AOBFc general Biophysics

Faculty of Medicine
spring 2023
Extent and Intensity
0/3/0. 3 credit(s). Type of Completion: z (credit).
Teacher(s)
prof. RNDr. Vojtěch Mornstein, CSc. (lecturer)
doc. Mgr. Vladan Bernard, Ph.D. (seminar tutor)
Mgr. Ing. Marek Dostál, Ph.D. (seminar tutor)
MUDr. Lenka Forýtková, CSc. (seminar tutor)
MUDr. Tomáš Jůza (seminar tutor)
MUDr. Věra Maryšková (seminar tutor)
Mgr. Erik Staffa, Ph.D. (seminar tutor)
Mgr. Daniel Vlk, CSc. (seminar tutor)
Mgr. Naděžda Špačková, Ph.D. (assistant)
Marta Vágnerová (assistant)
Guaranteed by
Mgr. Daniel Vlk, CSc.
Department of Biophysics – Theoretical Departments – Faculty of Medicine
Contact Person: Marta Vágnerová
Supplier department: Department of Biophysics – Theoretical Departments – Faculty of Medicine
Timetable of Seminar Groups
AOBFc/A: Tue 14. 2. 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/409, Tue 21. 2. 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/409, Tue 28. 2. 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/409, Tue 7. 3. 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413, Tue 14. 3. 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413, Tue 21. 3. 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/409, Tue 28. 3. 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/409, Tue 4. 4. 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/409, Tue 11. 4. 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414, Tue 18. 4. 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/414, Tue 25. 4. 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/409, Tue 2. 5. 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414, Tue 9. 5. 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/413, Tue 16. 5. 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413, Tue 23. 5. 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413
AOBFc/B: Tue 14. 2. 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413, Tue 21. 2. 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/409, Tue 28. 2. 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/409, Tue 7. 3. 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/409, Tue 14. 3. 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/414, Tue 21. 3. 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/409, Tue 28. 3. 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/409, Tue 4. 4. 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/409, Tue 11. 4. 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/413, Tue 18. 4. 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414, Tue 25. 4. 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/414, Tue 2. 5. 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/409, Tue 9. 5. 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414, Tue 16. 5. 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414, 16:00–18:30 F01B1/409, Tue 23. 5. 16:00–18:30 F01B1/409, 16:00–18:30 F01B1/413, 16:00–18:30 F01B1/414
AOBFc/C: Fri 17. 2. 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/409, Fri 24. 2. 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/414, Fri 3. 3. 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/414, Fri 10. 3. 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/414, Fri 17. 3. 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, Fri 24. 3. 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/409, Fri 31. 3. 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/409, Fri 14. 4. 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/414, Fri 21. 4. 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/409, Fri 28. 4. 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/413, Fri 5. 5. 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/409, Fri 12. 5. 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/409, Fri 19. 5. 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/409, Fri 26. 5. 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/414
AOBFc/D: Fri 17. 2. 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/414, Fri 24. 2. 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, Fri 3. 3. 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, Fri 10. 3. 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/409, Fri 17. 3. 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, Fri 24. 3. 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/409, Fri 31. 3. 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/414, Fri 14. 4. 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/409, Fri 21. 4. 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/409, Fri 28. 4. 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, Fri 5. 5. 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, Fri 12. 5. 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/409, Fri 19. 5. 7:00–9:30 F01B1/409, 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, Fri 26. 5. 7:00–9:30 F01B1/414, 7:00–9:30 F01B1/413, 7:00–9:30 F01B1/409
Prerequisites
Basic knowledge of physics
Course Enrolment Limitations
The course is only offered to the students of the study fields the course is directly associated with.
fields of study / plans the course is directly associated with
Course objectives
At the end of the course students should be able: understand and explain biophysical principles and laws; operate basic biophysical measuring devices; evaluate obtained data by the basic biophysical methods in light of a scientific, effective, safe and efficient attitude to their use; understand principles of the more complex therapeutical and diagnostical medical devices except of imaging methods; discriminate possible usage of the biophysical methods and medical devices in practice;
Learning outcomes
After the finishing of the course students (with orientation on biomedical devices) will:
understand and explain biophysical principles and laws;
operate basic biophysical measuring devices;
evaluate obtained data by the basic biophysical methods;
understand principles of the more complex therapeutical and diagnostical medical devices except of imaging methods;
discriminate possible usages of the biophysical methods and medical devices in practice;
Syllabus
  • Practical exercises on biophysics
  • 1. Introduction, regulations of practical exercises, laboratory safety rules, etc. An introduction to the theory of measurement.
  • 2. Measurement of liquid viscosity.
  • 3. Measurement of surface tension of liquids
  • 4. Eosin absorption curve. Spectrophotometrical determination of concentration of eosin.
  • 5. Refractometric determination of NaCl concentration. Polarimetry.
  • 6. Audiometry. Measurement of the blood presure. Ergometry.
  • 7. Visual acuity measurement. Measuring enviromental parameters (noise).
  • 8. Haemolysis of erythrocyte suspension by therapeutic ultrasound.
  • 9. Measuring ionising radiation absorption.
  • 10. Electromagnetic radiation and its perception. Measuring the cooling effect of the environment. Catathermometry. Measuring the illuminance, Luxmeter.
  • 11. Contact and contactless thermography. Thermocamera and thermovision. Physiotherapy.
  • 12. Final test.
Literature
    recommended literature
  • HRAZDIRA, Ivo, Vojtěch MORNSTEIN and Jiřina ŠKORPÍKOVÁ. Základy biofyziky a zdravotnické techniky. 1. vydání. Brno: Neptun, 2006, 312 stran. ISBN 8086850013. info
  • HRAZDIRA, Ivo and Vojtěch MORNSTEIN. Lékařská biofyzika a přístrojová technika. Dotisk 1. vyd. Brno: NEPTUN, 2004, 381 s. ISBN 8090289614. info
Teaching methods
Practical exercises
Assessment methods
Basic requirement is the full atendance in the lessons. Theoretical knowledges of the principles used methods are continuously controled by oral examination. For all tasks students must elaborate comprehensive report, these are graded. Course is finished by the multiple choice test consisting usually 20 questions, evaluated by 20 points. For successfully mastered test student need at least 10 points.
Language of instruction
Czech
Further comments (probably available only in Czech)
The course is taught annually.
Information on the extent and intensity of the course: 45.
Teacher's information
http://www.med.muni.cz/biofyz/biomedicina.htm
The course is also listed under the following terms Spring 2009, Spring 2010, Spring 2011, Spring 2012, Spring 2013, Spring 2014, Spring 2015, Spring 2016, Spring 2017, Spring 2018, spring 2019, spring 2020, spring 2021, spring 2022, spring 2024, spring 2025.
  • Enrolment Statistics (spring 2023, recent)
  • Permalink: https://is.muni.cz/course/med/spring2023/AOBFc