Lectures (Video)
- 1. What Is Biomedical Engineering?
- 2. What Is Biomedical Engineering? (cont.)
- 3. Genetic Engineering
- 4. Genetic Engineering (cont.)
- 5. Cell Culture Engineering
- 6. Cell Culture Engineering (cont.)
- 7. Cell Communication and Immunology
- 8. Cell Communication and Immunology (cont.)
- 9. Biomolecular Engineering: Engineering of Immunity
- 10. Biomolecular Engineering: Engineering of Immunity (cont.)
- 11. Biomolecular Engineering: General Concepts
- 12. Biomolecular Engineering: General Concepts (cont.)
- 13. Cardiovascular Physiology
- 14. Cardiovascular Physiology (cont.)
- 15. Cardiovascular Physiology (cont.)
- 16. Renal Physiology
- 17. Renal Physiology (cont.)
- 18. Biomechanics and Orthopedics
- 19. Biomechanics and Orthopedics (cont.)
- 20. Bioimaging
- 21. Bioimaging (cont.)
- 22. Tissue Engineering
- 23. Tissue Engineering (cont.)
- 24. Biomedical Engineers and Cancer
- 25. Biomedical Engineers and Artificial Organs
Frontiers of Biomedical Engineering - Lecture 22
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Lecture 22 - Tissue Engineering
Professor Saltzman motivates the need for tissue engineering, and describes the basic elements of the tissue engineering approach. Professor Saltzman defines three different types of tissue transplants: autografts, allografts, and xenografts. An online resource for organ donors/recipients is presented, which stresses the great need for donors, and the important contribution of tissue engineering in producing/growing organs that can be used for this purpose. Next, Professor Saltzman compared drug and gene therapy, and discusses the use of stem cell in tissue engineering for wound healing. The need for compatible biomaterials to support growth and differentiation of stem cells into functional organ is also highlighted.
Prof. W. Mark Saltzman
BENG 100 Frontiers of Biomedical Engineering, Spring 2008 (Yale University: Open Yale) http://oyc.yale.edu Date accessed: 2009-01-06 License: Creative Commons BY-NC-SA |
