LF:BRKR0422p Clinical radiotherapy II - lec - Course Information

BRKR0422p Clinical radiotherapy II - lecture

Extent and Intensity

3/0/0. 1 credit(s). Type of Completion: z (credit).
Taught in person.

Teacher(s)

prof. MUDr. Pavel Šlampa, CSc. (lecturer)
Mgr. Martin Buček (assistant)
Jitka Halouzková (assistant)

Guaranteed by

prof. MUDr. Pavel Šlampa, CSc.
Department of Radiation Oncology – Institutions shared with the Masaryk Memorial Cancer Institute – Faculty of Medicine
Contact Person: Jitka Halouzková
Supplier department: Department of Radiation Oncology – Institutions shared with the Masaryk Memorial Cancer Institute – Faculty of Medicine

Timetable of Seminar Groups

BRKR0422p/A: Thu 8. 4. 7:00–14:50 RAT Vývěska, Fri 9. 4. 7:00–14:50 RAT Vývěska, Mon 12. 4. 7:00–14:50 RAT Vývěska, Tue 13. 4. 7:00–14:50 RAT Vývěska, Wed 14. 4. 7:00–14:50 RAT Vývěska, Thu 15. 4. 7:00–14:50 RAT Vývěska, Fri 16. 4. 7:00–14:50 RAT Vývěska
BRKR0422p/B: Thu 6. 5. 7:00–14:50 RAT Vývěska, Fri 7. 5. 7:00–14:50 RAT Vývěska, Mon 10. 5. 7:00–14:50 RAT Vývěska, Tue 11. 5. 7:00–14:50 RAT Vývěska, Wed 12. 5. 7:00–14:50 RAT Vývěska, Thu 13. 5. 7:00–14:50 RAT Vývěska, Fri 14. 5. 7:00–14:50 RAT Vývěska
BRKR0422p/C: Thu 22. 4. 7:00–14:50 RAT Vývěska, Fri 23. 4. 7:00–14:50 RAT Vývěska, Mon 26. 4. 7:00–14:50 RAT Vývěska, Tue 27. 4. 7:00–14:50 RAT Vývěska, Wed 28. 4. 7:00–14:50 RAT Vývěska, Thu 29. 4. 7:00–14:50 RAT Vývěska, Fri 30. 4. 7:00–14:50 RAT Vývěska
BRKR0422p/D: Thu 20. 5. 7:00–14:50 RAT Vývěska, Fri 21. 5. 7:00–14:50 RAT Vývěska, Mon 24. 5. 7:00–14:50 RAT Vývěska, Tue 25. 5. 7:00–14:50 RAT Vývěska, Wed 26. 5. 7:00–14:50 RAT Vývěska, Thu 27. 5. 7:00–14:50 RAT Vývěska, Fri 28. 5. 7:00–14:50 RAT Vývěska

Prerequisites

BRKR0321p Clinical radiotherapy I - lec && BRKR0321c Clinical radiotherapy I - prac
Fundamentals of radiobiology, biophysics and radiophysics

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

• Radiology Assistant (programme LF, B-SZ)

Course objectives

The course aims to teach students to apply ionizing radiation in all areas of human therapy. Learn how to plan this therapy to choose the optimal application technique. The practical part is under the supervision of an authorized radiologist assistant with appropriate education.

Learning outcomes

• gain teoretical skills • shaping the right habits of department work • respecting all legal provisions and safety and health at work • Can maintain confidential medical information

Syllabus

• 1. Use of clinical dosimetry - methods, meaning, design, personal protection 2. Radiotherapy planning - medical documentation, radiation protocol, radiological simulation, RT simulator, CT simulator, planning CT and MR examinations, determination of irradiation position, markings, irradiated fields and tattoos, photographic and X-ray documentation, fabrication. Radiotherapy Planning in 2D, 3D and 4D, Isodoscopic Plans Using Radiation Passage Modification - Wedges, Individual Blinds and Their Making. Irradiation techniques, fractionation modes. Calculations of simpler irradiation by hand and use of computer technology. 3. X-ray irradiators - devices and their operation, work safety. Current status and possibilities of X-ray and surface radiation, indications, apparatus construction, tubes, radiation reproduction and patient settings. Keeping documentation, instructions for patients, treatment of acute and chronic changes after irradiation. 4. Megavolt irradiators - radionuclide (cesium, cobalt) and accelerators. The composition and operation of individual instruments, safety regulations and statutory provisions. Patient settings including fixation aids, reproduction of irradiation conditions, documentation management, use of wedges, blocks and boluses. Static and movement irradiation, isocentric. Ensuring patient co-operation, communicating with patients, including instructions for dealing with acute and chronic overdose changes. 5. Brachyradiotherapy - planning, use, methods of introducing radiators. Documentation management, X-ray snapshot. Afterloading techniques, preparation before application. The most common BRT indications. Safety Regulations, Emergency Plan, and Operating Regulations. 6. Verification of radiation - in vivo dosimetric verification, images on the BEV and DRR correlation irradiation, portal imaging. Modern radiotherapy techniques - IMRT, IGRT, stereotactic irradiation, TBI, hadron therapy.

Literature

recommended literature
• ŠLAMPA, Pavel, J. PETERA and M. VOŠMIK. Principy radiační onkologie (Principles of radiaton oncology). In Klinická a radiačná onkológia. 1. vydání. Martin: Osveta, 2010, p. 351-397. 2. díl. ISBN 978-80-8063-302-8. info
• HYNKOVÁ, Ludmila, Pavel ŠLAMPA, BURKOŇ, Irena ČOUPKOVÁ and Pavel TOBIÁŠ. Radiační onkologie - učební texty. 1st ed. Brno: Masarykův onkologický ústav Brno, 2009, 242 pp. ISBN 978-80-86793-13-9. info

Teaching methods

Lectures

Assessment methods

Credit

Language of instruction

Czech

Follow-Up Courses

• BRRO0521p Radiation oncology - lecture

Further comments (probably available only in Czech)

The course is taught annually.
Information on the extent and intensity of the course: 45.

Listed among pre-requisites of other courses

• BRRO0521p Radiation oncology - lecture
  BRKR0422p && BRKR0422c  

• Enrolment Statistics (spring 2021, recent)
  
• Permalink: https://is.muni.cz/course/med/spring2021/BRKR0422p