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Jin-Jia Hu

 

 

專任教師

姓名

職稱

學歷

專長

備註

胡晉嘉

副教授

美國德州農工大學

生醫工程博士

·         軟組織力學(包括其力學性質之測定與數學模型之建立)、心血管力學、組織工程、生物反應器、機械生物學、非線性光學顯微鏡的應用、影像處理與分析、植物細胞與組織培養

本所專任

 

 

 

 

 

姓名

胡晉嘉

職稱

副教授

辦公室

成杏校區 醫工大樓二樓 5747

聯絡電話

06-2757575-63421

傳真

06-2343270

E-Mail

jjhu@mail.ncku.edu.tw

實驗室

軟組織力學實驗室

學歷

美國德州農工大學 生醫工程 博士, 2005

國立台灣大學 化學工程 碩士, 1998
國立台灣大學 化學工程 學士, 1994

經歷

國立成功大學 生物醫學工程學系 助理教授 2014~迄今

國立成功大學 生物醫學工程學系 助理教授 2009~2014

國立交通大學 機械工程學系 助理教授 2008~2009

美國麻大學醫學 生理學系 博士後研究員 (under Dr. Yu-Li Wang) 08/2007-07/2008

美國德州農工大學 生物醫學工程學系 博士後研究員 (under Dr. Alvin T. Yeh) 01/2006-08/2007

美國德州農工大學 生物醫學工程學系 研究助理 (under Dr. Jay D. Humphrey) 05/2002-12/2005

美國德州農工大學 生物醫學工程學系 研究助理 (Dr. Theresa A. Good) 02/2000-05/2002

國立台灣大學 化學工程學系 助教 (Dr. Yan-Ping Chen) 08/1998-07/1999

國立台灣大學 化學工程學系 研究助理 (Dr. Shih-Yow Huang) 09/1997-06/1998

研究專長

軟組織力學(包括其力學性質之測定與數學模型之建立)

心血管力學

組織工程

生物反應器

機械生物學

非線性光學顯微鏡的應用

影像處理與分析

植物細胞與組織培養

近五年著作與專利 (2009-2013)

期刊論文:

1.       Hu J-J.*, Chen G-W., Liu Y-C., Hsu S-S., “Influence of specimen geometry on the estimation of the planar biaxial mechanical properties of cruciform specimens,” Experimental Mechanics (2013) (accepted) (SCI)

2.       Hayenga H.N., Hu J-J., Meyer C.A., Wilson E., Hein T.W., Kuo L., Humphrey J.D., “Differential progressive remodeling of coronary and cerebral arteries and arterioles in an aortic coarctation model of hypertension,” Frontiers in Physiology (2012) 3, Article 420

3.       Lin J-H., Lu C-T., Hu J-J., Chen Y-S., Huang C-H., Lou C-W., “Property evaluation of Bletilla striata/ polyvinyl alcohol nano fibers and composite dressings,” Journal of Nanomaterials (2012) 2012, Article ID 519516 (SCI)

4.       Hu J-J.*, Liu Y-C., Chen G-W., Wang M-X., Lee P-Y., “Development of fibroblast-seeded collagen gels under planar biaxial mechanical constraints: A biomechanical study,” Biomechanics and Modeling in Mechanobiology (2013) 12, 849-868 (SCI)

5.       Hu J-J.*, Chao W-C., Lee P-Y., Huang C-H., “Construction and characterization of an electrospun tubular scaffold for small-diameter tissue-engineered vascular grafts: A scaffold membrane approach,” Journal of Mechanical Behavior of Biomedical Materials (2012) 13, 140-155 (SCI)

6.       Teng F-Y., Ko C-L., Kuo H-N., Hu J-J., Lin J-H., Lou C-W., Wang Y-L., Cheng C-Y., Chen W-C.,“A comparison of epithelial cells, fibroblasts and osteoblasts in dental implant titanium topographies,” Bioinorganic Chemistry and Applications (2012) 2012, Article ID 687291 (SCI)

7.       Xu H., Hu J-J., Humphrey J.D., Liu J.C., “Automated measurement and statistical modeling of elastic laminae in arteries,” Computer Methods in Biomechanics and Biomedical Engineering, (2010) 13, 749-763 (SCI)

8.       Popovic N., Bridenbaugh E.A., Neiger J.D., Hu J-J., Vannucci M., Mo Q., Miller M.W., Fossum T.W., Humphrey J.D., and Wilson E., “Transforming growth factor β signaling in hypertensive remodeling of porcine aorta,” American Journal of Physiology: Heart and Circulatory Physiology (2009) 297, H2044-H2053

9.       Hu J-J., Humphrey J.D., Yeh, A.T., “Characterization of engineered tissue development under biaxial loading using nonlinear optical microscopy,” Tissue Engineering: Part A (2009) 15, 1553-1564

Submitted or in Preparation

Tuan-Mu H-Y., Hu J-J.*, “On the decellularization of fresh or frozen human umbilical arteries: implications for small-diameter tissue engineered vascular grafts,” (in revision)

 

會議論文:

1.       Tuan-Mu H-Y., and Hu J-J., “On the decellularization process of human umbilical arteries: Implications for small-diameter tissue-engineered vascular grafts,” 2012 International Conference on Tissue Science and Engineering, Chicago, IL, U.S.A.

2.       Wang M-X., Hu J-J., “A scaffold membrane approach of constructing a tubular scaffold for small-diameter tissue-engineered vascular grafts,” 2012 International Conference on Tissue Science and Engineering, Chicago, IL, U.S.A.

3.       Liu Y-C., Hu J-J., “A Novel Mechano-Active Biaxial Stretcher for Engineering Planar Tissues,” 2010 BMES Annual Meeting at Austin, TX, U.S.A.

4.       Chao W-C., Tuan-Mu H-Y., Hu J-J., “Electrospun Scaffolds that Mimic the Microstructure of Arteries,” 2011 BMES Annual Meeting at Hartford, CT, U.S.A.

5.       Lin J-H., Hu J-J., Lu C-T., Chen W-C., Huang C-L., Lou C-W., “Manufacturing technique of the biocompatible polymer nanofiber membrane by electrospinning,” Applied Mechanics and Materials (2012) 184-185, 1404-1407 (EI)

6.       Lou C-W., Hu J-J., Chen W-C., Lin C-W., Wu Z-H., Lin J-H., “The primary study on PET/Spandex tubular braid,” Advanced Materials Research (2012) 554-556, 214-217 (EI)

7.       Lou C-W., Hu J-J., Huang C-C., Huang S-Y., Yeh H-H., Lin J-H., Preparation and characterization of gelatin/oligomeric proanthocyanidins composite microspheres, Advanced Materials Research (2011) 287-290, 132-135 (EI)

8.       Lou C-W., Hu J-J., Lu C-T., Huang C-C., Sie M-Y., Lin J-H., Preparation and characterization of low-methoxyl pectin/Bletilla striata composite membranes, Advanced Materials Research Vols. (2011) 287-290, 140-144 (EI)

9.       Lou C-W., Hu J-J., Lu C-T., Huang C-C., Huang M-S., Lin J-H., Manufacturing of functional gelatin/chitosan composite membrane, Advanced Materials Research (2011) 287-290, 150-153 (EI)

10.   Lou C-W., Hu J-J., Chen Y-S., Wen S-P., Lin K-C., Lin J-H., Manufacturing technology of 316L stainless steel/poly(lactic acid) composite braids and the induction of hydroxyapatite formation on the braid, Advanced Materials Research (2011) 287-290, 2669-2672 (EI)

11.   Lou C-W., Hu J-J., Chen Y-S., Lu C-T., He C-H., Lin J-H., Manufacturing technology and characteristics of nerve conduits made of poly(lactic acid) braids, Advanced Materials Research (2011) 287-290, 2701-2704 (EI)

12.  Lou C-W., Hu J-J., Huang C-C., Lu C-T., Hsieh C-T., Lin J-H., Preparation and characterization of polyester fibers/absorbent cotton composite dressing matrix fabrics, Advanced Materials Research (2011) 287-290, 2721-2724 (EI)

 

 

 

 

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