翁培鈞(Wong, Pei-Chun) 助理教授

Email
pcwong0424@tmu.edu.tw
現   職
生醫光機電研究所 助理教授

學經歷

學 歷

畢業學校與學位[修業時間]
國立陽明大學生物醫學暨工程學院生物醫學工程學系 博士
2012/09~2017/06
國立中央大學機械工程學系 碩士
2010/09~2012/06
聖約翰科技大學機械與電腦輔助工程系 學士
2005/09~2009/06

本校學術經歷

任職單位與職稱[起迄時間]
生醫光機電研究所助理教授
2022/10/31~

本校兼職教學行政經歷

服務單位與職稱[起迄時間]
無資料!

其它經歷

任職單位與職稱[起迄時間]
臺北醫學大學附設醫院骨科部運動醫學科醫學研究員
2020/09/01~2022/10/28
臺北醫學大學生物醫學工程學系博士後研究員
2017/07~2020/08/31

專長與研究領域

學門領域
生醫材料
BIOMATERIALS
醫工、骨科、幹細胞
Medical Engineering、Orthopedics、Stem Cell
學術專長
臨床生醫光電(光動力治療、醫用光電器材、雷射治療技術、內視鏡系統等)
臨床生醫光電(光動力治療、醫用光電器材、雷射治療技術、內視鏡系統等)
骨科生物力學
骨科生物力學
人工及合成生醫材料
人工及合成生醫材料
組織工程及再生醫學
組織工程及再生醫學

論文著作

清冊下載

論文 Journal Paper


1. 2024 Chang CM,Wong PC,Ou SL,Ko CE,Wang YT. Optimizing implant lattice design for large distal femur defects: Stimulating interface bone growth to enhance osseointegration . International Journal of Bioprinting .2024

2. 2024 Wong PC,Chen KH,Wang WR,Chen CY,Wang YT,Lee YB, JL Wu. Injectable ChitHCl-DDA tissue adhesive with high adhesive strength and biocompatibility for torn meniscus repair and regeneration . International Journal of Biological Macromolecules .2024 ;(270):132409

3. 2024 Chen KH,Chen CY,Wang WR,Lee YB,Chen CH,Wong PC. Development and evaluation of an injectable ChitHCl-MgSO4-DDA hydrogel for bone regeneration: In vitro and in vivo studies on cell migration and osteogenesis enhancement . Biomaterials Advances .2024 ;(163):213963

4. 2023 Kurniawan D,Mathew J,Michael RR,Pham HP,Wong PC,Rao NV, Ostrikov K, Chiang WH. Plasma-Enabled Graphene Quantum Dot Hydrogels as Smart Anticancer Drug Nanocarriers . Small .2023

5. 2023 MH,CH,FY,ZY,PC. Biosilica source converted into mesoporous bioactive glass implanted for tendon-bone healing . Journal of the Chinese Chemical Society .2023 ;(2023):1-7

6. 2023 Wong PC,Tsai PH,Maqnun MJ,Chen YC,Jang JSC. Fabrication of TiZr-based bulk metallic glass foams with different gradient porosities for biomedical application . Materials Letters .2023

7. 2023 Wong PC,Kurniawan D,Wu JL,Wang WR,Chen KH,Chen CY, Chen YC, Veeramuthu L, Kuo CC, Ostrikov KK, Chiang WH. Plasma-Enabled Graphene Quantum Dot Hydrogel–Magnesium Composites as Bioactive Scaffolds for In Vivo Bone Defect Repair . ACS Applied Materials & Interfaces .2023 ;(15):44607-44620

8. 2023 Wu AF,Wu AL,Yeh TT,Wong PC,Wu JL. Chitosan and dextran hydrogel as a filler for possible application in orthopedic implantation surgery . Journal of Bioactive and Compatible Polymers .2023 ;(38):358-367

9. 2022 Chu YS,Wong PC,Jang JSC,Chen CH,Wu SH. Combining Mg–Zn–Ca Bulk Metallic Glass with a Mesoporous Silica Nanocomposite for Bone Tissue Engineering . Pharmaceutics .2022 ;(14)

10. 2022 Wong PC,Song SM,Tsai PH,Maqnum MJ,Wang WR,Wu JL, Jang JSC. Using Cu as a spacer to fabricated and controlled the porosity of porous TiZr-based bulk metallic glass foams for orthopedic implant applications . Materials .2022 ;(15)

11. 2021 Wong PC,Wang RY,Lu LS,Wang WR,Jang JSC,Wu JL, Su TY, Chang LH. Two-step approach using degradable magnesium to inhibit surface biofilm and kill subsequent planktonic bacteria . Biomedicines .2021 ;(9)

12. 2021 Wong PC,Fan TE,Lee YL,Lai CY,Wu JL,Chang LH, Su TY. Detection and identification of the stages of DH5-alpha Escherichia coli biofilm formation on metal by using an artificial intelligence system . Microscopy and Microanalysis .2021 ;(27)

13. 2021 Wu JL,Wong PC,Ho CW,Chen CH,Liao KY,Lovel R, Wu TBC, Chang WY, Lee YZ, Lin W. Human umbilical cord mesenchymal stem cells in combination with hyaluronic acid ameliorate the progression of knee osteoarthritis . Applied Sciences .2021 ;(11)

14. 2021 Chiang CW,Chen CH,Manga YB,Huang SC,Chao KM,Jheng PR, Wong PC, Nyambat B, Satapathy MK, Chuang EY. Facilitated and controlled strontium ranelate delivery using GCS-HA nanocarriers embedded into PEGDA coupled with decortication driven spinal regeneration . International Journal of Nanomedicine .2021 ;(2021)

15. 2021 Wong PC,Song SM,Nien YY,Wang WR,Tsai PH,Wu JL, Jang JSC. Mechanical properties enhanced by the dispersion of porous Mo particles in the biodegradable solid and bi-phase core–shell structure of Mg-based bulk metallic glass composites for applications in orthopedic implants . Journal of Alloys and Compounds .2021 ;(877)

16. 2021 Wong PC,Wang WR,Jang JSC,Lee CH,Wu JL. Large-pore platelet-rich fibrin with a Mg ring to allow MC3T3-E1 preosteoblast migration and to improve osteogenic ability for bone defect repair . International Journal of Molecular Sciences .2021 ;(22)

17. 2020 Wong PC,Song SM,Tsai PH,Jang JSC,Cheng CK,Chen CH. Relationship between surface roughness of biodegradable Mg-based bulk metallic glass and osteogenesis ability of MG63 osteoblast-like cells . Materials .2020 ;(13)

18. 2020 Song SM,Wong PC,Chiang CW,Tsai PH,Jang JSC,Chen CH. A bi-phase core–shell structure of Mg-based bulk metallic glass for application in orthopedic fixation implants . Materials Science and Engineering C .2020 ;(111)

19. 2020 Nguyen VT,Wong PC,Song SM,Tsai PH,Jang JSC,Tsao IY, Lin CH, Nguyen VC. Open-Cell Tizr-Based Bulk Metallic Glass Scaffolds with Excellent Biocompatibility and Suitable Mechanical Properties for Biomedical Application . Journal of Functional Biomaterials .2020 ;(11)

20. 2019 Nguyen VT,Li TH,Song SM,Liao YC,Tsai PH,Wong PC, Nguyen VC, Jang JSC. Synthesis of biocompatible TiZr-based bulk metallic glass foams for bio-implant application . Materials Letters .2019 ;(256)

21. 2019 Herberg S,McDermott AM,Dang PN,Alt DS,Tang R,Dawahare JH, Varghai D, Shin JY, McMillan A, Dikina A, He F, LeeY, Cheng Y, Umemori K, Wong PC, Park H, Boerckel JD, Alsberg E. Combinatorial morphogenetic and mechanical cues to mimic bone development for defect repair . Science Advances .2019 ;(5)

22. 2019 Wong PC,Wong CC,Tsai PH,Jang JSC,Cheng CK,Chen HH, Chen CH. Biocompatibility and osteogenic capacity of Mg-Zn-Ca bulk metallic glass for rabbit tendon-bone interference fixation . International Journal of Molecular Sciences .2019 ;(20)

23. 2018 Satapathy MK,Nyambat B,Chiang CW,Chen CH,Wong PC,Ho PH, Jheng PR, Burnouf T, Tseng CL, Chuang EY. A gelatin hydrogel-containing nano-organic PEI–Ppy with a photothermal responsive effect for tissue engineering applications . Molecules .2018 ;(23):1256

24. 2018 Chuang EY,Chiang CW,Wong PC,Chen CH. Hydrogels for the application of articular cartilage tissue engineering: A review of hydrogels . Advances in Materials Science and Engineering .2018 ;(2018)

25. 2018 Nyambata B,Chen CH,Wong PC,Chiang CW,Satapathy MK,Chuang EY. Genipin-crosslinked adipose stem cell-derived extracellular matrix-nano graphene oxide composite sponge for skin tissue engineering . Journal of Materials Chemistry B .2018 ;(6):979-990

26. 2018 Chang CK,Lin YY,Wong PC,Kao HC,Chen HY,Lee SH, Cheng CK. Improve elderly people's sit-to-stand ability by using new designed additional armrests attaching on the standard walker . Journal of the Chinese Medical Association .2018 ;(81):81-86

研究計畫

計畫名稱
113 結合富血小板纖維蛋白及多孔可降解鎂基非晶質合金作為臨界尺寸骨缺損修復之自鎖式生物支架(3/3)
補助單位
國家科學及技術委員會
計畫名稱
112 Photothermal effect of Mg Alloy- Induced Thermoresponsive Hydrogel for Bone Repair with MgSO Release
補助單位
國家科學及技術委員會
計畫名稱
112 Tissue Adhesive Containing Au NPs with Photothermal Effect for Torn Meniscus Repair and Regeneration
補助單位
國家科學及技術委員會
計畫名稱
112 開發與評估可攜式光生物調控系統並與雷射光生物調控系統在影響前成骨細胞表現之比較
補助單位
臺北醫學大學
計畫名稱
112 結合富血小板纖維蛋白及多孔可降解鎂基非晶質合金作為臨界尺寸骨缺損修復之自鎖式生物支架(2/3)
補助單位
國家科學及技術委員會
計畫名稱
111 新聘教師研究補助
補助單位
臺北醫學大學
計畫名稱
111 結合富血小板纖維蛋白及多孔可降解鎂基非晶質合金作為臨界尺寸骨缺損修復之自鎖式生物支架(1/3)
補助單位
國家科學及技術委員會
計畫名稱
110 具透明質酸-石墨烯量子點奈米顆粒之組織黏合劑用於半月板黏合及再生
補助單位
臺北醫學大學