{"id":10,"date":"2013-03-21T16:01:49","date_gmt":"2013-03-21T08:01:49","guid":{"rendered":"http:\/\/wp.kmu.edu.tw\/ckwang\/?page_id=10"},"modified":"2021-10-25T11:54:06","modified_gmt":"2021-10-25T03:54:06","slug":"publications","status":"publish","type":"page","link":"https:\/\/wp.kmu.edu.tw\/ckwang\/publications\/","title":{"rendered":"Publications(\u8ad6\u6587\u8457\u4f5c)"},"content":{"rendered":"

\u570b\u969b\u671f\u520a<\/strong> (*: Corresponding author)<\/strong><\/h3>\n
    \n
  1. Chih-Kuang Wang<\/u><\/strong>, Jiin-Huey Chern Lin*, Chien-Ping Ju, Hong Choon Ong and Robert P. H. Chang, “Structural characterization of pulsed laser-deposited hydroxyapatite on titanium substrate”, Biomaterials<\/strong>, 18:1331-1338, 1997. (IF: 604 at 2012, ranking:3\/79=3.9% in ENGINEERING, BIOMEDICA)<\/li>\n
  2. Chih-Kuang Wang<\/u><\/strong>, Jiin-Huey Chern Lin, Chien-Ping Ju*, Effect of doped bioactive glass on structure and properties of sintered hydroxyapatite, Materials Chemistry and Physics<\/strong>, 53:138-149, 1998. (IF: 072 at 2012 ; ranking:61\/241=25.3% in MATERIALS SCIENCE, MULTIDISCIPLINARY) (IF: 2.234 at 2011)<\/li>\n
  3. Chien-Ping Ju*, Chih-Kuang Wang<\/u><\/strong>, Hung-Yih Cheng, Jiin-Huey Chern Lin, Process and Wear Behavior of Monolithic SiC and Short Carbon Fiber-SiC Matrix Composite, Journal of Materials Science<\/strong>, 35: 4477-4484, 2000. (IF: 163 at 2012 ; ranking: 58\/241=24.06% in MATERIALS SCIENCE, MULTIDISCIPLINARY)<\/li>\n
  4. Yi-Pang Lee, Chih-Kuang Wang<\/u><\/strong>, Tsui-Hsien Huang, Chun-Cheng Chen, Chia-Tze Kao, Shinn-Jyh Ding*, In Vitro characterization of postheat-treated plasma-sprayed hydroxyapatite coatings, Surface and Coatings Technology<\/strong>, 197: 367\u2013374, 2005. (IF: 941 at 2012 ; ranking:3\/17=17.64% in MATERIALS SCIENCE, COATINGS & FILMS)<\/li>\n
  5. C. Fu, M.L. Ho, S.C. Wu, H.S. Hsieh, C.K. Wang<\/u>*<\/strong>, Porous bioceramic bead prepared by calcium phosphate with sodium alginate gel and PE powder, Materials Science and Engineering C<\/strong>, 28: 1149-1158, 2008. (IF: 3.420 at 2015 ; ranking:12\/33=36.3% in MATERIALS SCIENCE, BIOMATERIALS<\/strong>)<\/li>\n
  6. C. Fu, H. Nie, M.L. Ho, C.K. Wang<\/u><\/strong>, C.H. Wang*, Optimized bone regeneration based on sustained release from three-dimensional fibrous PLGA\/HAp composite scaffolds loaded with BMP-2, Biotechnology & Bioengineering<\/strong>, 99: 996-1006, 2008. (IF: 4.243 at 2015 ; ranking:24\/161=14.9% in BIOTECHNOLOGY & APPLIED MICROBIOLOGY)<\/li>\n
  7. Mei-Ling Ho, Yin-Chih Fu, Gwo-Jaw Wang, Hui Ting Chen, Je-Ken Chang, Tsung Hsien Tsai, Chih-Kuang Wang<\/u><\/strong>*, Controlled release carrier of BSA made by W\/O\/W emulsion method containing PLGA and hydroxyapatite, Journal of Controlled Release<\/strong>, 128: 142-148, 2008. (IF:441 at 2015; ranking:9\/253=3.5% in PHARMACOLOGY & PHARMACY<\/strong>)<\/li>\n
  8. C. Chen, C.C. Hung, Y.C. Huang, C.K. Wang<\/u><\/strong> and J.C. Wang*, Fracture load of provisional fixed partial dentures with long-span fiber-reinforced acrylic resin and thermocycling, Journal of <\/strong>Dental Sciences<\/strong>,<\/strong> 4: 25-31, 2009. (IF: 4.602 at 2015 ; ranking:2\/89=2.2% in DENTISTRY, ORAL SURGERY & MEDICINE)<\/li>\n
  9. H. Chen, K.I. Chen, M.L. Ho, H.N. Chen, W.C. Chen, C.K. Wang<\/u>*<\/strong>, Synthesis of calcium phosphates and porous hydroxyapatite beads prepared by emulsion method, Materials Chemistry and Physics<\/strong>, 113: 365-371, 2009. (IF: 2.101 at 2015 ; ranking: 97\/271=35.7% in MATERIALS SCIENCE, MULTIDISCIPLINARY)<\/li>\n
  10. K. Wang<\/u><\/strong>, S.H. Chen, W.Y. Li, C.H. Lai and W.C. Chen*, Bioactive glass shell growth of a Si\u2013Na\u2013Ca\u2013P layer on gold nanoparticles functionalized with mercaptopropyltrimethyloxysilane- silicate-tetraethylothosilicate\u201d, Surface Review and Letters<\/strong> 16: 37\u201342, 2009. (IF:0.435 at 2015; ranking:64\/67=95.5% in PHYSICS, CONDENSED MATTER)<\/li>\n
  11. Nie, M.L. Ho, C.K. Wang<\/u><\/strong>, C.H. Wang, Y.C. Fu*, BMP-2 plasmid loaded PLGA\/HAp composite scaffolds for treatment of bone defects in nude mice, Biomaterials<\/strong> 30: 892\u2013901, 2009. (IF: 8.387 at 2015, ranking:2\/76=2.6% in ENGINEERING, BIOMEDICA)<\/li>\n
  12. K. Chang, C.J. Li, H.J. Liao, C.K. Wang<\/u><\/strong>, G.J. Wang, M.L. Ho*, \u201cAnti-inflammatory drugs suppress proliferation and induce apoptosis through altering expressions of cell cycle regulators pro-apoptotic factors in cultured human osteoblasts, Toxicology <\/strong>258: 148\u2013156, 2009. (IF:3.817 at 2015 ; ranking: 13\/89=14.6% in TOXICOLOGY)<\/li>\n
  13. H. Tseng, Y.L. Chen, C.M. Lu, C.K. Wang<\/u><\/strong>, Y.T. Tsai, R.W. Lin, C.F. Chen, Y.F. Chang, G.J. Wang, M.L. Ho, and C.C. Tzeng*, Synthesis and Anti-osteoporotic Evaluation of Certain 3-Amino-2-hydroxypropoxyisoflavone Derivatives, European Journal of Medicinal Chemistry<\/strong> 44:3621-3626, 2009. (IF:3.902 at 2015 ; ranking: 6\/59=10.1% in Chemistry, Medicinal)<\/li>\n
  14. Chih-Kuang Wang<\/u><\/strong>, Mei-Ling Ho, Gwo-Jaw Wang, Je-Ken Chang, Chung-Hwan Chen, Yin-Chih Fu*, Hwai-Hui Fu, Controlled-release of rhBMP-2 carriers in the regeneration of osteonecrotic bone, Biomaterials<\/strong> 30: 4178\u20134186, 2009. (IF: 387 at 2015, ranking:2\/76=2.6% in ENGINEERING, BIOMEDICA)<\/li>\n
  15. Chih-Kuang Wang<\/u><\/strong>, Chau-Zen Wang, Jen-Chyan Wang, Chun-Cheng Hung, Wan-Yun Li, Wen-Cheng Chen*, Preparation and characterization of calcium phosphate deposited on gold nanoparticles, Journal of Non-Crystalline Solids<\/strong>, 356:927-932, 2010. (IF: 825 at 2015, ranking:5\/27=18.5% in MATERIALS SCIENCE, CERAMICS)<\/li>\n
  16. Shun-Cheng Wu, Chung-Hwan Chen, Je-Ken Chang, Yin-Chih Fu, Chih-Kuang Wang<\/u><\/strong>, Rajalakshmanan Eswaramoorthy, Yi-Shan Lin, Yao-Hsien Wang, Sung-Yen Lin, Gwo-Jaw Wang, Mei-Ling Ho*, Hyaluronan initiates chondrogenesis mainly via CD44 in human adipose derived stem cells, Journal of Applied Physiology<\/strong>, 114:1610-1618, 2013) (IF:004 at 2015, ranking:12\/82=14.6% in SPORT SCIENCES)<\/li>\n
  17. Chung-Hwan Chen, Yi-Shan Lin, Yin-Chih Fu, Chih-Kuang Wang<\/u><\/strong>, Shun-Cheng Wu, Gwo-Jaw Wang, Rajalakshmanan Eswaramoorthy,Yan-Hsiung Wang, Chau-Zen Wang, Yao-Hsien Wang, Sung-Yen Lin, Je-Ken Chang*, Mei-Ling Ho*, Electromagnetic fields enhance chondrogenesis of human adipose-derived stem cells in a chondrogenic microenvironment in vitro. Journal of Applied Physiology<\/strong>, 114:647-655, 2013. (IF:004 at 2015, ranking:12\/82=14.6% in SPORT SCIENCES)<\/li>\n
  18. Pei-Chien Tsai, Chi-Ying Hsieh, Chien-Chih Chiu, Chih-Kuang Wang<\/u><\/strong>, Long-Sen Chang, Shinne-Ren Lin*, Cardiotoxin III suppresses MDA-MB-231 cell metastasis through the inhibition of EGF\/EGFR-mediated signaling pathway, Toxicon<\/strong>, 60:734-43. 2012. (IF:309 at 2015, ranking:129\/253=50.9% in PHARMACOLOGY & PHARMACY)<\/li>\n
  19. Yin-Chih Fu, Mei-Ling Ho, Gwo-Jaw Wang, Chih-Kuang Wang<\/u><\/strong>, Controlled-release biodegradable hap in large bone defect nonunion study (in vitro and in vivo), Bone, Volume 48<\/a>, Supplement 2, Page S172, May 7, 2011.<\/li>\n
  20. Po-Len Liu, Jong-Rung Tsai, Chien-Chih Chiu, Jhi-Jhu Hwang, Shah-Hwa Chou, Chih-Kuang Wang<\/strong>, Shu-Jing Wu, Yuh-Lien Chen, Wen-Chi Chen, Yung-Hsiang Chen,* Inn-Wen Chong*, Decreased expression of thrombomodulin is correlated with tumor cell invasiveness and poor prognosis in nonsmall cell lung cancer, Molecular Carcinogenesis<\/strong>, 49:874-881, 2010. (IF:722 at 2015, ranking:42\/213=19.7% in ONCOLOGY)<\/li>\n
  21. Chau-Zen Wang, Shih-Mao Chen, Chung-Hwan Chen, Chih-Kuang Wang<\/u><\/strong>, Gwo-Jaw Wang,\u00a0 Je-Ken Chang, Mei-Ling Ho*, The effect of the local delivery of alendronate on human adipose-derived stem cell-based bone regeneration, Biomaterials<\/strong>, 31:8674-8683, (IF: 8.387 at 2015, ranking:2\/76=2.6% in ENGINEERING, BIOMEDICA)<\/li>\n
  22. Rajalakshmanan Eswaramoorthy, Chih-Kuang Wang<\/u><\/strong>, Wen-Cheng Chen, Ming-Jer Tang, Mei-Ling Ho, Chi-Ching Hwang, Hui-Min Wang, Chau-Zen Wang*, DDR1 regulates the stabilization of cell surface E-Cadherin and E-Cadherin-mediated cell aggregation, Journal of Cellular Physiology<\/strong>, 224:387-397 , 2010. (IF: 155 at 2015, ranking:12\/83=14.4% in PHYSIOLOGY)<\/li>\n
  23. Jen-Chyan Wang, Chia-Ling Ko, Chun-Cheng Hung, Yu-Chang Tyan, Chern-Hsiung Lai, Wen-Cheng Chen*, Chih-Kuang Wang<\/u><\/strong>, Deriving fast setting properties of tetracalcium phosphate\/dicalcium phosphate anhydrous bone cement with nanocrystallites on the reactant surfaces, Journal of Dentistry<\/strong>, 38:158-165, 2010. (IF:109 at 2015, ranking: 8\/82 =9.7 % in DENTISTRY, ORAL SURGERY & MEDICINE)<\/li>\n
  24. Shun-Cheng Wu, Je-Ken Chang, Chih-Kuang Wang<\/u><\/strong>, Gwo-Jaw Wang, Mei-Ling Ho*, Enhancement of chondrogenesis of human adipose derived stem cells in a hyaluronan-enriched microenvironment, Biomaterials<\/strong>, 31:631-640, 2010. (IF: 387 at 2015, ranking:2\/76=2.6% in ENGINEERING, BIOMEDICA)<\/li>\n
  25. Yu-Chang Tyan*, Ming-Hui Yang, Shiang-Bin Jong, Chih-Kuang Wang<\/u><\/strong>, Jentaie Shiea, Melamine contamination, Analytical and Bioanalytical Chemistry<\/strong>, 395:729\u2013735, 2009. (IF: 125 at 2015, ranking:15\/75=20% in Chemistry, analytical)<\/li>\n
  26. C. Chiu*, H.W. Chang, D.W. Chuang, F.R. Chang, Y.C. Chang, Y.S. Cheng, S.S. Lee, C.K. Wang<\/u><\/strong>, Jeff Y.F. Chen, Y.C. Liu, Y.C. Wu, Fern plant-derived protoapigenone leads to DNA damage, apoptosis and G2\/M, arrest in lung cancer cell line H1299, DNA and Cell Biology<\/strong>, 28:501-506, 2009. (IF:2.072 at 2011 ; ranking:101\/157= 64.33% in GENETICS & HEREDITY)<\/li>\n
  27. Chau-Zen <\/strong>Wang, Mei-Ling Ho, Wen-Cheng Chen, Chien-Chih Chiu, Yung-Li Hung, Chih-Kuang Wang*, Shun-Cheng Wu<\/strong>, Characterization and enhancement of chondrogenesis in porous hyaluronic acid-modified scaffolds made of PLGA(75\/25) blended with PEI-grafted PLGA(50\/50), Materials Science and Engineering C<\/strong> -Materials for Biological Applications, 31:1343-1351, 2011. (IF: 420 at 2015, ranking:12\/33=36.3% in MATERIALS SCIENCE, BIOMATERIALS)<\/li>\n
  28. Szu-Hsien Chen, Ching-Ting Tsao, Chih-Hao Chang, Yao-Ming Wu, Zheng-Wei Liu, Chun-Pin Lin, Chih-Kuang Wang<\/strong>*, Kuo-Huang Hsieh*, Synthesis and characterization of thermal-responsive chitin-based polyurethane copolymer as a smart material, Carbohydrate Polymers<\/strong>, 88:1483-1487, 2012. (IF: 219 at 2015, ranking:5\/71=7.0% in CHEMISTRY, APPLIED<\/strong>)<\/li>\n
  29. Szu-Hsien Chen, Ching-Ting Tsao, Chih-Hao Chang, Yi-Ting Lai, Ming-Fung Wu, Zheng-Wei Liu, Ching-Nan Chuang, Hung-Chia Chou, Chih-Kuang Wang<\/strong>*, Kuo-Haung Hsieh*, Synthesis and characterization of reinforced poly(ethylene glycol) chitosan-Hydrogel as wound dressing materials, Macromolecular Materials and Engineering<\/strong>, 298:429-438, 2013. (IF:863 at 2016, ranking:60\/271=22.1% in MATERIALS SCIENCE, MULTIDISCIPLINARY)<\/li>\n
  30. Szu-Hsien Chen, Ching-Ting Tsao, Hung-Chia Chou, Chih-Hao Chang, Ching-Te Hsu, Ching-Nan Chuang, Chih-Kuang Wang<\/strong>*, Kuo-Huang Hsieh*<\/em>, Synthesis of poly (lactic acid)-based polyurethanes, Polymer International<\/strong>, 62:1159-1168, 2013. (IF:414 at 2015, ranking:25\/82=30.4% in POLYMER SCIENCE)<\/li>\n
  31. Szu-Hsien Chen, Ching-Ting Tsao, Chih-Hao Chang, Yi-Ting Lai, Ming-Fung Wu, Ching-Nan Chuang, Hung-Chia Chou, Chih-Kuang Wang<\/strong>*, Kuo-Haung Hsieh*, Assessment of reinforced poly(ethylene glycol) chitosan hydrogels as dressings in a mouse skin wound defect model, Materials Science & Engineering C-Materials for Biological Applications<\/strong>, 33:2584-2594, 2013. (IF: 164 at 2016, ranking:9\/33=27.2% in MATERIALS SCIENCE, BIOMATERIALS)<\/li>\n
  32. Chi-Hung Lee, Szu-Hsien Chen, Yen-Zen Wang, Chao-Chien Lin, Chih-Kai Huang, Ching-Nan Chuang, Chih-Kuang Wang<\/strong>*, Kuo-Huang Hsieh*, Preparation and characterization of proton exchange membranes based on semi-interpenetrating sulfonated poly(imide-siloxane)\/epoxy polymer networks, Energy<\/strong> 55:905-915, 2013) (IF:292 at 2015, ranking:3\/58=5.1% in THERMODYNAMICS)<\/li>\n
  33. Yin-Chih Fu, Chung-Hwan Chen, Chau-Zen <\/strong>Wang, Yan-Hsiung Wang, Je-Ken Chang, Gwo-Jaw Wang, Mei-Ling Ho*, Chih-Kuang Wang<\/u><\/strong>*, Preparation of porous bioceramics using reverse thermo-responsive hydrogels in combination with rhBMP<\/em>–2<\/em> carriers: In Vitro<\/em> and In Vivo<\/em> evaluation, Journal of the Mechanical Behavior of Biomedical Materials<\/strong>, 27:64-76, 2013. (IF:372 at 2019, ranking:27\/87=31.03% in ENGINEERING, BIOMEDICAL)<\/li>\n
  34. I-Chun Tai, Yin-Chih Fu,Chih-Kuang Wang<\/u><\/strong>, Je-Ken Chang, Mei-Ling Ho*, Local delivery of controlled-release simvastatin\/PLGA\/HAp microspheres enhances bone repair, International Journal of Nanomedicine<\/strong>, 8:3895-3905, 2013. (IF:320 at 2015, ranking:40\/253=15.8%; in PHARMACOLOGY & PHARMACY)<\/li>\n
  35. Yan-Hsiung Wang, Yin-Chih Fu, Hui-Chi Chiu, Chau-Zen <\/strong>Wang, Shao-Ping Lo, Mei-Lin Ho, Po-Len Liu, Chih-Kuang Wang<\/u><\/strong>*, Cationic nanoparticles with quaternary ammonium functionalized PLGA-PEG-based copolymers for potent gene transfection, Journal of Nanoparticle Research<\/strong>, 15:2077-2092, 2013. (IF:101 at 2015, ranking:97\/271=35.7%; in MATERIALS SCIENCE, MULTIDISCIPLINARY)<\/li>\n
  36. Zheng-Wei Liu, Hung-Chia Chou, Szu-Hsien Chen, Ching-Ting Tsao, Ching-Nan Chuang, Li-Chiun Cheng, Chen-Han Yang, Chih-Kuang Wang<\/u>*<\/strong> and Kuo Huang Hsieh*, Mechanical and thermal properties of thermoplastic polyurethane-toughened polylactide-based nanocomposites, Polymer Composites<\/strong>, 35:1744-1757, 2014. (IF:324 at 2016, ranking:29\/86=32%; in POLYMER SCIENCE)<\/li>\n
  37. Chau-Zen <\/strong>Wang, Yin-Chih Fu, Yan-Hsiung Wang, Po-Len Liu, Shih-Ciang Jian, Mei-Ling Ho, Chih-Kuang Wang*<\/u><\/strong>, Synthesis and characterization of cationic polymeric nanoparticles as simvastatin carriers for enhancing the osteogenesis of bone marrow mesenchymal stem cells, Journal of Colloid and Interface Science<\/strong>, 432:190-199, 2014. (IF:782 at 2015, ranking:41\/144=28.4%; in CHEMISTRY, PHYSICAL)<\/li>\n
  38. Yin-Chih Fu, Tzu-Fun Fu, Hung-Jen Wang, Che-Wei Lin, Shun-Cheng Wu, Gang-Hui Lee, Chih-Kuang Wang*<\/u><\/strong>, Aspartic acid based modified PLGA-PEG nanoparticles for bone targeting: in vitro<\/em> and in vivo<\/em> evaluations, Acta Biomaterialia, <\/strong>10:4583-4596, 2014. (IF:008 at 2015, ranking:3\/76=3.9%; in ENGINEERING, BIOMEDICAL)<\/li>\n
  39. Wei-Yao Chang, Szu-Hsien Chen, Cheng-Han Yang, Ching-Nan Chuang, Chih-Kuang Wang*<\/u><\/strong> and Kuo-Huang Hsieh**, <\/em>Preparation and characterization of aromatic polyimides derived from 4,4\u2019-oxydiphthalic anhydride and 4,4′-diaminodiphenylmethane with different alkyl substituents, <\/em>Journal of Polymer Research<\/strong>, 22:38-46, 2015. (IF:615 at 2016, ranking: 40\/86=46.5%; in POLYMER SCIENCE)<\/li>\n
  40. Cheng-Han Yang, Szu-Hsien Chen,Yun-Wen Pan, Ching-Nan Chuang, Wen-Chi Chao, Tai-Horng Young, Wen-Yen Chiu, Chih-Kuang Wang*<\/u><\/strong>, Kuo-Huang Hsieh*, Preparation and characterization of methoxy-poly(ethylene glycol) side chain grafted onto chitosan as a wound dressing film, Journal of Applied Polymer Science<\/strong>, 132: 42340-42348 2015. (IF:860 at 2016, ranking: 36\/86=41.8%; in POLYMER SCIENCE)<\/li>\n
  41. Yin-Chih Fu, Yan-Hsiung Wang, Chung-Hwan Chen, Chih-Kuang Wang<\/u><\/strong>, Gwo-Jaw Wang, Mei-Ling Ho*, Combination of calcium sulfate and simvastatin-controlled release microspheres enhances bone repair in critical-sized rat calvarial bone defects, International Journal of Nanomedicine<\/strong>, 10:1-10, (IF:4.320 at 2015, ranking:40\/253=15.8%; in PHARMACOLOGY & PHARMACY)<\/li>\n
  42. Wei-Yao Chang, Ching-Nan Chuang, Szu-Hsien Chen, Chih-Kuang Wang<\/strong>*<\/strong>, Kuo-Huang Hsieh*, Preparation and characterization of nano-hybrids combining poly(urea-imide) with a porous silica-pillared layered phase, Journal of Polymer Research<\/strong>, 22:205-214, 2015. (IF:969 at 2015, ranking: 31\/85=36.4%; in POLYMER SCIENCE)<\/li>\n
  43. Wei-Yao Chang, Yun-Wen Pan, Jian-Jhang Guo, Ching-Nan Chuang, Szu-Hsien Chen, Chih-Kuang Wang<\/strong>*<\/strong>, Kuo-Huang Hsieh*, Fabrication and Characterization of Waterborne Polyurethane (WPU) with Aluminum Trihydroxide (ATH) and Mica as Flame Retardants, Journal of Polymer Research<\/strong>, 22:243-252, 2015. (IF:969 at 2015, ranking: 31\/85=36.5%; in POLYMER SCIENCE)<\/li>\n
  44. Yao-Hsien Wang, Eswaramoorthy Rajalakshmanan, Chih-Kuang Wang<\/strong>, Chung-Hwan Chen, Yin-Chih Fu, Tzu-Lin Tsai, Je-Ken Chang, Mei-Ling Ho*, PLGA-linked alendronate enhances bone repair in diaphysis defect model, Journal of Tissue Engineering and Regenerative Medicine, 11:2603-2612, 2017. (IF:710 at 2015, ranking: 5\/76=6.5%; in Engineering Biomedical)<\/li>\n
  45. Feng-Wei Lin, Pin-Yuan Chen, Kuo-Chen Wei, Chiung-Yin Huang, Chih-Kuang Wang, Hung-Wei Yang*,\u00a0Rapid In Situ MRI Traceable Gel-forming Dual-drug Delivery for Synergistic Therapy of Brain Tumor.\u00a0Theranostics, 2017; 7(9): 2524-2536. (IF: 537<\/strong> at 2017, ranking: 8\/133=6.25%; in Medicine, Research & Experimental)<\/li>\n
  46. Tien-Ching Lee+<\/sup>, Yan-Hsiung Wang+<\/sup>, <\/strong>Shih-Hao Huang, Chung-Hwan Chen, Mei-Ling Ho, Yin-Chih Fu*<\/sup>, Chih-Kuang Wang<\/strong>*<\/sup>, Evaluations <\/strong>of Clinical-Grade Bone Substitute-Combined Simvastatin Carriers to Enhance Bone Growth: in vitro and in vivo analyses,<\/strong> Journal of Bioactive and Compatible Polymers, 2018; 33: 160-177. (IF:624 at 2019, ranking: 57\/89=64.0%; in Polymer Science)<\/li>\n
  47. Chau-Zen Wang; Rajalakshmanan Eswaramoorthy; Tzu-Hsiang Lin; Chung-Hwan Chen; Yin-Chih Fu; Chih-Kuang Wang<\/strong>; Shun-Cheng Wu; Gwo-Jaw Wang; Je-Ken Chang#*; Mei-Ling Ho#*, Enhancement of chondrogenesis of adipose-derived stem cells in HA-PNIPAAm-CL hydrogel for cartilage regeneration in rabbits, Scientific Reports<\/em>,<\/strong>8<\/strong>:\u00a010526-10538, 2018. (IF:4.609 at 2017)<\/li>\n
  48. Chih-Ling Huang, Wan-Ru Hsieh, Che-Wei Lin, Hung-Wei Yang, and Chih-Kuang Wang*<\/strong>, Multifunctional liposomal drug\u00a0delivery with dual probes of magnetic resonance and fluorescence imaging, Ceramics International 44: 12442\u201312450, 2018. (IF:4.527 at 2020, ranking: 2\/27=7.4%; in Materials Science, Ceramics category)<\/li>\n
  49. I Hao Chen,\u00a0Ching Ming Chien,\u00a0Chun Ting Wang,\u00a0\u00a0Chih Ling Huang*,\u00a0Chih Kuang Wang<\/strong>,\u00a0Yur Ren Kuo, Development for Wound Dressing Based on Blended Chitosan and Gelatin Hydrogels”, Key Engineering Materials, 765:119-123, 2018. (Scimago Journal & Country Rank (SJR:0.18, 2017); Not SCI paper at currently) (2002-2005 belong SCI journal)<\/li>\n
  50. Chih-Ling Huang, Chih-Chiang Weng, Chih-Hung Liu, Chao-Tang Chuang, Li-Cheng Pana, Yi-Zhen Li, and Chih-Kuang Wang*<\/strong>, Sterilization Efficacy of Biological Indicator by Lower 40 Celsius Temperature Plasma Processes, International Journal of Automation and Smart Technology, 8:161-166 (2018) (Scimago Journal & Country Rank (SJR:0.14, 2017); Not SCI paper at currently)<\/li>\n
  51. Chau-Zen <\/strong>Wang, Yan-Hsiung Wang, Tien-Ching Lee, <\/strong>Yin-Chih Fu, Mei-Ling Ho, Chih-Kuang Wang*<\/strong>, Combination of bioceramic scaffold and simvastatins nanocarriers as a synthetic alternative to autologous bone grafting, International Journal of Molecular Sciences<\/em>, 19: 4099-4118, (IF:5.923 at 2020, ranking: 74\/297=24.9%; in Biochemistry & Molecular Biology)<\/li>\n
  52. Yi-An Cheng, Tung-Ho Wu, Yun-Ming Wang, Tian-Lu Cheng, I-Ju Chen, Yun-Chi Lu, Kuo-Hsiang Chuang, Chih-Kuang Wang<\/strong>, Chiao-Yun Chen, Rui-An Lin, Huei-Jen Chen, Tzu-Yi Liao, En-Shuo Liu & Fang-Ming Chen. “Humanized bispecific antibody (mPEG\u2009\u00d7\u2009HER2) rapidly confers PEGylated nanoparticles tumor specificity for multimodality imaging in breast cancer.”\u00a0Journal of Nanobiotechnology<\/strong>18, 118-130 (2020). (2019 IF: 6.518)<\/li>\n
  53. Che-Wei Lin, Yu-Feng Su, Chih-Yun Lee, Lin Kang, Yan-Hsiung Wang, Sung-Yen Lin, Chih-Kuang Wang<\/u><\/strong>*<\/u>, 3D printed bioceramics fabricated using negative thermoresponsive hydrogels and silicone oil sealing to promote bone formation in calvarial defects, Ceramics International, 47, 5464-5476, 2021, (IF:4.527 at 2020, ranking: 2\/27=7.4%; in Materials Science, Ceramics category)<\/li>\n
  54. Swathi Nedunchezian, Parikshit Banerjee, Chih-Yun Lee, Su-Shin Lee, Che-Wei Lin, Che-Wei Wu, Shun-Cheng Wu, Je-Ken Chang, Chih-Kuang Wang<\/u><\/strong>*<\/u>, Generating adipose stem cell-laden hyaluronic acid-based scaffolds using 3D bioprinting via the double crosslinked strategy for chondrogenesis, Materials Science and Engineering: C, 124, 112072, 2021. (IF: 328<\/strong> at 2020, ranking:8\/38=21.05%<\/strong> in MATERIALS SCIENCE, BIOMATERIALS)<\/li>\n
  55. Che-Wei Lin, Chih-Yun Lee, Sung-Yen Lin, Lin Kang, Yin-Chih Fu, Chung-Hwan Chen, Chih-Kuang Wang*<\/u><\/strong>, Bone targeting nanoparticles of dendritic (aspartic acid)3<\/sub>-functionalized PEG-PLGA biopolymer encapsulated simvastatin treated for the osteoporosis animal models, in draft, 2021\/10\/18.<\/li>\n<\/ol>\n
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      \n
    1. \u674e\u4e4b\u6600, \u6797\u4f73\u6167, \u738b\u5fd7\u5149*, \u5168\u91d1\u87a2\u5149\u5171\u632f\u80fd\u91cf\u8f49\u79fb\u65b0\u7cfb\u7d71\u6a21\u5f0f\u4f5c\u70ba\u8fd1\u7d05\u5916\u5149\u5c0d\u6bd4\u5291\u61c9\u7528\u5728\u65e9\u671f\u9aa8\u95dc\u7bc0\u708e\u8a3a\u65b7, 2014\u4e2d\u83ef\u6c11\u570b\u751f\u7269\u91ab\u5b78\u5de5\u7a0b\u5275\u610f\u7af6\u8cfd, \u9ad8\u96c4\u5e02\u8def\u7af9\u79d1\u5b78\u5712\u5340, \u9ad8\u96c4\u5e02, \u4e2d\u83ef\u6c11\u570b, 2014\u3002(\u4f73\u4f5c\u734e)<\/li>\n
    2. \u6f58\u529b\u8aa0, \u6797\u5b8f\u54f2, \u738b\u5fd7\u5149*<\/sup>,\u912d\u6dfb\u797f, Study of bifunctional polymeric nanoparticles with gold nanocluster image probe and anti-PEG tumour-targeted drug delivery, 2014\u5e74\u4e2d\u83ef\u6c11\u570b\u751f\u91ab\u6750\u6599\u53ca\u85e5\u7269\u5236\u653e\u5e74\u6703, 103\u5e7405\u670802\u65e5,\u6e05\u83ef\u5927\u5b78, \u65b0\u7af9,\u4e2d\u83ef\u6c11\u570b, 2014<\/li>\n
    3. \u738b\u5b8f\u4ec1, \u6797\u54f2\u7def, \u5085\u5c39\u5fd7, \u5085\u5b50\u82b3, \u4f55\u7f8e\u6ce0, \u738b\u5fd7\u5149*,Oligopeptide of aspartic acid modify PLGA-PEG nanoparticles for bone targeting in vivo evaluation, 2014\u5e74\u4e2d\u83ef\u6c11\u570b\u751f\u91ab\u6750\u6599\u53ca\u85e5\u7269\u5236\u653e\u5e74\u6703, 103\u5e7405\u670802\u65e5,\u6e05\u83ef\u5927\u5b78, \u65b0\u7af9,\u4e2d\u83ef\u6c11\u570b, 2014<\/li>\n
    4. \u6f58\u529b\u8aa0, \u6797\u5b8f\u54f2, \u738b\u5fd7\u5149*<\/sup>,\u912d\u6dfb\u797f, \u542b\u5f71\u50cf\u63a2\u91dd\u8207\u805a\u4e59\u4e8c\u9187\u6297\u9ad4\u6a19\u9776\u4e4b\u85e5\u7269\u5948\u7c73\u8f09\u9ad4\u5408\u6210\u8207\u6027\u8cea\u7814\u7a76, 2013\u751f\u7269\u91ab\u5b78\u5de5\u7a0b\u79d1\u6280\u7814\u8a0e\u6703\u66a8\u570b\u79d1\u6703\u91ab\u5b78\u5de5\u7a0b\u5b78\u9580\u6210\u679c\u767c\u8868\u6703, 102\u5e7411\u670815-16\u65e5,\u6e05\u83ef\u5927\u5b78, \u65b0\u7af9,\u4e2d\u83ef\u6c11\u570b, 2013<\/li>\n
    5. \u738b\u5b8f\u4ec1, \u6797\u54f2\u7def, \u5085\u5c39\u5fd7, \u5085\u5b50\u82b3, \u4f55\u7f8e\u6ce0, \u738b\u5fd7\u5149*, \u5929\u9580\u51ac\u80fa\u9178\u5be1\u805a\u80dc\u80bd\u4fee\u98fePLGA-PEG\u9ad8\u5206\u5b50\u4f5c\u70ba\u9aa8\u6a19\u9776\u5948\u7c73\u8f09\u9ad4\u5728\u751f\u7269\u9ad4\u5167\u6027\u8cea\u8a55\u4f30, 2013\u751f\u7269\u91ab\u5b78\u5de5\u7a0b\u79d1\u6280\u7814\u8a0e\u6703\u66a8\u570b\u79d1\u6703\u91ab\u5b78\u5de5\u7a0b\u5b78\u9580\u6210\u679c\u767c\u8868\u6703, , 102\u5e7411\u670815-16\u65e5,\u6e05\u83ef\u5927\u5b78, \u65b0\u7af9,\u4e2d\u83ef\u6c11\u570b, 2013<\/li>\n
    6. \u6f58\u529b\u8aa0,\u738b\u5fd7\u5149*<\/strong>,\u912d\u6dfb\u797f, PEG\u4fee\u98fe\u5948\u7c73\u91d1\u687f\u8207\u5177PEG\u6297\u9ad4\u764c\u7d30\u80de\u4e4b\u9ad4\u5916\u8fa8\u8b58\u8207\u5149\u71b1\u6cbb\u7642\u7814\u7a76, \u4e2d\u83ef\u6c11\u570b\u751f\u91ab\u6750\u6599\u53ca\u85e5\u7269\u5236\u653e\u5b78\u6703 2013 \u5e74\u6703\u66a8\u570b\u79d1\u6703\u91ab\u5de5\u5b78\u9580\u6210\u679c\u767c\u8868\u6703, 103\u5e7405\u67084-5\u65e5,\u7fa9\u5b88\u5927\u5b78, \u9ad8\u96c4,\u4e2d\u83ef\u6c11\u570b, 2013<\/li>\n
    7. \u6797\u4f73\u6167,\u738b\u5fd7\u5149*<\/strong>, \u5948\u7c73\u91d1\u687f\u4f5c\u70ba\u87a2\u5149\u5171\u632f\u80fd\u91cf\u8f49\u79fb\u7cfb\u7d71\u4e4b\u87a2\u5149\u63a2\u91dd\u61c9\u7528\u5728\u65e9\u671f\u9aa8\u95dc\u7bc0\u708e\u8a3a\u65b7\u7814\u7a76, \u4e2d\u83ef\u6c11\u570b\u751f\u91ab\u6750\u6599\u53ca\u85e5\u7269\u5236\u653e\u5b78\u6703 2013 \u5e74\u6703\u66a8\u570b\u79d1\u6703\u91ab\u5de5\u5b78\u9580\u6210\u679c\u767c\u8868\u6703, 103\u5e7405\u67084-5\u65e5,\u7fa9\u5b88\u5927\u5b78, \u9ad8\u96c4,\u4e2d\u83ef\u6c11\u570b, 2013<\/li>\n
    8. \u738b\u8000\u8ce2, \u8def\u5361\u66fc, \u738b\u5fd7\u5149, \u8521\u7d2b\u7433, \u5289\u74ca\u6708, \u5f35\u745e\u6839, \u4f55\u7f8e\u6ce0, PLGA-alendronate enhances bone repair in femoral bone defect in rats, 2013 Annual Meeting of Formosa Association of Regenerative Medicine, Taipei, Taiwan, Mar 2, 2013.<\/li>\n
    9. \u6f58\u529b\u8aa0\u00b8 \u738b\u5fd7\u5149<\/strong>*<\/strong>, \u5289\u4f2f\u4f96, \u912d\u6dfb\u797f, \u5085\u5c39\u5fd7, \u5177PEG\u514d\u75ab\u6297\u9ad4\u6a19\u7684\u7684\u5948\u7c73PEG-PLGA\u57fa\u8cea\u8f09\u9ad4\u4e4b\u7814\u7a76, \u4e2d\u83ef\u6c11\u570b\u751f\u91ab\u6750\u6599\u53ca\u85e5\u7269\u5236\u653e\u5b78\u6703 2012 \u5e74\u6703\u66a8\u7814\u8a0e\u6703 , 102\u5e7404\u670828\u65e5, \u53f0\u5317\u91ab\u5b78\u5927\u5b78, \u53f0\u5317,\u4e2d\u83ef\u6c11\u570b, 2012<\/li>\n
    10. \u5085\u5c39\u5fd7, \u6797\u4f73\u6167, \u738b\u5f65\u96c4, \u738b\u662d\u4ec1, \u4f55\u7f8e\u6ce0, \u738b\u5fd7\u5149<\/strong>*<\/strong>, \u65b0\u5f0f\u967d\u96e2\u5b50\u578b\u5169\u6027\u751f\u91ab\u9ad8\u5206\u5b50(Bis(PLGA-phe<\/em>-PEG)-qDETA)\u651c\u5e36\u89aa\u8102\u6027\u85e5\u7269\u4e4b\u5948\u7c73\u7c92\u5b50\u7279\u6027\u8a55\u4f30, 2012\u751f\u7269\u91ab\u5b78\u5de5\u7a0b\u79d1\u6280\u7814\u8a0e\u6703\u66a8\u570b\u79d1\u6703\u91ab\u5b78\u5de5\u7a0b\u5b78\u9580\u6210\u679c\u767c\u8868\u6703, 101\u5e7411\u670817-18\u65e5,\u4e2d\u539f\u5927\u5b78, \u6843\u5712,\u4e2d\u83ef\u6c11\u570b, 2012<\/li>\n
    11. \u738b\u5b8f\u4ec1, \u6797\u54f2\u7def, \u5085\u5c39\u5fd7, \u5085\u5b50\u82b3, \u4f55\u7f8e\u6ce0, \u738b\u5fd7\u5149<\/strong>*<\/strong>, \u5929\u9580\u51ac\u80fa\u9178\u4fee\u98fePLGA-g-PEG\u9ad8\u5206\u5b50\u4f5c\u70ba\u9aa8\u6a19\u9776\u5948\u7c73\u8f09\u9ad4\u4e4b\u5408\u6210\u8207\u6027\u8cea\u7814\u7a76, 2012\u751f\u7269\u91ab\u5b78\u5de5\u7a0b\u79d1\u6280\u7814\u8a0e\u6703\u66a8\u570b\u79d1\u6703\u91ab\u5b78\u5de5\u7a0b\u5b78\u9580\u6210\u679c\u767c\u8868\u6703, , 101\u5e7411\u670817-18\u65e5,\u4e2d\u539f\u5927\u5b78, \u6843\u5712,\u4e2d\u83ef\u6c11\u570b, 2012<\/li>\n
    12. Y.C. Fu, C.H. Chen, S.C. Chien, J.K. Chang, M.L. Ho, C.K. Wang<\/strong>, Porous bioceramics were fabricated using reversed thermo-responsive hydrogel as template and combined with rhBMP-2 carriers, 12th<\/sup>-Asian BioCeramics Symposium, 101\u5e7411\u670818-21\u65e5, at National Cheng Kung University (NCKU), Tainan, 2012.<\/li>\n
    13. \u738b\u5fd7\u5149,\u5085\u5c39\u5fd7,\u4f55\u7f8e\u6ce0,\u6234\u4ea6\u8fb0,\u53f2\u79c9\u4fee,\u912d\u6dfb\u797f,\u5177PEG\u514d\u75ab\u6297\u9ad4\u6a19\u7684\u7684\u5948\u7c73 PEG-PLGA\u57fa\u8cea\u8f09\u9ad4\u4e4b\u7814\u7a76, 2011\u570b\u969b\u81e8\u5e8a\u5de5\u7a0b\u53ca\u91ab\u5b78\u8cc7\u8a0a\u7814\u8a0e\u6703\u66a8\u570b\u79d1\u6703\u91ab\u5b78\u5de5\u7a0b\u5b78\u9580\u6210\u679c\u767c\u8868\u6703, 100\u5e7412\u67083\u65e5,\u6210\u529f\u5927\u5b78,\u53f0\u5357,\u53f0\u7063,\u4e2d\u83ef\u6c11\u570b, 2011<\/li>\n
    14. Szu Hsien Chen, Zheng-Wei Liu, Ching-Ting Tsao, Chih-Kuang Wang<\/strong>, Kuo-Kuang Hsieh*, Synthesis of thermal-responsive chitin-based polyurethane as a smart material, 2011 Annual meeting of Taiwan society for chitin and chitosan, Taiwan.<\/li>\n
    15. Li-Wen Chen, Ping-Hsiu Shih, Yin-Chih Fu, Chih-Kuang Wang<\/strong>*<\/sup>,Thermo-sensitive hydrogel scaffold of poly(N-isopropylacrylamide) base on 3D cell culture applications, \u751f\u7269\u91ab\u5b78\u5de5\u7a0b2010\u5e74\u7814\u8a0e\u6703, 100\u5e748\u670818-20\u65e5, \u6210\u529f\u5927\u5b78, \u53f0\u5357, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2011<\/li>\n
    16. \u9673\u7acb\u744b,\u53f2\u79c9\u4fee,\u5085\u5c39\u5fd7,\u738b\u5fd7\u5149<\/strong>*<\/strong>,<\/strong>Preparation and Characterization of Thermo-responsive Hydrogels on Polylysine mediate Hyaluronic Acid, \u4e2d\u570b\u5316\u5b78\u670399\u5e74\u5e74\u6703, 99\u5e7412 \u67083-5\u65e5, \u53f0\u7063\u5927\u5b78, \u53f0\u5317, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2010<\/li>\n
    17. \u7c21\u58eb\u5f37, \u5085\u5c39\u5fd7, \u9673\u7acb\u744b, \u4f55\u7f8e\u6ce0, \u738b\u662d\u4ec1, \u738b\u5fd7\u5149<\/strong>*<\/strong>, \u6eab\u611f\u6c34\u81a0\u88fd\u5099\u591a\u5b54\u6027\u751f\u7269\u9676\u74f7\u8907\u5408\u85e5\u7269\u5948\u7c73\u8f09\u9ad4\u65bc\u9aa8\u7926\u5316\u4e4b\u7814\u7a76,\u751f\u7269\u91ab\u5b78\u5de5\u7a0b2010\u5e74\u7814\u8a0e\u6703, 99\u5e7412\u670810-11\u65e5, \u7fa9\u5b88\u5927\u5b78, \u9ad8\u96c4, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2010<\/li>\n
    18. \u738b\u5fd7\u5149<\/strong>*<\/strong>, \u5085\u5c39\u5fd7, \u4f55\u7f8e\u6ce0, \u53f2\u79c9\u4fee, \u90ed\u6021\u541b,\u9ad4\u6eab\u611f\u61c9\u578b\u751f\u7269\u6c34\u81a0\u652f\u67b6\u4e4b\u88fd\u5099\u8207\u6027\u8cea,\u751f\u7269\u91ab\u5b78\u5de5\u7a0b2009\u5e74\u7814\u8a0e\u6703, 98\u5e7412\u670811-12\u65e5, \u967d\u660e\u5927\u5b78, \u53f0\u5317, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2009<\/li>\n
    19. \u7f85\u7d39\u840d, \u9673\u70b3\u5b8f, \u738b\u5fd7\u5149<\/strong>*<\/strong>, Novel micelle-like nanoparticles made from cationic molecules grafted PLGA copolymers for gene transfection, \u4e2d\u570b\u5316\u5b78\u670398\u5e74\u5e74\u6703, 98\u5e7412 \u67084-6\u65e5, \u7fa9\u5b88\u5927\u5b78, \u9ad8\u96c4, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2009<\/li>\n
    20. Y.C. Fu, C.K. Wang, J.K. Chang, M.L. Ho, Development of novel control release system of bone graft for biological activity materials, \u4e2d\u83ef\u6c11\u570b\u9aa8\u79d1\u91ab\u5b78\u670397\u5e74\u5ea6\u5b78\u8853\u7814\u8a0e\u6703, 97\u5e7410\u670825-26\u65e5, \u9577\u5e9a\u5927\u5b78, \u6843\u5712, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2008<\/li>\n
    21. \u5085\u5c39\u5fd7, \u8521\u5b97\u61b2, \u9673\u601d\u8ce2, \u4f55\u7f8e\u6ce0, \u912d\u5bf6\u6a39, \u738b\u5fd7\u5149<\/strong>*, \u65b0\u71b1\u654f\u611f\u578b\u591a\u5b54\u6c34\u81a0\u652f\u67b6\u4e4b\u88fd\u5099\u8207\u6027\u8cea,\u751f\u7269\u91ab\u5b78\u5de5\u7a0b2008\u5e74\u7814\u8a0e\u6703, 97\u5e7412 \u670812-13\u65e5, \u9577\u5e9a\u5927\u5b78, \u6843\u5712, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2008<\/li>\n
    22. C.K. Wang<\/strong>*, Shang-Ren Huang, Yi-Jie Li,Study of Novel Biodegradable Nanoparticle for Bone-Targeted Carrier based on dendrimer oligopeptides of aspartic acid, PEG and PLGA, \u4e2d\u570b\u5316\u5b78\u670397\u5e74\u5e74\u6703, 97\u5e7412 \u67085-7\u65e5, \u570b\u7acb\u5f70\u5316\u5927\u5b78, \u5f70\u5316, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2008<\/li>\n
    23. L.R. Jheng, S.H.Chen, C.K. Wang<\/strong>, P.S. Cheng*,Synthesis and Properties of WPU\/Epoxy\/MTMS\/Colloid Al2<\/sub>O3<\/sub> Organic\/Inorganic Nanocomposites Materials,\u4e2d\u570b\u5316\u5b78\u670397\u5e74\u5e74\u6703, 97\u5e7412 \u67085-7\u65e5, \u570b\u7acb\u5f70\u5316\u5e2b\u7bc4\u5927\u5b78, \u5f70\u5316, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2008<\/li>\n
    24. S.C. Wang, S.H. Chen, Y.J. Li, C.K. Wang<\/strong>, P.S. Cheng*, The research of synthesis of the novel organic anti-static and transparent polymer\/SiO2 nano-hybrid film, <\/strong>\u4e2d\u570b\u5316\u5b78\u670397\u5e74\u5e74\u6703, 97\u5e7412 \u6708, \u570b\u7acb\u5f70\u5316\u5e2b\u7bc4\u5927\u5b78, \u5f70\u5316, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2008<\/li>\n
    25. S.C. Wu, J.K. Chang, C.K. Wang<\/strong>, I.C. Ting, G.J. Wang, M.L. Ho, Cytocompatibility of a noval hyaluronic acid modified biodegradable scaffold with human adipose derived stem cells for application of cartilage tissue engineering Physiology Symposium 2007, Taipei, Taiwan, March 30-31, 2007.<\/li>\n
    26. \u6797\u5b50\u7fa4, \u4f55\u7f8e\u6ce0, \u9673\u601d\u8ce2, \u5433\u9806\u6210, \u738b\u5fd7\u5149<\/strong>*<\/strong>, \u201c\u9444\u9020\u9e7d\u6d17\u6cd5\u88fd\u4f5c\u591a\u5b54\u6027PLGA-PEI-HA\u9ad8\u5206\u5b50\u652f\u67b6\u7279\u6027\u8a55\u4f30\u201d,\u751f\u7269\u91ab\u5b78\u5de5\u7a0b2007\u5e74\u7814\u8a0e\u6703, 96\u5e7412 \u670814-15\u65e5, \u9022\u7532\u5927\u5b78, \u53f0\u4e2d, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2007<\/li>\n
    27. C.H. Yang, S.H. Chen, S.C. Wang,P.S. Cheng, C.K. Wang<\/strong>*<\/strong>, \u201cPreparation and Characterization of Al2<\/sub>O3<\/sub>\/Epoxy Nanocomposites via In-situ <\/em>Polymerization\u201d, \u4e2d\u570b\u5316\u5b78\u670396\u5e74\u5e74\u6703, 96\u5e7412 \u6708, \u570b\u7acb\u6e05\u83ef\u5927\u5b78, \u65b0\u7af9, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2007<\/li>\n
    28. Y.C. Fu*, C.K. Wang<\/strong>, G.T. Lin, M.L. Ho, Developing new biodegradable carrier product for control release of growth factor, \u4e2d\u83ef\u6c11\u570b\u9aa8\u79d1\u91ab\u5b78\u670396\u5e74\u5ea6\u5b78\u8853\u7814\u8a0e\u6703<\/strong>, 96\u5e7410\u670827-28\u65e5, \u9577\u5e9a\u5927\u5b78, \u6843\u5712, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2007<\/li>\n
    29. \u5085\u5c39\u5fd7*, \u4f55\u7f8e\u6ce0, \u738b\u5fd7\u5149<\/strong>, \u738b\u5fd7\u83ef, Optimized Bone Regeneration Based on Sustained Release from Three- Dimensional Fibrous PLGA\/HAp Composite Scaffolds Loaded with BMP-2, \u9aa8\u79d1\u91ab\u5b78\u6703\u7b2c53\u6b21\u806f\u5408\u5b78\u8853\u7814\u8a0e\u6703, 96\u5e7410 \u670827-28\u65e5, \u9577\u5e9a\u5927\u5b78, \u6843\u5712, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2007<\/li>\n
    30. \u9673\u60e0\u4ead*, \u5f35\u5f63\u4f0a, \u5433\u73ee\u7dbe, \u9673\u5efa\u52f3, \u5085\u5c39\u5fd7, \u738b\u5fd7\u5149<\/strong>, \u4f55\u7f8e\u6ce0, \u738b\u570b\u7167, Poly(lactide-co-glycolide)\/ Hydroxylapatite Composite Scaffolds as Protein Drug Delivery System, 2007\u53f0\u7063\u85e5\u5b78\u6703\u5e74\u6703, 96\u5e7412 \u670808\u65e5, \u9ad8\u96c4, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2007<\/li>\n
    31. \u738b\u5fd7\u5149<\/strong>*<\/strong>, \u5085\u5c39\u5fd7, \u5433\u6b23\u84d3, \u9673\u6021\u4f36, \u4f55\u7f8e\u6ce0, \u201c\u4e8c\u6b21\u5fae\u4e73\u5316\u6cd5\u88fd\u5099PLGA\u5fae\u5c0f\u7403\u5305\u8986\u86cb\u767d\u8cea\u4e4b\u88fd\u7a0b\u8207\u9ad4\u5916\u91cb\u653e\u7814\u7a76\u201d, \u4e2d\u570b\u6750\u6599\u79d1\u5b78\u5b78\u670396\u5e74\u5e74\u6703, 95\u5e7411 \u670824-25\u65e5, \u570b\u7acb\u6210\u529f\u5927\u5b78, \u53f0\u5357, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2006<\/li>\n
    32. \u738b\u5fd7\u5149<\/strong>*<\/strong>, \u4e01\u5955\u8aa0, \u5433\u9806\u6210, \u4f55\u7f8e\u6ce0, \u201c\u900f\u660e\u8cea\u9178\u4fee\u98fe\u591a\u5b54\u6027PLGA\u652f\u67b6\u88fd\u7a0b\u7814\u7a76\u8207\u7d30\u80de\u6bd2\u6027\u8a55\u4f30\u201d, \u4e2d\u570b\u6750\u6599\u79d1\u5b78\u5b78\u670395\u5e74\u5e74\u6703, 95\u5e7411 \u6708, \u570b\u7acb\u6210\u529f\u5927\u5b78, \u53f0\u5357, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2006<\/li>\n
    33. S.C. Wu, J.K. Chang, C.K. Wang<\/strong>, I.C. Ting, G.J. Wang, M.L. Ho*, \u201cCytocompatibility of a noval hyaluronic acid modified biodegradable scaffold with human adipose derived stem cells for application of cartilage tissue engineering\u201d, International symposium on recent advances in stem cell research & 2006 annual meeting of Taiwan society for stem cell research, 95\u5e749 \u67081-2\u65e5, \u53f0\u5317\u91ab\u5b78\u5927\u5b78, \u53f0\u5317, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2006<\/li>\n
    34. \u738b\u5fd7\u5149<\/strong>*<\/strong>, \u9673\u5609\u7965, \u9673\u6021\u4f36, \u9673\u60e0\u4ead, \u5085\u5c39\u5fd7,\u738b\u570b\u7167, \u4f55\u7f8e\u6ce0, \u201c\u65b0\u578b\u6838\u6bbc\u8907\u5408\u5fae\u7c92\u5305\u8986\u86cb\u767d\u8cea\u4e4b\u7814\u7a76\u201d, \u4e2d\u570b\u6750\u6599\u79d1\u5b78\u5b78\u670394\u5e74\u5e74\u6703, 94\u5e7411 \u670825-26\u65e5, \u79c1\u7acb\u6de1\u6c5f\u5927\u5b78, \u53f0\u5317, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2005<\/li>\n
    35. \u738b\u5fd7\u5149<\/strong>*<\/strong>, \u5229\u5b9b\u82b8, \u9673\u6cca\u4f59, \u201c\u6c2b\u6c27\u57fa\u78f7\u7070\u77f3\u5305\u8986\u5948\u7c73\u91d1\u4e4b\u6bbc\u5c64\u8907\u5408\u6750\u6599\u7279\u6027\u7814\u7a76\u201d, \u4e2d\u570b\u6750\u6599\u79d1\u5b78\u5b78\u670394\u5e74\u5e74\u6703, 94\u5e7411\u670825-26\u65e5, \u79c1\u7acb\u6de1\u6c5f\u5927\u5b78, \u53f0\u5317, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2005<\/li>\n
    36. \u738b\u5fd7\u5149<\/strong>*<\/strong>, \u9673\u8679\u5e74, \u5433\u9806\u6210, \u5085\u5c39\u5fd7, \u738b\u570b\u7167, \u4f55\u7f8e\u6ce0, \u201c\u4e73\u5316\u6cd5\u5f62\u6210\u78f7\u9178\u9223\u751f\u7269\u9676\u74f7\u5fae\u7c73\u7403\u4e4b\u7279\u6027\u7814\u7a76\u201d, \u4e2d\u570b\u6750\u6599\u79d1\u5b78\u5b78\u670394\u5e74\u5e74\u6703, 94\u5e7411 \u670825-26\u65e5, \u79c1\u7acb\u6de1\u6c5f\u5927\u5b78, \u53f0\u5317, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2005<\/li>\n
    37. \u5433\u9806\u6210, \u4f55\u7f8e\u6ce0, \u738b\u5fd7\u5149<\/strong>, \u738b\u570b\u7167*, \u201cCell adhesion of adipose derived stem cells on three-dimensional poly DL-lactic-co-glycolic acid\u00a0 scaffold with different pore size\u201d, \u4e2d\u83ef\u6c11\u570b\u9aa8\u79d1\u91ab\u5b78\u670394\u5e74\u5e74\u6703,\u00a0 94\u5e7410\u670818\u65e5, \u53f0\u5317\u69ae\u6c11\u7e3d\u91ab\u9662, \u53f0\u5317, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 2005<\/li>\n
    38. \u738b\u5fd7\u5149<\/strong>*, \u5ed6\u99ff\u5049, \u5f35\u4ed5\u6b23, \u856d\u795d\u87bd, \u7c21\u80b2\u83c1, \u8b1d\u7389\u971e, \u6731\u6642\u6881 \u201c\u5fae\u6ce2\u96fb\u6f3f\u6539\u8cea\u5948\u7c73\u4e8c\u6c27\u5316\u9226\u4e4b\u53ef\u898b\u5149\u89f8\u5a92\u7279\u6027\u7814\u7a76\u201d, \u5fae\u6ce2\u96fb\u6f3f\u5948\u7c73\u88fd\u7a0b\u61c9\u7528\u7814\u8a0e\u6703, 92\u5e7411 \u6708, \u7d93\u6fdf\u90e8\u80fd\u6e90\u59d4\u54e1\u6703, \u9ad8\u96c4, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 4-1, 2003<\/li>\n
    39. \u738b\u5fd7\u5149*<\/strong>, \u8a31\u5bcc\u9280, \u95d5\u5c71\u748b, \u201c\u6642\u6548\u6eab\u5ea6\u5c0d\u78f7\u7070\u77f3\u6790\u51fa\u53ca\u71b1\u7a69\u5b9a\u7814\u7a76\u201d, \u4e2d\u570b\u6750\u6599\u79d1\u5b78\u5b78\u670390\u5e74\u5e74\u6703, 90\u5e7411 \u6708, \u570b\u7acb\u4e2d\u8208\u5927\u5b78, \u53f0\u4e2d, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, P05, 2001<\/li>\n
    40. \u9673\u747e\u60e0, \u738b\u5fd7\u5149<\/strong>, \u6731\u5efa\u5e73*, \u201c\u96f7\u5c04\u84b8\u934d\u6c2b\u6c27\u57fa\u78f7\u7070\u77f3\u8584\u819c\u7d50\u69cb\u3001\u6027\u8cea\u53ca\u71b1\u8655\u7406\u4e4b\u5f71\u97ff\u201d,\u4e2d\u570b\u6750\u6599\u79d1\u5b78\u5b78\u670386\u5e74\u5e74\u6703, \u570b\u7acb\u6210\u529f\u5927\u5b78, \u53f0\u5357, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, pp. J1-4 1997<\/li>\n
    41. \u6731\u5efa\u5e73, \u738b\u5fd7\u5149<\/strong>, \u9673\u747e\u60e0*, \u201c\u6dfb\u52a0\u751f\u7269\u6d3b\u6027\u73bb\u7483\u5c0d\u6c2b\u6c27\u57fa\u78f7\u7070\u77f3\u71d2\u7d50\u9ad4\u7d50\u69cb\u53ca\u6027\u8cea\u5f71\u97ff\u201d, \u4e2d\u570b\u6750\u6599\u79d1\u5b78\u5b78\u670386\u5e74\u5e74\u6703, \u570b\u7acb\u6210\u529f\u5927\u5b78, \u53f0\u5357, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, pp. J17-20, 1997<\/li>\n
    42. \u738b\u5fd7\u5149<\/strong>, \u6731\u5efa\u5e73, \u9673\u747e\u60e0*, “\u96f7\u5c04\u84b8\u934d\u7d50\u6676\u6027\u6c2b\u6c27\u57fa\u78f7\u7070\u77f3,\u8584\u819c\u65bc\u9226\u57fa\u6750\u5fae\u7d50\u69cb\u6027\u8cea\u7814\u7a76”, \u4e2d\u83ef\u6c11\u570b84\u5e74\u91ab\u5b78\u5de5\u7a0b\u79d1\u6280\u7814\u8a0e\u6703, \u570b\u7acb\u6210\u529f\u5927\u5b78, \u53f0\u5357,\u53f0\u7063,\u4e2d\u83ef\u6c11\u570b, pp.300-301, 1995<\/li>\n
    43. \u738b\u5fd7\u5149<\/strong>, \u6731\u5efa\u5e73, \u9673\u747e\u60e0*, \u201c\u6dfb\u52a0\u751f\u91ab\u73bb\u7483\u5c0d\u6c2b\u6c27\u57fa\u78f7\u7070\u77f3\u71d2\u7d50\u5f37\u5ea6\u53ca\u5fae\u7d50\u69cb\u4e4b\u5f71\u97ff\u201d, \u4e2d\u83ef\u6c11\u570b83\u5e74\u91ab\u5b78\u5de5\u7a0b\u79d1\u6280\u7814\u8a0e\u6703, \u570b\u7acb\u967d\u660e\u5927\u5b78, \u53f0\u5317, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, pp.218-219, 1994<\/li>\n
    44. \u738b\u5fd7\u5149<\/strong>, \u6731\u5efa\u5e73, \u9673\u747e\u60e0*, \u201c\u751f\u91ab\u73bb\u7483\u53ca\u77f3\u82f1\u5f37\u5316\u6c2b\u6c27\u57fa\u78f7\u7070\u77f3\u7814\u7a76\u201d, \u4e2d\u570b\u6750\u6599\u79d1\u5b78\u5b78\u670383\u5e74\u5e74\u6703, 83\u5e744 \u6708, \u570b\u7acb\u4e2d\u5c71\u5927\u5b78, \u9ad8\u96c4, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, pp. 380-381, 1994\u3002<\/li>\n
    45. \u738b\u5fd7\u5149<\/strong>, \u912d\u9d3b\u6bc5, \u9673\u747e\u60e0, \u6731\u5efa\u5e73*, \u201c\u77ed\u78b3\u7e96\/\u78b3\u5316\u77fd\u8907\u5408\u6750\u6599\u4e4b\u88fd\u7a0b\u53ca\u78e8\u8017\u7814\u7a76\u88fd\u7a0b\u53ca\u6027\u8cea\u7814\u7a76\u201d, \u4e2d\u570b\u6750\u6599\u79d1\u5b78\u5b78\u670382\u5e74\u5e74\u6703, 82\u5e744\u6708\u65e530\u81f35\u67081\u65e5, \u570b\u7acb\u4ea4\u901a\u5927\u5b78, \u65b0\u7af9, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 5-11, 1993<\/li>\n
    46. \u912d\u9d3b\u6bc5, \u738b\u5fd7\u5149<\/strong>, \u9673\u747e\u60e0, \u6731\u5efa\u5e73*, \u201c\u77ed\u78b3\u7e96\/\u78b3\u5316\u77fd\u8907\u5408\u6750\u6599\u4e4b\u88fd\u7a0b\u53ca\u78e8\u8017\u7814\u7a76\u78e8\u8017\u884c\u70ba\u201d, \u4e2d\u570b\u6750\u6599\u79d1\u5b78\u5b78\u670382 \u5e74\u5e74\u6703, 82\u5e744\u670830\u65e5\u81f35\u67081\u65e5, \u570b\u7acb\u4ea4\u901a\u5927\u5b78, \u65b0\u7af9, \u53f0\u7063, \u4e2d\u83ef\u6c11\u570b, 5-13, 1993<\/li>\n<\/ol>\n
      \n

      \u570b\u5167\u671f\u520a\u53ca\u96dc\u8a8c\u8ad6\u6587<\/b><\/b><\/h3>\n
        \n
      1. \u738b\u5fd7\u5149<\/span><\/b>*<\/span><\/b>, \u8a31\u5bcc\u9280, \u5f35\u4ed5\u6b23, <\/sup>\u7c21\u80b2\u83c1, \u8b1d\u7389\u971e, \u5ed6\u99ff\u5049, \u201c\u6df7\u5408\u6539\u8cea\u578b\u4e8c\u6c27\u5316\u9226\u5948\u7c73\u5149\u89f8\u5a92\u4e4b\u7279\u6027\u8a55\u4f30\u201d, J. Ceram. Soc.(\u9676\u696d) 23: 40-47 2004<\/li>\n
      2. \u738b\u5fd7\u5149<\/span><\/b>*<\/span><\/b>, \u201c\u5948\u7c73\u5149\u89f8\u5a92\u4e4b\u7591\u616e\u8207\u9192\u601d\u201d\uff0c \u5de5\u696d\u6750\u6599\u96dc\u8a8c, 198:69-71, 2003<\/li>\n
      3. \u738b\u5fd7\u5149<\/span><\/b>*<\/span><\/b>, \u201c\u4ee5\u4e8c\u6c27\u5316\u9226\u70ba\u4e3b\u7684\u53ef\u898b\u5149\u89f8\u5a92\u767c\u5c55\u8207\u57fa\u672c\u539f\u7406\u201d\uff0c \u5de5\u696d\u6750\u6599\u96dc\u8a8c, 201:155-163, 2003<\/li>\n
      4. \u738b\u5fd7\u5149<\/span>, \u6731\u5efa\u5e73, \u9673\u747e\u60e0*, \u201c\u96f7\u5c04\u84b8\u934d\u7d50\u6676\u6027\u6c2b\u6c27\u57fa\u78f7\u7070\u77f3\u8584\u819c\u65bc\u9226\u57fa\u6750\u7d50\u69cb\u7814\u7a76\u201d, J. Ceram. Soc.(\u9676\u696d), 1:50-57, 1997<\/li>\n
      5. \u738b\u5fd7\u5149<\/span><\/b>, \u912d\u9d3b\u6bc5, \u9673\u747e\u60e0, \u6731\u5efa\u5e73*, \u201c\u77ed\u78b3\u7e96\u78b3\u5316\u77fd\u8907\u5408\u6750\u6599\u4e4b\u88fd\u7a0b\u53ca\u78e8\u8017\u7814\u7a76I-\u88fd\u7a0b\u53ca\u6027\u8cea\u7814\u7a76\u201d, J. Ceram. Soc.(\u9676\u696d), 12:5-17, 1993<\/li>\n
      6. \u912d\u9d3b\u6bc5, \u738b\u5fd7\u5149<\/span><\/b>, \u9673\u747e\u60e0, \u6731\u5efa\u5e73*, \u201c\u77ed\u78b3\u7e96\u78b3\u5316\u77fd\u8907\u5408\u6750\u6599\u4e4b\u88fd\u7a0b\u53ca\u78e8\u8017\u7814\u7a76II-\u78e8\u8017\u7814\u7a76\u201d, J. Ceram. Soc.(\u9676\u696d), 12, 18-31, 1993<\/li>\n<\/ol>\n
        \n

        \u570b\u5167\u5916\u66f8\u520a<\/b><\/b><\/h3>\n
          \n
        1. Chih-Kuang Wang<\/span><\/b>*, Wen-Cheng Chen, Chun-Cheng Hung, Yin-Chih Fu, Two new routes to form porous bioceramic beads, <\/b>Bioceramics: Properties, Preparation and Applications, editor: Wolffe Kossler and Jacob Fuchs, Nova Science Publishers, Inc. Hauppauge, NY 11788, 2009. ISBN: <\/b>978-1-60741-056-0<\/li>\n
        2. Mei-Ling Ho*, Je-Ken Chang, Chung-Hwan Chen, Yin-Chih Fu, Chih-Kuang Wang<\/span><\/b>, Chau-Zen Wang, Rajalakshmanan Eswaramoorthy, Shun-Cheng Wu, Application of adipose derived stem cells for bone and cartilage regeneration, Edited book: Mesenchymal stem cells, editor: Yin Xiao, Nova Science Publishers, Inc., 01 September 2011. ISBN: 978-61324-669-6<\/li>\n<\/ol>\n

           <\/p>\n","protected":false},"excerpt":{"rendered":"

          \u570b\u969b\u671f\u520a (*: Corresponding author) Chih-Kuang Wang, Jiin-Hu … \u95b1\u8b80\u5168\u6587 Publications(\u8ad6\u6587\u8457\u4f5c)<\/span> →<\/span><\/a><\/p>\n","protected":false},"author":20,"featured_media":0,"parent":0,"menu_order":1,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_exactmetrics_skip_tracking":false,"_exactmetrics_sitenote_active":false,"_exactmetrics_sitenote_note":"","_exactmetrics_sitenote_category":0,"footnotes":""},"class_list":["post-10","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/wp.kmu.edu.tw\/ckwang\/wp-json\/wp\/v2\/pages\/10","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/wp.kmu.edu.tw\/ckwang\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/wp.kmu.edu.tw\/ckwang\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/wp.kmu.edu.tw\/ckwang\/wp-json\/wp\/v2\/users\/20"}],"replies":[{"embeddable":true,"href":"https:\/\/wp.kmu.edu.tw\/ckwang\/wp-json\/wp\/v2\/comments?post=10"}],"version-history":[{"count":16,"href":"https:\/\/wp.kmu.edu.tw\/ckwang\/wp-json\/wp\/v2\/pages\/10\/revisions"}],"predecessor-version":[{"id":146,"href":"https:\/\/wp.kmu.edu.tw\/ckwang\/wp-json\/wp\/v2\/pages\/10\/revisions\/146"}],"wp:attachment":[{"href":"https:\/\/wp.kmu.edu.tw\/ckwang\/wp-json\/wp\/v2\/media?parent=10"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}