LF:VSFY0321s Physiology I - seminar - Course Information
VSFY0321s Physiology I - seminar
Faculty of MedicineAutumn 2009
- Extent and Intensity
- 0/1/0. 4 credit(s). Type of Completion: z (credit).
- Teacher(s)
- MUDr. Mohamed Al-Kubati, CSc. (seminar tutor)
doc. MUDr. Alena Damborská, Ph.D. (seminar tutor)
MUDr. Petr Lokaj, Ph.D. (seminar tutor)
prof. MUDr. Marie Nováková, Ph.D. (seminar tutor)
MUDr. Zuzana Nováková, Ph.D. (seminar tutor)
doc. MUDr. Robert Roman, Ph.D. (seminar tutor)
doc. MUDr. Zdeněk Wilhelm, CSc. (seminar tutor)
MUDr. Bc. Eva Závodná, Ph.D. (seminar tutor)
Mirka Hanousková (assistant) - Guaranteed by
- prof. MUDr. Nataša Honzíková, CSc.
Department of Physiology – Theoretical Departments – Faculty of Medicine - Timetable of Seminar Groups
- VSFY0321s/01: Mon 21. 9. to Fri 25. 9. Tue 13:00–15:40 249, Mon 12. 10. to Fri 16. 10. Tue 13:00–15:40 249, Sun 1. 11. to Fri 6. 11. Tue 13:00–15:40 249, Mon 23. 11. to Fri 27. 11. Tue 13:00–15:40 249
VSFY0321s/02: Mon 21. 9. to Fri 25. 9. Tue 13:00–15:40 249, Mon 12. 10. to Fri 16. 10. Tue 13:00–15:40 249, Sun 1. 11. to Fri 6. 11. Tue 13:00–15:40 249, Mon 23. 11. to Fri 27. 11. Tue 13:00–15:40 249
VSFY0321s/03: Mon 21. 9. to Fri 25. 9. Tue 13:00–15:40 249, Mon 12. 10. to Fri 16. 10. Tue 13:00–15:40 249, Sun 1. 11. to Fri 6. 11. Tue 13:00–15:40 249, Mon 23. 11. to Fri 27. 11. Tue 13:00–15:40 249
VSFY0321s/04: Mon 21. 9. to Fri 25. 9. Tue 13:00–15:40 249, Mon 12. 10. to Fri 16. 10. Tue 13:00–15:40 249, Sun 1. 11. to Fri 6. 11. Tue 13:00–15:40 249, Mon 23. 11. to Fri 27. 11. Tue 13:00–15:40 249
VSFY0321s/05: Tue 29. 9. to Fri 2. 10. Tue 13:00–15:40 249, Mon 19. 10. to Fri 23. 10. Tue 13:00–15:40 249, Mon 9. 11. to Fri 13. 11. Tue 13:00–15:40 249, Mon 30. 11. to Fri 4. 12. Tue 13:00–15:40 249
VSFY0321s/06: Tue 29. 9. to Fri 2. 10. Tue 13:00–15:30 249, Mon 19. 10. to Fri 23. 10. Tue 13:00–15:40 249, Mon 9. 11. to Fri 13. 11. Tue 13:00–15:40 249, Mon 30. 11. to Fri 4. 12. Tue 13:00–15:40 249
VSFY0321s/07: Mon 21. 9. to Fri 25. 9. Tue 15:45–18:15 249, Mon 12. 10. to Fri 16. 10. Tue 15:45–18:15 249, Sun 1. 11. to Fri 6. 11. Tue 15:45–18:15 249, Mon 23. 11. to Fri 27. 11. Tue 15:45–18:15 249
VSFY0321s/08: Mon 21. 9. to Fri 25. 9. Tue 15:45–18:15 249, Mon 12. 10. to Fri 16. 10. Tue 15:45–18:15 249, Sun 1. 11. to Fri 6. 11. Tue 15:45–18:15 249, Mon 23. 11. to Fri 27. 11. Tue 15:45–18:15 249
VSFY0321s/09: Tue 29. 9. to Fri 2. 10. Tue 13:00–15:40 249, Mon 19. 10. to Fri 23. 10. Tue 13:00–15:40 249, Mon 9. 11. to Fri 13. 11. Tue 13:00–15:40 249, Mon 30. 11. to Fri 4. 12. Tue 13:00–15:40 249
VSFY0321s/10: Tue 29. 9. to Fri 2. 10. Tue 13:00–15:40 249, Mon 19. 10. to Fri 23. 10. Tue 13:00–15:40 249, Mon 9. 11. to Fri 13. 11. Tue 13:00–15:40 249, Mon 30. 11. to Fri 4. 12. Tue 13:00–15:40 249
VSFY0321s/11: Mon 21. 9. to Fri 25. 9. Tue 15:45–18:15 249, Mon 12. 10. to Fri 16. 10. Tue 15:45–18:15 249, Sun 1. 11. to Fri 6. 11. Tue 15:45–18:15 249, Mon 23. 11. to Fri 27. 11. Tue 15:45–18:15 249
VSFY0321s/12: Mon 21. 9. to Fri 25. 9. Tue 15:45–18:15 249, Mon 12. 10. to Fri 16. 10. Tue 15:45–18:15 249, Sun 1. 11. to Fri 6. 11. Tue 15:45–18:15 249, Mon 23. 11. to Fri 27. 11. Tue 15:45–18:15 249
VSFY0321s/13: Mon 5. 10. to Fri 9. 10. Tue 13:00–15:40 249, Mon 26. 10. to Fri 30. 10. Tue 13:00–15:40 249, Mon 16. 11. to Fri 20. 11. Tue 13:00–15:40 249, Mon 7. 12. to Fri 11. 12. Tue 13:00–15:40 249
VSFY0321s/14: Mon 5. 10. to Fri 9. 10. Tue 13:00–15:40 249, Mon 26. 10. to Fri 30. 10. Tue 13:00–15:40 249, Mon 16. 11. to Fri 20. 11. Tue 13:00–15:40 249, Mon 7. 12. to Fri 11. 12. Tue 13:00–15:40 249
VSFY0321s/15: Mon 5. 10. to Fri 9. 10. Tue 13:00–15:40 249, Mon 26. 10. to Fri 30. 10. Tue 13:00–15:40 249, Mon 16. 11. to Fri 20. 11. Tue 13:00–15:40 249, Mon 7. 12. to Fri 11. 12. Tue 13:00–15:40 249
VSFY0321s/16: Mon 5. 10. to Fri 9. 10. Tue 13:00–15:40 249, Mon 26. 10. to Fri 30. 10. Tue 13:00–15:40 249, Mon 16. 11. to Fri 20. 11. Tue 13:00–15:40 249, Mon 7. 12. to Fri 11. 12. Tue 13:00–15:40 249
VSFY0321s/17: Tue 29. 9. to Fri 2. 10. Tue 15:45–18:15 249, Mon 19. 10. to Fri 23. 10. Tue 15:45–18:15 249, Mon 9. 11. to Fri 13. 11. Tue 15:45–18:15 249, Mon 30. 11. to Fri 4. 12. Tue 15:45–18:15 249
VSFY0321s/18: Tue 29. 9. to Fri 2. 10. Tue 15:45–18:15 249, Mon 19. 10. to Fri 23. 10. Tue 15:45–18:15 249, Mon 9. 11. to Fri 13. 11. Tue 15:45–18:15 249, Mon 30. 11. to Fri 4. 12. Tue 15:45–18:15 249
VSFY0321s/19: Mon 5. 10. to Fri 9. 10. Tue 15:45–18:15 249, Mon 26. 10. to Fri 30. 10. Tue 15:45–18:15 249, Mon 16. 11. to Fri 20. 11. Tue 15:45–18:15 249, Mon 7. 12. to Fri 11. 12. Tue 15:45–18:15 249
VSFY0321s/20: Mon 5. 10. to Fri 9. 10. Tue 15:45–18:15 249, Mon 26. 10. to Fri 30. 10. Tue 15:45–18:15 249, Mon 16. 11. to Fri 20. 11. Tue 15:45–18:15 249, Mon 7. 12. to Fri 11. 12. Tue 15:45–18:15 249
VSFY0321s/30: No timetable has been entered into IS.
VSFY0321s/31: No timetable has been entered into IS.
VSFY0321s/32: No timetable has been entered into IS.
VSFY0321s/33: No timetable has been entered into IS. - Prerequisites (in Czech)
- VSLC011p Med.Chem.- lecture && VSBI0222p Biology II - lecture && ( STBF011p Biophysics || VLBF011p Biophysics-lect. ) && VSBC0221s Biochemistry I sem
- 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
- Stomatology (programme LF, M-ST)
- General Medicine (eng.) (programme LF, M-VL)
- General Medicine (programme LF, M-VL)
- Course objectives
- After finishing the course, students will be able to understand the terms used in general and systemic physiology of man. Students will acquire knowledge necessary for analysis and subsequent interpretation of phenomena taking place on cell, tissue and organ levels as well as on the level of whole human organism.
- Syllabus
- Program of turorials:
- Intercellular contact Mechanical, electrical and humoral coupling, ligands and receptors. Second messengers.
- Resting membrane potential Na/K ATP-ase, diffusion currents, electro-chemical gradient, equilibrium potential. Physiological importance of resting membrane potential.
- Action potential Local responses, selective conductivity of membrane channels, mechanism of depolarization, transpolarization and repolarization.
- Principles of muscle contraction. Contractile proteins, troponin and tropomyosin, role of calcium, mechanism of relaxation. Differences between smooth, skeletal and heart muscle.
- Interpretation of the ECG curve a) Electric field of the heart as a vector ( source, determinants, projection on the body surface )
- b) Limb and chest leads ( bipolar, unipolar )
- c) Construction of the mean electrical axis of the heart ( Eindhoven triangle, paralelogram )
- d) Diagnostic value of ECG
- Cardiac cycle
- a) Phases of cardiac cycle and their time course ( polygram, intracardiac pressures, heart volume, heart sounds )
- b) Phases of cardiac cycle in pressure / volume representation ( effect of changes in preload and afterload )
- Autoregulation of cardiac functions
- a) Starling principle
- b) Effect of frequency on contractility
- c) Effect of frequency on the duration of action potential ( Q-T interval )
- Heart as a muscle
- a) Cardiac contractility and its measurement
- b) Stroke scheme, cardiac output, ejection fraction
- c) Cardiac energetics
- Coronary circulation
- a) Anatomy and functional features (specialties)
- b) Regulation of coronary flow
- c) Coronary reserve and ischaemic heart disease
- Rheology (of blood circulation)
- a) Resistance and capacitance vessels
- b) Poisseuiles law, Laplaces law
- c) Blood pressure in separate ( different ) parts of blood circulation
- Immune mechanisms
- 1) Development of the immune system. T lymphocytes, B lymphocytes, memory T and B cells, antigen presenting cells. Clones.
- 2) Cellular immunity. Major histocompatibility complex. NK cells, T4 helper cells, T8 killer cells, T8 suppressor cells.
- 3) Humoral immunity. Immunoglobulins IgG, IgA, IgM, IgE.
- 4) The complement system. C1 - C9. Properdin.
- 5) Lymphokines and cytokines. IL 1, IL 2, IL 3. Colony stimulating factors, GM - CSF. Interferons. Tumor necrosis factor.
- Literature
- GANONG, William F. Přehled lékařské fyziologie. 20. vyd. Praha: Galén, 2005, xx, 890. ISBN 8072623117. info
- GANONG, William F. Review of medical physiology. 22nd ed. New York: Lange Medical Books/McGraw-Hill, 2005, xii, 912. ISBN 0071440402. info
- SILBERNAGL, Stefan and Agamemnon DESPOPOULOS. Atlas fyziologie člověka. 6. vyd., zcela přeprac. a r. Praha: Grada, 2004, xiii, 435. ISBN 802470630X. info
- GUYTON, Arthur C. and John E. HALL. Textbook of medical physiology. 11th ed. Philadelphia: Elsevier Saunders, 2006, xxxv, 1116. ISBN 0721602401. info
- DESPOPOULOS, Agamemnon and Stefan SILBERNAGL. Color atlas of physiology. Translated by Suzyon O'Neal Wandrey. 5th ed., completely rev. and. Stuttgart: Thieme, 2003, xiii, 436. ISBN 1588900614. info
- Teaching methods
- Tuition is done in the form of seminar. Students should read the literature of particular area of physiology, and they prepare their own presentation of the topic. During the seminars, students present the topics and intensify their knowledge in discussion with the teacher.
- Assessment methods
- The course-unit credit is conditioned by full attendance in the seminars.
- Language of instruction
- Czech
- Follow-Up Courses
- Further comments (probably available only in Czech)
- Study Materials
Information on completion of the course: Absolvování seminářů je podmínkou k udělění zápočtu.
The course is taught annually. - Teacher's information
- http://www.med.muni.cz/fyziol
- Enrolment Statistics (Autumn 2009, recent)
- Permalink: https://is.muni.cz/course/med/autumn2009/VSFY0321s