Bioengineering

The course equips students with an understanding of engineering approaches to advanced biomedical imaging. It strongly focuses understanding the physical processes that occur between a particular imaging modality and the biological material being investigated. This course introduces the physical concepts of advanced medical imaging via lectures focused on specific imaging modalities. Lectures cover various imaging techniques to provide an advanced understanding of the physics of the signal and its interaction with biological tissue; image formation or reconstruction; modality-specific issues for image quality; clinical applications; and biological effects and safety. This course uses state-of-the-art emerging imaging modalities in research and engineering approaches to advance such techniques to the clinic.  

This course gives an overview of contemporary approaches to tissue and cell engineering, including stem cells, cellular signaling, biomaterial scaffolds, use of bioreactors in tissue engineering, and controlled release strategies. Students explore ethical considerations related to clinical application of tissue and cell engineering technology. Topics include stem cells, embryogenesis, cellular signaling, extracellular matrix as a scaffold, degradable biomaterials for tissue engineering, cell-material interactions, scaffold design and fabrication, controlled drug release in tissue engineering, bioreactors in tissue engineering, production of mesenchymal stem cells, industrial tissue engineering manufacturing, cartilage tissue engineering, bone tissue engineering, cardiovascular tissue engineering, corneal tissue engineering and replacement, tissue engineering of the intervertebral disc (IVD).