BRRF0121p Radiological physics and radiobiology (molecular and clinical) - lecture

Faculty of Medicine
autumn 2024
Extent and Intensity
3/0/0. 2 credit(s). Type of Completion: zk (examination).
In-person direct teaching
Teacher(s)
doc. Mgr. Vladan Bernard, Ph.D. (lecturer)
Mgr. Ing. Marek Dostál, Ph.D. (lecturer)
prof. RNDr. Vojtěch Mornstein, CSc. (lecturer)
Jitka Flodrová (assistant)
Jitka Halouzková (assistant)
Marta Vágnerová (assistant)
Guaranteed by
prof. RNDr. Vojtěch Mornstein, CSc.
Department of Biophysics – Theoretical Departments – Faculty of Medicine
Contact Person: Jitka Halouzková
Supplier department: Department of Biophysics – Theoretical Departments – Faculty of Medicine
Timetable
Mon 30. 9. to Fri 20. 12. Mon 12:30–15:00 KOM S117; and Mon 23. 9. 13:00–15:30 F3,03015
Prerequisites
Basic knowledge of high school 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
The course includes description of physical and technical fundamentals of CT, MRI, US and X-ray metods including basic physical derivations in this field. The student should understand the basic principles of the examination methods as introduced above. This course is a starting point to aquire necessary knowledge of technical principles of above methods, their indications and risks.
Learning outcomes
After finishing this course the student is able to derive some physical equations necessary for physical and technical fundamentals of CT, MRI, US a X-ray metods. He/she can imagine basic structure of matter. The student should know the basic principles of examination and should be able to exploit better the information from CT, MRI a US and X-ray images. The course gives deeper understanding of technical principles of individual methods, their indications and risks.
Syllabus
  • An overview of physical background of radiology. Introduction to physics of nucleus, elelectron shell and some aspects of thermodynamics. Structure of matter. Atoms and their quantum properties. Elements of Theory of relativity. Laws of conservation, SI system, units in radiology. Radioactivity. X-rays and gamma rays (origin and interactions). Nuclear magnetic resonance. Image formation in MRI and CT. Image information and its analysis. Physical principles of ultrasound diagnostics. Ultrasound wave properties.
Literature
    recommended literature
  • PODZIMEK, František. Radiologická fyzika : fyzika ionizujícího záření. 1. vydání. V Praze: České vysoké učení technické, 2013, 334 stran. ISBN 9788001053195. info
    not specified
  • NEKULA, Josef. Radiologie. 3. vyd. Olomouc: Univerzita Palackého v Olomouci, 2005, 205 s. ISBN 9788024410111. info
  • VÁLEK, Vlastimil and Jan ŽIŽKA. Moderní diagnostické metody. III.díl Magnetická rezonance. 1.vyd. Brno: Institut pro další vzdělávání pracovníků ve zdravotnictví, 2000, 43 s. ISBN 80-7013-225-6. info
  • ELIÁŠ, Pavel, Petr MÁCA, Jiří NEUWIRTH and Vlastimil VÁLEK. Moderní diagnostické metody. II.díl Výpočetní tomografie. 1. vyd. Brno: Institut pro další vzdělávání pracovníků ve zdravotnictví, 1998, 84 pp. ISBN 80-7013-294-9. info
Teaching methods
Lectures
Assessment methods
The exam is oral. The list of questions is published at the beginning of semester, the students choose two question randomly.
Language of instruction
Czech
Further comments (probably available only in Czech)
Study Materials
Information on the extent and intensity of the course: 45.
Teacher's information
http://www.med.muni.cz/biofyz/radiologieBC.htm
The course is also listed under the following terms Autumn 2008, Autumn 2009, Autumn 2010, Autumn 2011, Autumn 2012, Autumn 2013, Autumn 2014, Autumn 2015, Autumn 2016, Autumn 2017, autumn 2018, autumn 2019, autumn 2020, autumn 2021, autumn 2022, autumn 2023.
  • Enrolment Statistics (recent)
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