(http://webcast.berkeley.edu/courses.php?semesterid=5)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978214)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978212)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978217)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978218)
(http://webcast.berkeley.edu/courses.php?semesterid=4)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978163)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978171)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978140)
(http://webcast.berkeley.edu/courses.php?semesterid=1)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978130)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978170)
(http://webcast.berkeley.edu/courses.php?semesterid=10)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978227)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978228)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978238)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978239)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978261)
(http://webcast.berkeley.edu/courses.php?semesterid=18)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978265)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978267)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978243)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978238)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978239)
(http://webcast.berkeley.edu/courses.php?semesterid=21)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978335)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978349)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978375)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978371)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978374)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978365)
(http://webcast.berkeley.edu/courses.php?semesterid=22)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978417)
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978385)
This course covers the mechanical and structural aspects of biological tissues and their replacements. Tissue structure and mechanical function are addressed. Natural and synthetic load-bearing biomaterials for clinical and medical applications are reviewed. Biocompatibility of biomaterials and host response to structural implants are examined. Quantitative treatment of biomechanical issues and constitutive relationships of tissues and biomaterials are covered. Material selection for load-bearing applications including reconstructive surgery, orthopedics, dentistry, and cardiology. Mechanical design for longevity including topics of fatigue, wear, and fracture. Use of bioresorbable implants and hybrid materials. Directions in tissue engineering. To watch streaming video of this visit webcast.berkeley.edu/courses.
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978386)
This course covers the mechanical and structural aspects of biological tissues and their replacements. Tissue structure and mechanical function are addressed. Natural and synthetic load-bearing biomaterials for clinical and medical applications are reviewed. Biocompatibility of biomaterials and host response to structural implants are examined. Quantitative treatment of biomechanical issues and constitutive relationships of tissues and biomaterials are covered. Material selection for load-bearing applications including reconstructive surgery, orthopedics, dentistry, and cardiology. Mechanical design for longevity including topics of fatigue, wear, and fracture. Use of bioresorbable implants and hybrid materials. Directions in tissue engineering. To watch streaming video of this visit webcast.berkeley.edu/courses.
(http://webcast.berkeley.edu/course_details.php?seriesid=1906978433)
An introductory survey of cell and developmental biology. The assembly of supramolecular structures; membrane structure and function; the cell surface; cytoplasmic membranes; the cytoskeleton and cell motility; the eukaryotic genome, chromatin, and gene expression; the cell cycle; organelle biogenesis, differentiation, and morphogenesis.