Modern measuring and research methods in experimental and clinical medicine (selected chapters)
1207A
2025/26/1
Dr. Dézsi László
A vérkeringési rendszer normális és kóros működésének mechanizmusai
SE Elméleti Orvostudományi Központ
28
0
0
Egyéb
2
1
2025-09-01 17:00:00
Course Director: • Dr. Habil. László Dézsi, Research Associate Professor of Physiology, Semmelweis University Invited Lecturers: • Dr. Iván Füzes, Dipl. Electrical Engineer, Master Tutor of Physiology, Semmelweis University • Dr. Gábor Szénási, Dipl. Biologist, CSc, Scientific Advisor, Semmelweis University • Prof. Ákos Jobbágy, Prof. Emer. of Electrical Engineering, Budapest Univ. of Technology and Economics • Dr. György L. Nádasy, Associate Professor of Physiology, Semmelweis University • Dr. Adél Bihari, Medical Specialist, Hungarian Defense Forces • Dr. Dániel Kulin, Chief Operating Officer, E-Med4All Europe Ltd. • Dr. Ákos Pethő, Associate Professor of Nephrology, Semmelweis University Detailed Program: September 8. Introduction. Biomedical engineering. Measurements of blood gases and the acid-base balance (Dr. Dézsi) September 15. Experimental study of pulmonary function. (Dr. Dézsi) September 22. Computerized data acquisition and analysis. Telemetry systems. (Dr. Dézsi 5:00-5:45 pm, Dr. Szénási 5:45-6:30 pm) September 29. General metrology. Basics of measurement and control theory. Design and safety requirements of biomedical equipment. (Dr. Füzes) October 6. Adaptive processes in the cardiovascular system. Investigative methods in experimental angiology (Dr. Nádasy) October 13. Investigating the electrical activity of the heart. Design of ECG amplifiers (Dr. Füzes) October 20. Direct and indirect methods to determine cardiac output and peripheral blood flow (Dr. Dézsi) October 27. Measuring methods of speech and phonation. Phoniatrics (Dr. Bihari 5:00-5:45 pm). Sampling of continuous signals. Digitizing analogue signals (Dr. Füzes 5:45-6:30 pm) November 3. Neurophysiological measurements (action potentials, brain stem evoked potentials). Objective studies in audiology (Dr. Füzes) November 10. Home monitoring of cardiovascular health status (Dr. Jobbágy 5:00-5:45 pm). Determination of blood and tissue glucose concentrations (Dr. Dézsi 5:45-6:30 pm) November 17. Measuring blood pressure in the lab and clinics (invasive and noninvasive methods) (Dr. Füzes 5:00-5:45 pm). Non-invasive cardiovascular and pregnancy monitoring via remote pulse wave analysis (Dr. Kulin 5:45-6:30 pm) November 24. Studying brain function by functional imaging systems. The linear CT method (Dr. Füzes) December 1. Complement-related immunological and cardiopulmonary responses (CARPA) (Dr. Szénási 5:00-5:45 pm). Acute reactions during hemodialysis (clinical & experimental) (Dr. Pethő 5:45-6:30 pm) December 8. Experimental methods to study pain and nociception (Dr. Dézsi) Final exam (following the lecture) (Dr. Dézsi & Dr. Füzes)
Detailed Program: 1. Introduction. Biomedical engineering (Dr. Dézsi). Design and safety requirements of biomedical equipments (Dr. Füzes) 2. General metrology. Basics of measurement and control theory (Dr. Füzes) 3. Computerized data acquisition and analysis. Telemetry systems (Dr. Dézsi). 4. Sampling of continuous signals. Digitizing analogue signals (Dr. Füzes) 5. Home monitoring of cardiovascular health status (Dr. Jobbágy). Determination of blood glucose and tissue glucose concentrations (Dr. Dézsi) 6. Experimental study of pulmonary function. Measurements of blood gases and the acid-base balance (Dr. Dézsi) 7. Investigating the electrical activity of the heart. Design of ECG amplifiers (Dr. Füzes) 8. Direct and indirect methods to determine cardiac output and peripheral blood flow (Dr. Dézsi) 9. Neurophysiological measurements (action potentials, brain stem evoked potentials) (Dr. Füzes). Measuring methods of speech and phonation. Phoniatrics (Dr. Bihari) 10. Adaptive processes in the cardiovascular system. Investigative methods in experimental angiology (Dr. Nádasy) 11. Measuring blood pressure in the lab and clinics (invasive and noninvasive methods) (Dr. Füzes). 12. Complement-related immunological and cardiopulmonary responses (CARPA) (Dr. Dézsi). Acute reactions during hemodialysis (clinical & experimental) (Dr. Pethő) 13. Studying brain function by functional imaging systems. The linear CT method (Dr. Füzes) 14. Experimental methods to study nociception (Dr. Dézsi) Min. létszám Modern measuring and research methods in experimental and clinical medicine (selected chapters) Elective course for PhD students
Course Director: • Dr. Habil. László Dézsi, Research Associate Professor of Physiology, Semmelweis University Deputy Director: • Dr. Iván Füzes, Dipl. Electrical Engineer, Master Teacher of Physiology, Semmelweis University Invited Lecturers: • Prof. Ákos Jobbágy, Professor of Electrical Engineering, Budapest University of Technology and Economics • Dr. György L. Nádasy, Associate Professor of Physiology, Semmelweis University '• Dr. Adél Bihari, Medical Specialist, Hungarian Defence Forces' '• Dr. Ákos Pethő, Associate Professor of Nephrology, Semmelweis University' The purpose of the course: To review the theory and practice of modern measuring methods in experimental and clinical medicine, and providing practical knowledge to medical students on cardiorespiratoric and neurophysiological measurements. The course is based on but further extends the material delivered during the course of Medical physiology. Throughout the lectures we put an emphasis on potential methodological errors of measurements and examinations, as well as how to avoid them. Acknowledgement of the course: Prerequisite of the course is having Physiology final exam. Regular attendance (maximum 3 absences) is required. Signature in the Index and 2 credit points will be awarded after successful exam. Source: material of the lectures, supplementary literature will be provided by the lecturers.
