cheng-Ming Tang)、(Mei-Yun Chu)、(Pei-Ying Lin)、傅如輝(Ru-Huei Fu)、(Mei-Lang Kung)、(Yun-Wen Chen)、(Bi-Wen Yeh)、洪慧珊(Huey-Shan Hung)*,Prominent vascularization capacity of mesenchymal stem cells in collagen-gold nanocomposites,ACS Applied Materials & Interfaces,2016 Oct,8():28982-29000 | 2016 . 10 |
| 35 | (Yun-Wen Chen)、(Chiung-Wen Chang)、洪慧珊(Huey-Shan Hung)、(Mei-Lang Kung)、(Bi-Wen Yeh)、(Shuchen Hsieh)*,Magnetite nanoparticle interactions with insulin amyloid fibrils,NANOTECHNOLOGY,2016 Jul,(): | 2016 . 07 |
| 36 | (Mei-Lang Kung)、(Pei-Ying Lin)、(Shi-Wei Peng)、(Deng-Chyang Wu)、(Wen-Jeng Wu)、(Bi-Wen Yeh)、(Ming-Hong Tai)、洪慧珊(Huey-Shan Hung)、(Shuchen Hsieh)*,Biomimetic Polymer-Based Ag Nanocomposites as a Antimicrobial Platform,Applied Materials Today,2016 Jun,4():31-39 | 2016 . 06 |
| 37 | (Mei-Lang Kung)、(Chiung-Wen Hsieh)、(Ming-Hong Tai)、(Chien-Hui Weng)、(Deng-Chyang Wu)、(Wen-Jeng Wu)、(l Bi-Wen Yeh)、(Shu-Ling Hsieh)、(Chao-Hung Kuo)、洪慧珊(Huey-Shan Hung)、(Shuchen Hsieh)*,Nanoscale characterization illustrates the cisplatin-mediated biomechanical changes of B16-F10 melanoma cells,PHYSICAL CHEMISTRY CHEMICAL PHYSICS,2016 Feb,18():7124-7131 | 2016 . 02 |
| 38 | 林重銘(Chung-Ming Lin)、高維健(Wei-Chien Kao)、葉峻安(Chun-An Yeh)、陳慧婕(Hui-Jye Chen)、林欣榮(Shinn-Zong Lin)、謝獻旭(Hsien-Hsu Hsieh)、孫瑋燊(Wei-Shen Sun)、張智鉉(Chih-Hsuan Chang)、洪慧珊(Huey-Shan Hung)*,Hyaluronic acid-fabricated nanogold delivery of the inhibitor of apoptosis protein-2 siRNAs inhibits benzo [a] pyrene–induced oncogenic properties of lung cancer A549 cells,NANOTECHNOLOGY,2015 Mar,26(10):105101 | 2015 . 03 |
| 39 | 傅如輝(Ru-Huei Fu)*、蔡佳文(Chia-Wen Tsai)、蔡榮宗(Rong-Tzong Tsai)、劉詩平(Shih-Ping Liu)、詹子民(Tzu-Min Chan)、何于塵(Yu-Chen Ho)、林欣璉(Hsin-Lien Lin)、陳玥米(Yue-Mi Chen,)、洪慧珊(Huey-Shan Hung)、邱紹智(Shao-Chih Chiu)、蔡長海(Chang-Hai Tsai)、(Yu-Chi Wang)、徐偉成(Woei-Cherng Shyu)、林欣榮(Shinn-Zong Lin)*,Irisflorentin Modifies Properties of Mouse Bone Marrow-Derived Dendritic Cells and Reduces the Allergic Contact Hypersensitivity Responses,CELL TRANSPLANTATION,2015 Feb,(): | 2015 . 02 |
| 40 | 洪慧珊(Huey-Shan Hung)、楊怡津(Yi-Chun Yang)、林昱君(Yu-Chun Lin)、林欣榮(Shinn-Zong Lin)、高維健(Wei-Chien Kao)、謝獻旭(Hsien-Hsu Hsieh)、朱美芸(Mei-Yun Chu)、傅如輝(Ru-Huei Fu)、徐善慧(Shan-hui Hsu)*,Regulation of human endothelial progenitor cell (EPC) maturation by polyurethane nanocomposites,BIOMATERIALS,2014 Aug,35(25):6810-6821 | 2014 . 08 |
| 41 | 洪慧珊(Huey-Shan Hung)、張智鉉(Chih-Hsuan Chang)、張振榮(Chen-Jung Chang)、湯正明(Cheng-Ming Tang)、高維健(Wei-Chien Kao)、林欣榮(Shinn-Zong Lin)、謝獻旭(Hsieh Hsien-Hsu)、朱美芸(Mei-Yun Chu)、孫瑋燊(Wei-Shen Sun)、徐善慧(Shan-hui Hsu)*,In vitro study of a novel nanogold-collagen composite to enhance the mesenchymal stem cell behavior for vascular regeneration,PLoS One,2014 May,9(8):e104019-e104019 | 2014 . 05 |
| 42 | 傅如輝(Ru-Huei Fu)*、韓鴻志(Horng-Jyh Harn)、劉詩平(Shih-Ping Liu)、陳昌熙(Chang-Shi Chen)、張文琳(Wen-Lin Chang)、陳玥米(Yue-Mi Chen)、黃靖恩(Jing-En Huang)、李鎔竹(Rong-Jhu Li)、蔡松祐(Sung-Yu Tsai)、洪慧珊(Huey-Shan Hung)、徐偉成(Woei-Cherng Shyu)、林欣榮(Shinn-Zong Lin)、(Yu-Chi Wang)*,n-Butylidenephthalide Protects Against Dopaminergic Neuron Degeneration and alpha-Synuclein Accumulation in Caenorhabditis elegans Models of Parkinson’s Disease,PLoS One,2014 Jan,9(1):e85305 | 2014 . 01 |
| 43 | 洪慧珊(Huey-Shan Hung)、湯正明(Cheng-Ming Tang)、林建勳(Chien-Hsun Lin)、林欣榮(Shinn-Zong Lin)、朱美芸(Mei-Yun Chu)、孫瑋燊(Wei-Shen Sun)、高維健(Wei-Chien Kao)、謝獻旭(Hsieh-Hsien Hsu)、黃志揚(Chih-Yang Huang)*、徐善慧(Shan-hui Hsu)*,Biocompatibility and favorable response of mesenchymal stem cells on fibronectin-gold nanocomposites,PLoS One,2013 Jun,8(6):1-15 | 2013 . 06 |
| 44 | 黃志揚(Chih-Yang Huang)、林建勳(Chien-Hsun Lin)、何統作(Tung-Tso Ho)、陳惠珍(Hui-Chen Chen)、朱美芸(Mei-Yun Chu)、孫瑋燊(Wei-Shen Sun)、高維健(Wei-Chien Kao)、洪慧珊(Huey-Shan Hung)*、徐善慧(Shan-hui Hsu)*,Enhanced migration of Wharton’s jelly mesenchymal stem cells grown on polyurethane nanocomposites,Journal of Medical and Biological Engineering,2013 May,33(2):139-148 | 2013 . 05 |
| 45 | 洪慧珊(Huey-Shan Hung)、徐善慧(Shan-hui Hsu)*,Current advances of stem cell-based approaches to tissue-engineered vascular grafts,TISSUE ENGINEERING,2013 Mar,1(1):1-6 | 2013 . 03 |
| 46 | 周志謂(Chih-Wei Chou)*、(onon batnyam)、洪慧珊(Huey-Shan Hung)、韓鴻志(Horng-Jyh Harn)、李文福(Wen-Fu Lee)、林鴻儒(Hong-Ru Lin)、鍾景光(Jing-Gung Chung)、施養佳(Yang-Chia Shih)、閻思尹(Ssu-Yin, Yen)、郭悅雄(Yueh-Hsiung Kuo)、(Min-Han Tsao),Highly Bioavailable Anticancer Herbal-Loaded Nanocarriers against Breast and Colon Cancer in Vitro and in Vivo systems,Polymer Chemistry,2013 Jan,4(6):2040-2052 | 2013 . 01 |
| 47 | 洪慧珊(Huey-Shan Hung)、周志謂(Chih-Wei Chou)、孫瑋燊(Wei-Shen Sun)、林欣榮(Shinn-Zong Lin)、薛國偉(Kuo-Wei Hsueh)、朱美芸(Mei-Yun Chu)、徐善慧(Shan-Hui Hsu)*,Nanogold-Based Carriers for the Nonviral,Journal of Neuroscience and Neuroengineering,2012 Sep,1(2):1-10 | 2012 . 09 |
| 48 | 洪慧珊(Huey-Shan Hung)、朱美芸(Mei-Yun Chu)、林建勳(Chien-Hsun Lin)、吳佳慶(Chia-Ching Wu)、徐善慧(Shan-hui Hsu)*,Mediation of the migration of endothelial cells and fibroblasts on polyurethane nanocomposites by the activation of integrin-focal adhesion kinase signaling,JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A,2012 Jan,100(1):26-37 | 2012 . 01 |
| 49 | 洪慧珊(Huey-Shan Hung)、陳惠珍(Hui-Chen Chen)、蔡長海(Chang-Hai Tsai)、林欣榮(Shinn-Zong Lin)*,Novel approach by nanobiomaterials in vascular tissue engineering,CELL TRANSPLANTATION,2011 Jan,20(1):63-70 | 2011 . 01 |
| 50 | 洪慧珊(Huey-Shan Hung)、徐偉成(Woei-Cherng Shyu)、蔡長海(Chang-Hai Tsai)、(Hsu SH)、林欣榮(Shinn-Zong Lin)*,Transplantation of endothelial progenitor cells as therapeutics for cardiovascular diseases,CELL TRANSPLANTATION,2009 Dec,18(9):1003-1012 | 2009 . 12 |
| 51 | 徐善慧(Shan-hui Hsu)、曾向榮(Hsiang-Jung Tseng)、洪慧珊(Huey-Shan Hung)、王明鍵(Ming-Chien Wang)、洪瓊慧(Chiung-Hui Hung)、李珮如(Pei-Ru Li)、林江珍(Jiang-Jen Lin)*,Antimicrobial Activities and Cellular Responses to Natural Silicate Clays and Derivatives Modified by Cationic Alkylamine Derivatives Modified by Cationic Alkylamine,ACS Applied Materials & Interfaces,2009 Nov,1(11):2556-2564 | 2009 . 11 |
| 52 | 邱紹智(Shao-Chih Chiu)、洪慧珊(Huey-Shan Hung)、林欣榮(Shinn-Zong Lin)、(Esheral Chiang)、劉德模(Demeral David Liu)*,Therapeutic potential of olfactory ensheathing cells in neurodegenerative diseases,JOURNAL OF MOLECULAR MEDICINE-JMM,2009 Sep,87(12):1179-1189 | 2009 . 09 |
| 53 | 洪慧珊(Huey-Shan Hung)、(Shan-hui Hsu)*,The response of endothelial cells to polymer surface comprised of nanometric micelles,New Biotechnology,2009 Apr,25(4):235-243 | 2009 . 04 |
| 54 | (Gou-Jen Wang)*、(Yan-Cheng Lin)、(Ching-Wen Li)、(Cheng-Chih Hsueh)、(Shan-hui Hsu)、洪慧珊(Huey-Shan Hung),Fabrication of orderly nanostructured PLGA scaffolds using anodic aluminum oxide templates,BIOMEDICAL MICRODEVICES,2009 Apr,11(N/A):843-850 | 2009 . 04 |
| 55 | 洪慧珊(Huey-Shan Hung)、(Chia-Ching Wu)、(Shu Chien)、(Shan-hui Hsu)*,The behavior of endothelial cells on a series of polyurethane nanocomposites and the associated signaling pathways,BIOMATERIALS,2009 ,30(N/A):1502-1511 | 2009 . |
| 56 | (Chung-Huang Chen)、洪慧珊(Huey-Shan Hung)、(Shan-hui Hsu)*,Low-energy laser irradiation increases endothelial cell proliferation, migration, and eNOS gene expression possibly via PI3K signal pathway,LASERS IN SURGERY AND MEDICINE,2008 ,40(N/A):46-54 | 2008 . |
| 57 | (Gou-Jen Wang)*、(Cheng-Chih Hsueh)、(Shan-hui Hsu)、洪慧珊(Huey-Shan Hung),Fabrication of PLGA Microvessel Scaffolds with Circular Microchannels Using Soft Lithography.,JOURNAL OF MICROMECHANICS AND MICROENGINEERING,2007 Sep,17(N/A):2000-2005 | 2007 . 09 |
| 58 | 洪慧珊(Huey-Shan Hung)、(Wen-Jun Wu)、(Ya-Wen Cheng)、(Tsu-Chin Wu)、(Kee-Lung Chang)、(Huei Lee)*,Association of cooking oil fumes exposure with lung cancer: involvement of inhibitor of apoptosis proteins in cell survival and proliferation in vitro.,MUTATION RESEARCH-GENETIC TOXICOLOGY AND ENVIRONMENTAL MUTAGENESIS,2007 ,628():107-116 | 2007 . |
| 59 | 洪慧珊(Huey-Shan Hung)、(Shan-hui Hsu)*,Biological performances of poly(ether)urethane-silver nanocomposites.,NANOTECHNOLOGY,2007 ,18(N/A):475101-9pp | 2007 . |
| 60 | 洪慧珊(Huey-Shan Hung)、(Wen-Jun Wu)、(Ya-Wen Cheng)、(Tsu-Chin Wu)、(Kee-Lung Chang)、(Huei Lee)*,Cooking oil fumes improve lung adenocarcinoma cell survival through c-IAP2 induction,JOURNAL OF TOXICOLOGY AND ENVIRONMENTAL HEALTH,2005 ,68(N/A):1525-1535 | 2005 . |
研討會論文
|
研討會論文/Conference Papers (發表主題或論文名稱,研討會名稱,演講地點,研討會期間,受邀演講題目) |
日期 | |
| 1 | n-Butylidenephthalide-Decorated Collagen Fabricated Gold Nanoparticles for Induction Apoptosis Effect of A549 Cells,2023 International Conference on Advanced Biomedical Sciences 臺灣國際創新生物醫學峰會,中國醫藥大學 水湳校區卓越大樓B2F國際會議廳 406台中市北屯區經貿路一段100號,2023.12.01~2023.12.02, | 2023 . 12 |
| 2 | Assessment of Delivery Capacity and Anti-inflammatory Ability of Nstpbp-5185 Conjugation with Gold nanoparticle,2023 International Conference on Advanced Biomedical Sciences 臺灣國際創新生物醫學峰會,中國醫藥大學 水湳校區卓越大樓B2F國際會議廳 406台中市北屯區經貿路一段100號,2023.12.01~2023.12.02, | 2023 . 12 |
| 3 | Explore for Treatment of Berberine-Loaded Gold Nanoparticles on Breast Cancer and Lung Cancer,2023 International Conference on Advanced Biomedical Sciences 臺灣國際創新生物醫學峰會,中國醫藥大學 水湳校區卓越大樓B2F國際會議廳 406台中市北屯區經貿路一段100號,2023.12.01~2023.12.02, | 2023 . 12 |
| 4 | Biocompatibility and Favorable Effect of Endothelial Cells on Graphene Oxide Nanogold Composites,2022 ICCB & APOCB JOINT MEETING 14th International Congress of Cell Biology & 9th Asian Pacific Organization for Cell Biology,Research Center for Humanities and Social Sciences, Academia Sinica 中央研究院人文社會科學研究中心,2022.11.7 ~2022.11.11, | 2022 . 11 |
| 5 | Evaluation the Biocompatibility Capacity of Graphene Oxide Nanosilver Composites for Vascular Tissue Application,2022 ICCB & APOCB JOINT MEETING 14th International Congress of Cell Biology & 9th Asian Pacific Organization for Cell Biology,Research Center for Humanities and Social Sciences, Academia Sinica 中央研究院人文社會科學研究中心,2022.11.7 ~2022.11.11, | 2022 . 11 |
| 6 | Evaluating the ability of novel collagen-nanosilver composites in the promotion of vascular endothelial cells regeneration,2020年臺灣幹細胞學會第十六屆年會暨細胞及基因治療國際學術研討會,國立陽明大學活動中心,2020.10.30~2020.10.31, | 2020 . 10 |
| 7 | Analyzing the surface modification of silver nanoparticle based on the biocompatibility and biological performances of mesenchymal stem cells for biomaterial application,2020年臺灣幹細胞學會第十六屆年會暨細胞及基因治療國際學術研討會,國立陽明大學活動中心,2020.10.30~2020.10.31, | 2020 . 10 |
| 8 | Examining therapeutic potentials of nanomaterials conjugated with stromal cell-derived-factor-1 on mammalian dendritic cells in vitro,2020年臺灣幹細胞學會第十六屆年會暨細胞及基因治療國際學術研討會,國立陽明大學活動中心,2020.10.30~2020.10.31, | 2020 . 10 |
| 9 | Novel Collagen-Nanosilver Composite to Promote the Stem Cell Behavior for Skin Tissue Regeneration,2018台灣幹細胞學會年會暨國際學術研討會,國家衛生研究院,2018.10.26~2018.10.27, | 2018 . 10 |
| 10 | To Evaluate the Delivery Ability Conjugated with Stromal Cell Derived-Factor-1a on Dentric Cells both In Vitro and In Vivo Study,2018台灣幹細胞學會年會暨國際學術研討會,國家衛生研究院,2018.10.26~2018.10.27, | 2018 . 10 |
| 11 | Biocompatibility and Bioological Performance of l Stem Cells on Fibronectin-Nanosilver composites for vascular Tissue Regeneration,2018台灣幹細胞學會年會暨國際學術研討會,國家衛生研究院,2018.10.26~2018.10.27, | 2018 . 10 |
| 12 | Surface topography cue of poly(dimethylsiloxane)-dopamine pattern affects the differentiation of human mesenchymal stem cells via SDF-1/CXCR4 pathway,2016幹細胞研究與細胞治療新知研討會暨台灣幹細胞醫學會第十二屆年會,China Medical University,2016.10.01~2016.10.01, | 2016 . 10 |
| 13 | Enhancement of mesenchymal stem cell differentiation capacity by a biomimetic pullulane-collagen nanogold composites,2016幹細胞研究與細胞治療新知研討會暨台灣幹細胞醫學會第十二屆年會,China Medical University,2016.10.01~2016.10.01, | 2016 . 10 |
| 14 | The gene delivery efficiency of A549 cells with gold nanoparticle conjugation with epidermal growth receptor siRNA,2016幹細胞研究與細胞治療新知研討會暨台灣幹細胞醫學會第十二屆年會,China Medical University,2016.10.01~2016.10.01, | 2016 . 10 |
| 15 | To evaluate the delivery capacity of gold nanoparticles while conjugation with stromal cell derived factor-1α on mesenchymal stem cells,2016幹細胞研究與細胞治療新知研討會暨台灣幹細胞醫學會第十二屆年會,China Medical University,2016.10.01~2016.10.01, | 2016 . 10 |
| 16 | Efficient potential of human mesenchymal stem cells by nanogold-chitosan composite films,2015 International Conference on Stem Cells and Developmental Biology,中央研究院人文館國際會議廳,2015.10.16~2015.10.17, | 2015 . 10 |
| 17 | Surface topography cue of poly(dimethylsiloxane)-dopamine pattern affects the differentiation of human mesenchymal stem cells via SDF-1a /CXCR4 pathway,2015 International Conference on Stem Cells and Developmental Biology,中央研究院人文館國際會議廳,2015.10.16~2015.10.17, | 2015 . 10 |
| 18 | In vitro assessment of biocompatibility performance with physical nanogold particle,2015 International Conference on Stem Cells and Developmental Biology,中央研究院人文館國際會議廳,2015.10.16~2015.10.17, | 2015 . 10 |
| 19 | Nanogold particle-fabricated graphene derivatives for tissue engineering application,2015 International Conference on Stem Cells and Developmental Biology,中央研究院人文館國際會議廳,2015.10.16~2015.10.17, | 2015 . 10 |
| 20 | Effect nanogold-collagen composite of mesenchymal stem cell for vascular biomaterial application,BIT’s 1st Annual World Congress of Smart Materials-2015,BEXCO, Busan, Republic of Korea,2015.03.23~2015.03.25, | 2015 . 03 |
| 21 | Exploring biological interaction of gold nanoparticle with mesenchymal stem cells,Frontiers Stem Cell Research and Regenerative Medicine & The 10 th Annual Meeting of Taiwan Society,台灣大學基礎醫學大樓 5 F,2014.10.04~2014.10.04, | 2014 . 10 |
| 22 | The effect surface nanotopography of gold nanoparticle on the behavior of mesenchymal stem cells,Frontiers Stem Cell Research and Regenerative Medicine & The 10 th Annual Meeting of Taiwan Society,台灣大學基礎醫學大樓 5 F,2014.10.04~2014.10.04, | 2014 . 10 |
| 23 | Enhancement of mesenchymal stem cell favor biocompatibility capacity by pullulane-collagen nanogold composites,Frontiers Stem Cell Research and Regenerative Medicine & The 10 th Annual Meeting of Taiwan Society,台灣大學基礎醫學大樓 5 F,2014.10.04~2014.10.04, | 2014 . 10 |
| 24 | Mechanical force control of mesenchymal stem cell fate using fibronectin-nanogold composite films,Frontiers Stem Cell Research and Regenerative Medicine & The 10 th Annual Meeting of Taiwan Society,台灣大學基礎醫學大樓 5 F,2014.10.04~2014.10.04, | 2014 . 10 |
| 25 | Differentiation capacity of mesenchymal stem cells in nanogold composites,2014生醫材料及藥物制放研討會暨海峽兩岸生醫材料及藥物制放研討會,國立清華大學化學工程館,2014.05.02~2014.05.02, | 2014 . 05 |
| 26 | Effect mesenchymal stem cells on nanogold-polycaprolactone/hydroapatite composite films,2014生醫材料及藥物制放研討會暨海峽兩岸生醫材料及藥物制放研討會,國立清華大學化學工程館,2014.05.02~2014.05.02, | 2014 . 05 |
| 27 | The differentiation ability of mesenchymal stem cells on nanogold-chitosan composite films,2014生醫材料及藥物制放研討會暨海峽兩岸生醫材料及藥物制放研討會,國立清華大學化學工程館,2014.05.02~2014.05.02, | 2014 . 05 |
| 28 | Biocompatibility and favorable behavior between mesenchymal stem cells and nanogold particles,2014生醫材料及藥物制放研討會暨海峽兩岸生醫材料及藥物制放研討會,國立清華大學化學工程館,2014.05.02~2014.05.02, | 2014 . 05 |
| 29 | Effect of mesenchymal stem cells on fibronectin and collagen nanocomposites,2013InternationalSymposiumo Development,Morphogenesis,and Stem Cells The 9th Annual Meetingof TSSCR,台北榮民總醫院,2013.10.05~2013.10.06, | 2013 . 10 |
| 30 | Characterization the biological performance of poly (ethylene glycol)-nanogold composites for tissue engineering application,2013InternationalSymposiumo Development,Morphogenesis,and Stem Cells The 9th Annual Meetingof TSSCR,台北榮民總醫院,2013.10.05~2013.10.06, | 2013 . 10 |
| 31 | Surface modification of nanogold particles into the polycaprolactone/hydroxyapatite for bone tissue engineering,2013InternationalSymposiumo Development,Morphogenesis,and Stem Cells The 9th Annual Meetingof TSSCR,台北榮民總醫院,2013.10.05~2013.10.06, | 2013 . 10 |
| 32 | Differentiation ability and biological effect of mesenchymal stem cells by chitosan-nanogold composite films,2013InternationalSymposiumo Development,Morphogenesis,and Stem Cells The 9th Annual Meetingof TSSCR,台北榮民總醫院,2013.10.05~2013.10.06, | 2013 . 10 |
| 33 | Biocompatibility and favorable response of mesenchymal stem cells on fibronectin-gold nanocomposites,The 4th Asian Biomaterials Congress,Hong Kong,2013.06.26~2013.06.29, | 2013 . 06 |
| 34 | Nanogold-based carrier for the drug delivery of butylidenephthalide into human brain glioblastoma cells,第28屆生物醫學聯合學術年會,國防醫學院,2013.03.23~2013.03.24, | 2013 . 03 |
| 35 | The biological function of endothelial cells to natural polymers comprised of nanogold composites and the associated signaling pathway,第28屆生物醫學聯合學術年會,國防醫學院,2013.03.23~2013.03.24, | 2013 . 03 |
| 36 | Biocompatibility and biological function of mesenchymal stem cells and MC3T3 cells on poly(ethylene glycol)-nanogold nanocomposites,第28屆生物醫學聯合學術年會,國防醫學院,2013.03.23~2013.03.24, | 2013 . 03 |
| 37 | 延長幹細胞分裂能力與抗衰老作用 延長幹細胞分裂能力與抗衰老作用,第18次春季醫美學術研討會暨會員大會,國防醫學院(台北市114內湖區民權東路6段161號),2013.03.31~2013.03.31,世紀抗老回春新趨勢 延長幹細胞分裂能力與抗衰老作用 | 2013 . 03 |
| 38 | Engineered Carrier of Goldnanoparticle and Inhibitor of Apoptosis Protein 2 (IAP2) siRNA Delivery,中華民國生醫材料及藥物制放學會 2012 年會暨研討會,臺北醫學大學〃醫學綜合大樓後棟十六樓國際演講廳,2012.04.28~2012.04.28, | 2012 . 04 |
| 39 | Modified of CXCR4 siRNA on nanogold-based carrier for stem cell therapy,中華民國生醫材料及藥物制放學會 2012 年會暨研討會,臺北醫學大學.醫學綜合大樓後棟十六樓演講廳,2012.04.28~2012.04.28, | 2012 . 04 |
| 40 | Study the Migration Effect of Endothelial Cells on Natural Polymer-nanocomposites,中華民國生醫材料及藥物制放學會 2012 年會暨研討會,臺北醫學大學〃醫學綜合大樓後棟十六樓國際演講廳,2012.04.28~2012.04.28, | 2012 . 04 |
| 41 | ,BIT, 4th Annual Congress of Regenerative Medicine & Stem Cell-2011,Beijing International Convention Center, Beijing China,2011.11.11~2011.11.13,Endothelialization Capacity of Mesenchymal Stem Cells in Nanogold Composites | 2011 . 11 |
| 42 | Endothelialization capacity of mesenchymal stem cells in collagen-nanogold composites,International Symposium on Recent Advances in Pluripotent Stem Cells,Taipei Medical University,2011.10.01~2011.10.02, | 2011 . 10 |
| 43 | Engineered nanogold-based carrier for disease application,International Symposium on Recent Advances in Pluripotent Stem Cells,Taiwan Society for Stem Cell Research & Taipei Medical University,2011.10.01~2011.10.02, | 2011 . 10 |
| 44 | In vitro estimate the differentiation potential of wharton’s jelly derived mesenchymal stem cells on chitosan-gold composite films for nerve tissue engineering,International Symposium on Recent Advances in Pluripotent Stem Cells,Taipei Medical University,2011.10.01~2011.10.02, | 2011 . 10 |
| 45 | Nanocomposites by SDF-1a/CXCR4 signaling pathway to promote mesenchymal stem cell based on the mechanism of endothelialization,第二十六屆生物醫學聯合學術年會,國防醫學院,2011.03.19~2011.03.20, | 2011 . 03 |
| 46 | ,第7屆第4次醫學美容學術研討會暨會員大會 (Chinese Society of Cosmetic Surgery and Anti-Aging Medicine),財團法人張榮發基金會10 F 國際會議中心,2011.03.20~2011.03.20,世紀抗老回春新趨勢 端粒酶 | 2011 . 03 |
| 47 | To Explore the Molecular Mechanism of NP-BB on Tumor Therapeutic Application,生物醫學聯合學術年會,國防醫學院,2011.03.19~2011.03.20, | 2011 . 03 |
| 48 | Novel Nanogold Carrier for Neuroscience Application,生物醫學聯合學術年會,國防醫學院,2011.03.19~2011.03.20, | 2011 . 03 |
| 49 | Novel Collagen-gold Nanocomposite for Mesenchymal Stem Cells Differentiation and Ability of Vascularization,生物醫學聯合學術年會,國防醫學院,2011.03.19~2011.03.20, | 2011 . 03 |
| 50 | Nanocomposites by SDF-1a/CXCR4 Signaling Pathway to Promote Mesenchymal Stem Cell Based on the Mechanism of Endothelialization ,生物醫學聯合學術年會,國防醫學院,2011.03.19~2011.03.20, | 2011 . 03 |
| 51 | ,中華民國中西結合神經醫學會第三屆第二次會員大會暨學術研討會,善導教育中心6樓,2010.12.05~2010.12.05,漸凍人的幹細胞基因療法 | 2010 . 12 |
| 52 | ,臺灣幹細胞學會第六屆年會,中山醫學大學,2010.10.09~2010.10.09,Polyurethane-gold nanocomposites promote the maturation of endothelial progenitor cells partially through stromal factor-1 (SCD-1)/CXCR4 signaling pathway in the vascular disease model | 2010 . 10 |
| 53 | Nanogold composites promote the maturation driven by endothelial (Recipient of First prize in Best Poster Award),2nd Pan Pacific Symposium on Stem Cells Research,China Medical University,2009.04.10~2009.04.13, | 2009 . 04 |
| 54 | Polyurethane-gold nanocomposites promote maturation of endothelial progenitor cells,8th World Biomaterials Congress. Amsterdam,Amsterdam, The Netherlands,2008.05.28~2008.06.01, | 2008 . 05 |
| 55 | Migration of endothelial cells on polyurethane-gold nanocomposites,International Conference on Bionano Science,2007 Taiwan ICONBS,2007.12.05~2007.12.08, | 2007 . 12 |
| 56 | Migration of endothelial cells on polyurethane-gold nanocomposites,Society for Biomaterials 2007 Annual Meeting,Sheraton Chicago Hotel and Towers Chicago, Illinois, USA,2007.04.18~2007.04.21, | 2007 . 04 |
專書
暫無資料研究計畫
|
研究計畫/Research Grant (研究類型,研究計畫代號,主持人,補助或委託單位名稱,計畫名稱,計畫期間) |
日期 | |
| 1 | 個別型,NSTC 113-2221-E-039-011,劉尊睿(Tsun-Jui Liu),科技部,石墨烯膠原蛋白-奈米金-nstpbp5185複合基材促進血管組織再生之評估,2024.8.1~2025.7.31 | 2024 . 08 |
| 2 | 個別型,CMU112-S-57,,本校(含附醫),石墨烯奈米銀複合基材應用於生醫材料表面改質之評估,2023.11.14~2024.7.31 | 2023 . 11 |
| 3 | 個別型,MOST 111-2314-B-039-045,楊孟寅、湯正明,科技部,幾丁聚醣-奈米金/聚己內酯-油酸-羥基磷灰石奈米複合支架的引導骨組織再生之評估:體外和體內研究,2022.8.1~2023.7.31 | 2022 . 08 |
| 4 | 個別型,,洪慧珊(Huei-Shan Hung),衛福部,探討小蘗鹼負載的奈米粒子之於乳癌的治療功效,2022.1.1~2022.12.31 | 2022 . 01 |
| 5 | 個別型,MOST 110-2314-B-039-049,連金城(Lien, Jin-Cherng),科技部,奈米金膠原蛋白-nstpbp5185藥物載體於動脈硬化抗氧化和抗發炎作用機 制之探討,2021.8.1~2022.7.31 | 2021 . 08 |
| 6 | 學生參與計畫,CMU110-SR-81,,科技部,奈米基材表面改植技術於骨組織工程、修復再生及血管新生之探討,2021.8.1~2022.2.28 | 2021 . 08 |
| 7 | 個別型,DMR-110-133,,附醫院內計畫,奈米金氧化石墨烯複合基材促進幹細胞分化之探討,2020.8.1~2021.7.31 | 2020 . 08 |
| 8 | 個別型,MOST 109-2314-B-039-046,(Shan-hui Hsu),科技部,表面改植新穎奈米銀膠原蛋白複合基材探討生醫材料促進血管組織修復能力之應用,2020.8.1~2021.7.31 | 2020 . 08 |
| 9 | 個別型,DMR-109-127,,附醫院內計畫,奈米水膠基材於皮膚傷口敷料之應用,2019.8.1~2020.7.31 | 2019 . 08 |
| 10 | 個別型,MOST 107-2314-B-039-069-,陳怡文(Yi-Wen Chen)、吳伯元(Po-Yuan Wu),科技部,新穎普魯蘭-膠原蛋白-奈米金/生物水膠結合三維細胞片製備皮膚傷口敷料:以體外細胞及體內動物實驗探討基材於皮膚奈米組織工程之應用,2018.8.1~2019.7.31 | 2018 . 08 |
| 11 | 個別型,DMR-108-105,陳怡文(Yi-Wen Chen),附醫院內計畫,奈米金複合基材/生物水膠細胞片於皮膚奈米組織工程之製備與應用,2018.8.1~2019.7.31 | 2018 . 08 |
| 12 | 個別型,MOST 106-2314-B-039-030-,王宇澄(Wang, Yu-Chen),科技部,奈米金複合基材表面改植血管生醫材料新穎策略之開發與應用,2017.8.1~2018.7.31 | 2017 . 08 |
| 13 | 產學合作,10642609,,高鼎精密材料股份有限公司,人工小血管藥物複合機制,2017.8.1~2018.10.31 | 2017 . 08 |
| 14 | 學生參與計畫,CMU106-SR-93,,科技部,金雀異黃素誘導各肝癌細胞株走向凋亡機制之綜合探討,2017.8.1~2018.2.28 | 2017 . 08 |
| 15 | 學生參與計畫,106-2813-C-039-093-B,,科技部,金雀異黃素誘導各肝癌細胞株走向凋亡機制之綜合探討,2017.7.1~2018.2.28 | 2017 . 07 |
| 16 | 個別型,MOST 104-2314-B-039 -047 -MY2,,科技部,以體外細胞及體內動物實驗探討奈米金複合基材表面改植血管生醫材料之生物功能性與血液相容性,2016.8.1~2017.7.31 | 2016 . 08 |
| 17 | 個別型,DMR-106-077,謝淑貞,附醫院內計畫,表面修飾聚二甲基矽氧烷/多巴胺基材表面模式化圖案促進生物相容性與幹細胞分化能力之探討,2016.8.1~2017.7.31 | 2016 . 08 |
| 18 | 個別型,DMR-105-057,,附醫院內計畫,奈米金複合基材促進內皮分化機制之探討,2015.8.1~2016.7.31 | 2015 . 08 |
| 19 | 個別型,MOST 104-2314-B-039 -047 -MY2,,科技部,以體外細胞及體內動物實驗探討奈米金複合基材表面改植血管生醫材料之生物功能性與血液相容性,2015.8.1~2016.7.31 | 2015 . 08 |
| 20 | 個別型,DMR-104-051,,附醫院內計畫,探討新穎聚乙二醇奈米金複合基材於血管組織工程之應用,2014.8.1~2015.7.31 | 2014 . 08 |
| 21 | 個別型,MOST 103 - 2314 - B - 039 - 033,,科技部,奈米金複合基材誘導間葉幹細胞分化潛力並促進血管組織修復能力之探討,2014.8.1~2015.7.31 | 2014 . 08 |
| 22 | 個別型,DMR-103-056,,附醫院內計畫,聚乙二醇-奈米基材/聚己內酯-羥磷灰石支架誘導間葉幹細胞促進骨組織修復能力之探討,2013.8.1~2014.7.31 | 2013 . 08 |
| 23 | 個別型,NSC 102-2221-E-039-009,湯正明(Cheng-Ming Tang)、蔡俊灝(Chun-Hao Tsai),科技部,聚乙二醇-奈米基材/聚己內酯-羥磷灰石支架促進血管新生與骨組織修復效用之探討,2013.8.1~2014.7.31 | 2013 . 08 |
| 24 | 個別型,101-2221-E-039-004,,科技部,VEGF/SDF-1 訊息路徑促進間葉幹細胞於纖維蛋白奈米金複合基材上分化能力之探討,2012.8.1~2013.7.31 | 2012 . 08 |
| 25 | 個別型,NSC 100-2221-E-039-003,湯正明(Cheng-MIng Tang),科技部,奈米金複合基材誘導間葉幹細胞促進血管內皮化能力之探討,2011.8.1~2012.7.31 | 2011 . 08 |
| 26 | 個別型,CMU99-N1-06-2,,本校(含附醫),探討聚氨酯奈米複合基材經由SDF-1α訊息路徑數近血液前驅細胞成熟分化之相關作用機制,2011.8.1~2011.9.30 | 2011 . 08 |
| 27 | 個別型,CMU99-N1-06-1,,本校(含附醫),探討聚氨酯奈米複合基材經由SDF-1α訊息路徑數近血液前驅細胞成熟分化之相關作用機制,2010.10.1~2011.7.31 | 2010 . 10 |
| 28 | 整合型(召集人、總主持人),CMU98-CT-33,,本校(含附醫),Glia-specific genetic manipulation of D-amino acid oxidase (DAO) and D-amino acid oxidase activator (DAOA, also called G72) in vitro and in rodents,2009.12.1~2010.11.30 | 2009 . 12 |
| 29 | 個別型,NSC 98-2314-B-039-029,黃志揚(Chih-Yang Huang),科技部,探討血管與缺血性腦中風疾病:不同新穎複合生醫奈米材料對血管新生之分子機轉 (SDF-1/CXCR4)及治療策略發展研究,2009.11.1~2011.7.31 | 2009 . 11 |
| 30 | 個別型,CMU98-N1-13,,本校(含附醫),聚胺酯奈米金/銀複合材料對受損內皮細胞修復機制之探討,2009.10.1~2010.9.30 | 2009 . 10 |
| 31 | 個別型,DMR-98-124,,附醫院內計畫,聚胺酯奈米金/銀複合材料對受損內皮細胞修復機制之探討,2008.8.1~2009.6.30 | 2008 . 08 |
專利技術
暫無資料獲獎事蹟
|
獲獎/Award (獲獎名稱,給獎單位,獲獎日期) |
日期 | |
| 1 | 私立教育事業協會113年資深優良教師大勇獎,,2024.9.25 | 2024 . 09 |
| 2 | International Research Awards on Oncology and Cancer Research (Best Researcher Award),International Research Award on Oncology and Cancer Research,2022.1.19 | 2022 . 01 |
| 3 | 108 年度教育部資深優良教師獎,教育部,2019.1.16 | 2019 . 01 |
| 4 | 2018 ACS Publications Awards,ACS Publications,2018.12.31 | 2018 . 12 |
| 5 | 103 年度工程論文獎,社團法人中國工程師學會,2014.6.6 | 2014 . 06 |
| 6 | 2013 JMBE BEST ANNUAL PAPER AWARD,Taiwanese Society of Biomedical Engineering,2013.11.15 | 2013 . 11 |
| 7 | 2nd Pan Pacific Symposium on Stem Cells Research 2009 (Recipient of First Prize in Best Poster Award),本校(含附醫),2009.4.13 | 2009 . 04 |
