Clayton Second semester 2008 (Day)
Biocompatibility is explored and is related to the foreign body response. The importance of the interfacial properties of biomaterials is covered and includes factors affecting cellular response and protein adsorption. Polymers and ceramics used in medicine are reviewed with examples including the total hip joint replacement (TFJR), heart valves, catheters and vascular grafts and hydrogels used in ophthalomology. Drug delivery devices are reviewed and include degradation mechanisms and kinetics. Biomaterials with biological recognition and smart biomaterials will be studied. Biosensors and examples in bionanotechnology will be investigated. Tissue engineering and scaffold manufacture is covered and the use of stem cells for regenerative medicine reviewed.
Have a basic understanding of the processes involved in the foreign body response and biocompatibility
Appreciate some factors that affect protein adsorption
Understand the different classes of polymeric biomaterials used in the body.
Be familiar with some of the degradation processes of polymers
Describe some methods of drug delivery
Describe the action and use of smart materials
Be familiar with ceramic materials used in body and some aspects of thermal spraying
Understand some techniques used in tissue engineering including some methods of scaffold manufacture
Understand some techniques commonly used to characterise biomaterial surfaces.
Be able to review a journal article and provide a detailed assessment.
Have an ability to communicate within a team, and submit a group assignment.
Examination (2 hours): 50%
Mid-semester test (1 hour): 20%
Individual assignment: 10%
Group assignment: 10%
Laboratory work:10%
2 hours lectures, 1 hour tutorials, 8 hours of private study per week per week and 6 hours laboratory classes per semester
Must have passed 96 credit points
MTE4539, MTE5596