BİOMATBIOMATERIALS AND TISSUE ENGINEERING RESEARCH LABORATORY


BIO 584 - Advanced Biomaterials

 

Credits:  (3-0) 3
Prerequisite:  Consent of the Instructor

 

Goals:

 

The most important and novel topics of the biomaterials field are studied in the form of discussion using the latest literature: Testing of biomaterials, biostability, mechanisms of degradation, bio-and hemocompatibility of materials, sterilization of biomedical devices, cell-biomaterial interactions, drug delivery via biodegradable vehicles, hard and soft tissue augmentation, implants, dental applications and bone cements, tissue engineering, biomedical instrumentation and imaging.

 

Course Outline:

 

  • A Review of Basic Biomaterials Concepts - 2 h
  • Testing of Biomaterials- Physical, Chemical, and Biological (in situ, in vitro, in vivo and clinical) testing methods- 2 weeks
  • Biostability, Mechanisms of Degradation and Biodegradable Materials -1 week
  • Biocompatibility and Hemocompatibility, and Routes of Improvement - 1week
  • Sterilization of Biomedical Devices - 2h
  • Tissue Engineering and Cell-Biomaterials Interactions - Cartilage, tendon, nerve guide, liver - 2 weeks
  • Drug Delivery - 1 week
  • Soft Tissue Augmentation- 1 week
  • Hard Tissue Implants and Bone Cements- 4h
  • Dental Applications-2h
  • Biomedical Instrumentation and Imaging - 1week

Biotechnology and Biomaterials-2h
Total: 13 weeks

 

Reference Book(s) and Papers:

 

  • Principles of Tissue Engineering, R.P.Lanza, R. Langer, W.L.Chick, Academic Press, 1997
  • Human Biomaterials Applications, D.L.Wise, et al., Humana Press, 1996
  • Polymeric Biomaterials, S.Dimitriu, Marcel Dekker, 1993
  • Biodegradable Implants in Fracture Fixation, L. Kwok-sui et al.,World Scientific, 1994

 

Reference Journals:

 

Biomaterials incorporating Clinical Applications, J. Controlled Release , J. Materials Science: Materials in Medicine, Biomaterials, Tissue Engineering, J. Biomaterials Science: Polymer Edition.