Overview on “Chinese‐Finnish Workshop on Biomanufacturing and Evaluation Techniques”

Overview on “Chinese‐Finnish Workshop on Biomanufacturing and Evaluation Techniques” With the rapid development of modern science and technology, various manufacture and evaluation techniques have been employed in tissue and organ regenerative medicine. A new research area—biomanufacturing—has grown up with the incorporation of life science, materials science, computer science, information technology, and manufacturing technology. Biomanufacturing is a new discipline that uses principles and techniques of manufacturing science and life science to assemble tissues, organs, and artificial products at microscale, cellular, and molecular levels. At present, biomanufacturing has become the advanced technology of manufacturing techniques and a new growth point of industry for biomedical uses. Among existing biomanufacturing techniques, rapid prototyping has played a significant role in recent large bone defect repair, aesthetic and plastic surgery, high‐throughput drug screening, and complex organ manufacturing fields, making great contributions to human health, environmental protection, and sustainable development (1–12) . Research groups all over the world have been very active for over 10 years, while some new groups have just arrived. So, a meeting focused on this field has been strongly recommended. The Chinese‐Finnish Workshop on Biomanufacturing and Evaluation Techniques (2011) was held on April 13–19, 2011 in Tianjin, China with the purpose to bring the related researchers and experts together from http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Artificial Organs Wiley

Overview on “Chinese‐Finnish Workshop on Biomanufacturing and Evaluation Techniques”

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© 2011,Copyright © 2011, International Center for Artificial Organs and Transplantation and Wiley Periodicals, Inc.
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  • Rapid prototyping as a tool for manufacturing bioartificial livers
    Wang, Wang; Yan, Yan; Zhang, Zhang
  • Fabrication of viable tissue‐engineered constructs with 3D cell‐assembly technique
    Yan, Yan; Wang, Wang; Pan, Pan
  • An cell‐assembly derived physiological 3D model of the metabolic syndrome, based on adipose‐derived stromal cells and a gelatin/alginate/fibrinogen matrix
    Xu, Xu; Wang, Wang; Yan, Yan; Yao, Yao; Ge, Ge

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