Biocompatible Materials for Medical Equipment Engineering

Major: Biomedical Engineering (Internet of Things)
Code of subject: 6.163.03.E.91
Credits: 5.00
Department: Electronics and Information Technology
Lecturer: Cornelia. C. Tovstyuk
Semester: 7 семестр
Mode of study: денна
Learning outcomes: Understanding of the role and place of biomedical engineering materials in practical biotechnology tasks. Ability to make experimental research on the properties of materials, and analyze them and the obtained the data; Ability to reconcile scientific problems with technical achievements in the field of material science. Understanding the technical advances in the technology of obtaining the materials with the necessary properties
Required prior and related subjects: Physics (Mechanics, Electrostatics, Electrodynamics, Optics Mathematical analysis (Differential and integral calculus) Differential Equations and equation of mathematical physics (Ordinary differential equations and partial differential equations) Software tools in information technology (Functional features of the packages of applied computer mathematics applications)
Summary of the subject: Modern materials in biomedicine and materials of systems reconstruction. Materials of natural and artificial origin: metals, ceramics, synthetic and natural polymers, various composites, and others. Biomaterials. Requirements for medical supplies. Implants. Materials for heart valves. Stents Reconstruction of the biliary tract. Biostable implants. Suture material. Material of the mammary glands. Endoprosthesis of the tendon. Prosthetics of bone tissue. Materials of artificial organs. Artificial kidney. Artificial lungs. Prosthetics of the organs of vision. Reconstruction of the organ of hearing. Artificial heart Reconstruction of the hybrid liver. Artificial pancreas. Olfactory. Larynx. Methods of studying the medical supplies. Requirements to medical materials and test evaluation system. A complex of necessary mechano-physical and biocompatible properties. Biocompatible materials for contact with blood. Criteria for evaluating the biomaterials. Test program of medical products. Control and attestation of materials and premises. Physical and physicochemical methods of research of polymers of medical purpose. IR -, UV-spectroscopy. Spectroscopy of nuclear magnetic resonance. Mass spectroscopy. Thermography DTA, TG. X-ray structural analysis
Assessment methods and criteria: Semester Test – 100 points: control over the work in the semester - 30 points, task resolution - 70 points
Recommended books: Уварова І.В.,Максименко В.Б. Біосумісні матеріали для медичних виробів/ Навчальний посібник ФБМІ НТУУ «КПІ» – Київ: КІМ, 2013 – 232 с. Chandra P. Sharma: Biomaterials and Artificial Organs: Few Challenging Areas. Trends Biomater. Artif. Organs, Vol 18 (2), January 200 Black, J.: The Education of the Biomaterialist: Report of a Survey. Journal of Biomedical Materials Research; 16, 159-167 (1982). 3. Brash, J. L. and Lyman, D. J.: Adsorption of Plasma Proteins in Solution to Uncharged, Hydrophobic Polymer Surfaces. Journal of Biomedical Materials Research; 3, 175-189 (1969). 4. N. Scharnagl, S. Lee, B. Hiebl, A. Sisson, A. Lendlein, J. Mater. Chem. 2010, 20, 8789-8802. 5. L.G. Griffith: Polymeric Biomaterials. Acta mater. 48 (2000) 263±277. 6. Isikli, C., Hasirci, V. & Hasirci, N. 2012, "Development of porous chitosan/gelatin/hydroxyapatite composite scaffolds for hard tissue-engineering applications", Journal of Tissue Engineering and Regenerative Medicine, vol. 6, no. 2, pp. 135-143. 7. Andres Diaz Lantada: Handbook of Active Materials for Medical Devices: Advances and Applications. Pan Stanford Publishing Pte. Ltd; ISBN 978-981-4303-36-1. 8. Andres Diaz Lantada: Handbook of Active Materials for Medical Devices: Advances and Applications. Pan Stanford Publishing Pte. Ltd; ISBN 978-981-4303-36-1. 9. D. Dowson, Friction and Wear of Medical Implants and Prosthetic Devices, Friction, Lubrication, and Wear Technology, Vol 18, ASM Handbook, ASM International, 1992, p 656–664 10. R.D. Lambert and M.E. Anthony, Standardization in Orthopaedics, ASTM Stand. News, Aug 1995, p 22–29 11. P.M. Galletti, Organ Replacement by Man Made Devices. J. Cardiothoracic Vascular Anesthesia, Vol 7 (No. 5), Oct 1993, p 624– 628 12. D. Williams, An Introduction to Medical and Dental Materials, Concise Encyclopedia of Medical & Dental Materials, D. Williams, Ed., Pergamon Press and The MIT Press, 1990, p xvii–xx 13. Marilyn Haddrill. "Crystalens & Accommodating Intraocular Lenses for Cataract Surgery". All About Vision. Retrieved 2010-05-11. 13. 14. Macsai et al. Visual outcomes after accommodating intraocular lens implantation. J Cataract Refract Surg. 2006 Apr; 32(4): 628-33. 15. Kfron N. Contact Lens Complications 2nd edition. Oxford