關於 tissue engineering applications ，我們在網路上蒐集到這些相關的討論、資訊與評價

【LEAP@Stanford】- 科技部『LEAP博士創業之星計畫』

【徵求】

工學院相關領域(如化學、化工、材料和工程、生物工程等)之博士(Ph.D.)或醫師(M.D.)具有相關學術研究與開發經驗者，赴史丹福大學(Stanford University)化工系(Department of Chemical Engineering)，接受為期一年之研習及創新發展培訓。

✍️ 申請資格及甄選方式請見線上報名網站：
applyleap.stpi.narl.org.tw/edu/stanford/index

🎯 報名時間：延長至 2017.5.26 (Fri) 17:00止

LEAP@Stanford (2017) 本梯次將選送2至8位博士級人才赴史丹福大學工學院化工系(Department of Chemical Engineering)之相關領域研究室研習一年，亦可參與生醫、能源和環境科學(life, energy and the environment)等重要研究主題。學員將可參加史丹佛大學校內各種活動，每月定期與教授討論、參加校內國際會議與大師講座，以及當地創新創業社群活動。

🔵 史丹佛大學化工系
與化學系(Departments of Chemistry)、材料科學與工程學系(Materials Science and Engineering )、土木與環境工程學系(Civil and Environmental Engineering )、機械工程學系(Environmental Engineering )和生物工程學系(Bioengineering )建立跨系所之學術研究合作關係。

⭕ 主要研究主題以軟物質化學或物理方面，應用於生醫醫材和替 代性能源領域(soft matter chemistry and physics for applications in biomedical devices or alternative energy)。其研究運用的技術則包括：(1) 利用水膠、磷脂質和其他生物分子的組織工程或生物感測器設計(tissue engineering or bioanalytical device design using hydrogels, phospholipids and other biomolecules) ，或 (2) 奈米結構共聚物所產生之高性能離子交換膜應用於燃料電池(high performance ion transport membranes from nanostructured copolymers for fuel cells or battery electrolytes)之研究。

⭕ 詳細資訊請上史丹佛大學工學院(http://engineering.stanford.edu/about)或史丹佛大學化工系 (http://cheme.stanford.edu/about/department-overview)查詢。

🔸執行單位：LEAP博士創新之星計畫辦公室
🔸聯絡電話：(02)2737-7203, (02)2737-7051
🔸電子信箱：leap@stpi.narl.org.tw

Nature Reviews Endocrinology: Stromal cells and stem cells have been successfully used for bone-tissue-engineering applications in clinical trials; however, the routine use of these cells is far from being adopted into clinical practice. In this Review, Warren Grayson and colleagues discuss the scientific, technical, practical and regulatory obstacles that are preventing the widespread therapeutic use of stromal cells and stem cells to enhance skeletal repair. http://bit.ly/1Bvd4jQ (£)

Tin vui cho các bạn chuyên ngành Công Nghệ Sinh Học (CNSH) và Công Nghệ Thực Phẩm (CNTP). Bạn mình đang theo học chương trình thạc sĩ CNSH ở Hàn Quốc ( bạn í ở đấy gần 3 năm rồi) vừa mới gửi cho mình thông tin học bổng như sau: DU HỌC HÀN QUỐC 2014 CHUYÊN NGÀNH CÔNG NGHỆ SINH HỌC VÀ CÔNG NGHỆ THỰC PHẨM TẠI ĐẠI HỌC TỔNG HỢP SEJONG, HÀN QUỐC (MASTER AND DOCTORATE) Phỏng vấn (3hpm-5hpm tại Khoa Sinh học, ĐHKHTN, ĐHQG).... các chuyên ngành tham khảo dưới đây:
1.Dept. of Biotechnology Laboratory (Professor) : Molecular Pharmacology (Na Gyong Lee, Ph.D.)
Degree : Master/DoctorateIntegration program (1 person) Starting semester : 2014 spring or 2015 spring
Research area - Immune responses to human vaccines - Development of new vaccine adjuvants and human vaccines 2.Laboratory (Professor): Cancer and Stem cell biology (Chun JeihRyu, Ph.D.)
Degree: Doctorate (1 person)
Starting semester: 2014 spring
Research area Our lab is interested in studying various stem cells including human embryonic stem cells and cancer stem cells. Ongoing projects are the isolation and characterization of cell surface molecules on human embryonic stem cells and circulating tumor cells.
3.Laboratory (Professor):Cellular and Molecular Physiology (Eun-Yi Moon, Ph.D.)
Degree: Doctorate (1 person)
Starting semester: 2014 spring or 2014 Fall / 2015 spring or 2015 Fall
Research area Graduate students who study at the cellular and molecular physiology laboratory investigate ways to study cell migration of various cell types, tumor metastasis and inflammation, especially signal transduction, cytoskeletal reorganization and cytokine network using various in vitro and in vivo technologies. In addition, we develop anticancer drug and anti-inflammatory drug using various in vitro and in vivo assay methods.
4.Laboratory (Professor):Aging and Stem cell therapy lab (Changsung Kim, Ph.D.)
Degree: Master/Doctorate (1 person) Starting semester:2014 Fall
Research area Our lab focuses on a few sectors of research Area with modern stem cell technology. PI has deep knowledge in embryonic stem cell, iPSC, cardiac and neuronal disease pathology and physiology. Most of time we will use patient derived induced pluripotent stem cell to study human disease. Also we are increasing our research sector to use gene editing mediated stem cell therapy. 5.Laboratory (Professor): Cellular and Molecular Immunology Lab (Seokman Hong, Ph.D.)
Degree: Doctorate (1 person)
Starting semester: 2014 Fall / 2015 spring Research area We are interested in studying the function of immune regulatory cells such as natural killer T cells and regulatory T cells in autoimmune and allergic diseases (experimental autoimmune encephalomyelitis, inflammatory bowel diseases, atopic dermatitis) using various gene-modified murine models.
6. Laboratory (Professor) : Cell and Tissue Engineering Lab (Duk Jae Oh, Ph.D.)
Degree : Master(1 person) / Doctorate (1 person)
Starting semester: 2014 Fall / 2015 spring
Research area - Bioprocess development for animal cell technology including bioreactor operation, therapeutic protein production and collaboration with Korean industries - Gene therapy using non-viral gene delivery system Dept. of Food Science & Technology
7. Laboratory (Professor):Nano-Technology(Sang-HoonKo, Ph.D.) Degree : Master (1 person)
Starting semester: 2014 Spring or Fall / 2015 spring Research area Graduate students who study at the Food Nanotechnology Laboratory investigate ways to improve bioavailability and bioactivity of food ingredients, especially functional foods using nano and microencapsulation technology. In addition, we develop prototype food products using value-added technologies.
8. Laboratory (Professor):Food processing, Engineering, Rheology (Su-Yong Lee, Ph.D.)
Degree : Master (1 person)
Starting semester: 2014 Fall / 2015 spring or Fall
Research area - Environment-friendly cereal processing - Low-fat and low-calorie food applications - Novel food rheological technology
9. Laboratory (Professor): Food metabolism and Toxicology (Soon-Mi Shim, Ph.D.)
Degree : Master (1 person)/ Doctorate (1 person)
Starting semester: 2015 spring or Fall
Research area - Understanding aspects of absorption and metabolism of plant secondary metabolites. Particularly the flavonoids and phenolic acids, and how the metabolism influences biological effects. - Utilization of the systems of food processing to enhance bioavailability of plant secondary metabolites. Ultimately foremost to development of novel foods with enhanced health-related properties. - Understanding the impact of plant secondary metabolites on improving colon health. - Understanding how interactions between plant secondary metabolites con modify bioavailability and toxicity of toxic components found in food stuff, especially between flavonoids and heavy metals.

Source: st