Graduate Institute of Biomedical Materials and Tissue Engineering

  • No. 250 Wu-Xing Street,

    11031 Taipei

Organization profile

Organisation profile

Biomedical Materials and Tissue Engineering (BMTE) is an internationally-oriented multidisciplinary teaching and research institute that provides basic and applied knowledge on the science of biomedical materials and novel tissue engineering and regenerative medicine strategies. High-level learning and research education is provided on innovative state-of-the-art technologies pertaining to stem cell culture, regenerative medicine and reconstruction, medical device development, drug delivery systems, nanotechnologies, bio-sensors, and bioseparation and bioprocessing of biologicals for therapeutic use. BMTE research portfolio has a strong focus on translational medicine applications.

The educational and research curriculum of BMTE provides a unique emphasis on the acquisition of a global, world-wide, vision of the scientific and market needs. In additional to strong links with the local industry, BMTE has established research collaborations with foreign universities as well as research contracts with companies in Asia, Europe, and USA. This international exposure offers opportunities to students to interact with different scientific and industrial cultures and to present and discuss their data at international meetings. In addition, the curriculum of the BMTE, through an increasing proportion of classes and seminars in English, contacts with Taiwan industry entrepreneurs, dual-diploma programs with foreign universities, helps students to acquire scientific and market skills needed at global level.

Fingerprint The fingerprint is based on mining the text of the scientific documents related to the associated persons. Based on that an index of weighted terms is created, which defines the key subjects of research unit

Blood Platelets Medicine & Life Sciences
Bone Engineering & Materials Science
Neoplasms Medicine & Life Sciences
Bone and Bones Medicine & Life Sciences
Liposomes Medicine & Life Sciences
Tooth Medicine & Life Sciences
Platelets Chemical Compounds
Cells Chemical Compounds

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Projects 2010 2019

Research Output 1995 2019

A novel injectable in situ forming gel based on carboxymethyl hexanoyl chitosan/hyaluronic acid polymer blending for sustained release of berberine

Lu, K. Y., Lin, Y. C., Lu, H. T., Ho, Y. C., Weng, S. C., Tsai, M. L. & Mi, F. L., Feb 15 2019, In : Carbohydrate Polymers. 206, p. 664-673 10 p.

Research output: Contribution to journalArticle

Berberine
Hyaluronic acid
Hyaluronic Acid
Chitosan
Polymers
1 Citations

2,3,5,4′-Tetrahydroxystilbene-2-O-β-glucoside potentiates self-renewal of human dental pulp stem cells via the AMPK/ERK/SIRT1 axis

Lin, C. Y., Chin, Y. T., Kuo, P. J., Lee, H. W., Huang, H. M., Lin, H. Y., Weng, I. T., Hsiung, C. N., Chan, Y. H. & Lee, S. Y., Oct 1 2018, In : International Endodontic Journal. 51, 10, p. 1159-1170 12 p.

Research output: Contribution to journalArticle

Sirtuin 1
Dental Pulp
AMP-Activated Protein Kinases
Mitogen-Activated Protein Kinase 3
Stem Cells

A gelatin hydrogel-containing nano-organic PEI–Ppy with a photothermal responsive effect for tissue engineering applications

Satapathy, M. K., Nyambat, B., Chiang, C. W., Chen, C. H., Wong, P. C., Ho, P. H., Jheng, P. R., Burnouf, T., Tseng, C. L. & Chuang, E. Y., Jan 1 2018, In : Molecules. 23, 6, 1256.

Research output: Contribution to journalArticle

Polyethyleneimine
tissue engineering
Hydrogel
gelatins
polypyrroles