Data
Official data in SubjectManager for the following academic year: 2019-2020
Course director
-
Dr. Miklós NYITRAI
professor,
Department of Biophysics -
Number of hours/semester
lectures: 13 hours
practices: 11 hours
seminars: 0 hours
total of: 24 hours
Subject data
- Code of subject: OAF-IET-T
- 2 kredit
- General Medicine
- Optional modul
- autumn
-
Course headcount limitations
min. 5 – max. 200
Available as Campus course for 2 fő számára. Campus-karok: ÁOK ETK KTK MIK TTK
Topic
Giving an interdisciplinary learning approach is essential for the future of health care professionals. In the recent decades, information technology has become an everyday tool for the medical practice, and many new, innovative technology started to form and revolutionize the patient care. The course is designed to provide students with insight into the world of shaping our future doctors and technical developments, and familiarize themselves with the procedures and means by which they will encounter later in their work.
Lectures
- 1. Introduction, famous innovators, leading medical technologies - Dr. Nyitrai Miklós
- 3. Medical simulation education - Dr. Maróti Péter Dezső
- 5. 3D printing in medicine (polymers, metals) - Dr. Maróti Péter Dezső
- 7. Robotics in healthcare - robotic surgery, myoelectric prosthesis, assistive devices - Dr. Maróti Péter Dezső
- 9. Human-machine interface (HMI): human exoskeletons - Dr. Maróti Péter Dezső
- 11. Medical 3D visualization and image processing - Dr. Nyitrai Miklós
- 13. Innovative materials in healthcare ("smart materials" biocompatible materials) - Dr. Maróti Péter Dezső
- 15. Electronic and mobile healthcare solutions (e-health / m-health) - Dr. Maróti Péter Dezső
- 17. Innovative patient-care, patient management and infrastructure - Dr. Maróti Péter Dezső
- 19. 3D Bioprinting: tissue printing - Dr. Nyitrai Miklós
- 21. Innovation management in healthcare - Dr. Maróti Péter Dezső
- 22. Innovation management in healthcare - Dr. Maróti Péter Dezső
- 23. Test - Dr. Maróti Péter Dezső
Practices
- 2. Introduction, famous innovators, leading medical technologies
- 4. Medical simulation education
- 6. 3D printing in medicine (polymers, metals)
- 8. Robotics in healthcare - robotic surgery, myoelectric prosthesis, assistive devices
- 10. Human-machine interface (HMI): human exoskeletons
- 12. Medical 3D visualization and image processing
- 14. Innovative materials in healthcare ("smart materials" biocompatible materials)
- 16. Electronic and mobile healthcare solutions (e-health / m-health)
- 18. Innovative patient-care, patient management and infrastructure
- 20. 3D Bioprinting: tissue printing
- 24. Test
Seminars
Reading material
Obligatory literature
Literature developed by the Department
Notes
Recommended literature
Dr. Meskó Bertalan: The Guide to the Future of the Medicine, Technology and the Human Touch
Joseph Dyro, Ernesto Ladanza: Clinical Engineering Handbook
Dr. Meskó Betalan: Social Media in Clinical Practice
Dr. Meskó Bertalan: My Health: Upgraded: Revolutionary Technologies to Bring a Healthier Future
Alec Ross: Industries of the Future
Own lecture notes
Conditions for acceptance of the semester
Maximum of 25 % absence allowed
Mid-term exams
Written exam (simple-choice test)
Making up for missed classes
None
Exam topics/questions
Based on lectures
Examiners
Instructor / tutor of practices and seminars
- Dr. Maróti Péter Dezső
- Dr. Nyitrai Miklós