Program of Study
:
General Medicine
Course
:
Radiology and Nuclear Medicine
Abbreviation
:
RAD/VA011
Schedule
:
24 hours of lectures
46 hours of exercises
Course Distribution :
4th year
Number of Credits
:
7
Course Form
:
Lectures, exercises
Lectures :
Teachers :
prof. MUDr. Miroslav Heřman, Ph.D.
prof. MUDr. Martin Köcher, Ph.D.
doc. MUDr. Marie Černá, Ph.D.
doc. MUDr. Jana Chmelová, Ph.D.
odb.as. MUDr. Eva Čecháková
odb.as. MUDr. Filip Čtvrtlík, Ph.D.
odb.as. MUDr. Zbyněk Tüdös, Ph.D.
as. MUDr. Martin Hazlinger
as. MUDr. Lucia Veverková
doc. MUDr. Pavel Koranda, Ph.D.
prof. MUDr. Milan Kamínek, Ph.D.
doc. MUDr. Miroslav Mysliveček, Ph.D.
odb. as. Ing. Jaroslav Ptáček
Study :
Block
Department of Nuclear Medicine: 7:30 – 9:45
lecture room (building J3)
Department of Radiology:
lecture room (building B3)
Block Date :
Block Day
1 1.
2 2.
3 3.
I.:
II.:
III.:
IV.:
10:00 – 13:00
23. 11. – 04. 12. 2015
07. 12. – 18. 12. 2015
04. 01. – 15. 01. 2016
23. 05. – 03. 06. 2016
Subject
Basic radiologic and radionuclide
techniques
Ultrasound, CT
Magnetic resonance
No. of
Less.
1
1
1
Teacher
Heřman, Ptáček
Heřman
Heřman
4 4.
5 5.
6 6.
Angiography
Interventional radiology
Imaging of the chest, nuclear
cardiology
Abdominal imaging
Neuroradiology
Imaging of the musculosceletal
system
Imaging of the urogenital system
7 7.
8 8.
9 9.
10 10.
1
1
1
Černá
Köcher
Heřman,
Mysliveček
Köcher
Heřman
Köcher, Kamínek
1
Heřman, Koranda
1
1
1
Exercises :
Leading Teacher :
prof. MUDr. Miroslav Heřman, Ph.D.
Study :
Block
Block Date :
I.:
II.:
III.:
IV.:
Block Day
1 1.
2 2.
3 3.
4 4.
5 5.
6 6.
7 7.
8 8.
9 9.
10 10.
23. 11. – 04. 12. 2015
07. 12. – 18. 12. 2015
04. 01. – 15. 01. 2016
23. 05. – 03. 06. 2016
Subject
Radionuclides and radiopharmaceuticals.
Instrumentation in nuclear medicine.
Radiologic techniques I.
Radiation protection.
Biological effects of ionising radiation.
Radiologic techniques II.
Radionuclide examination in endocrinology.
Radionuclide therapy.
Visit of the department of radiology.
Angiology and imaging of the cardiovascular
system.
Radionuclide studies in heamatology.
Radioimmunoanalysis.
Interventional radiology. Mammology.
Scintigraphy in the detection of tumours and
inflammations.
Imaging of the thorax.
Abdominal imaging.
Radionuclide examinations of CNS.
Neuroradiology.
Imaging of the musculosceletal system.
Imaging of the urogenital tract.
No. of
Less.
6
6
6
6
6
6
6
6
6
6
Evidence Based Medicine principles will be used in topics Imaging of the
thorax and Interventional radiology.
Completed by :
Practicavit and examination
Requirements :
Active and complete attendance at exercises
Literature :
Rockall A.G, Hatrick A., Armstrong P., Wastie M:
Diagnostic Imaging, 7th Ed., Wiley-Blackwell Science Ltd., 2013.
ISBN 978-0470658901
and
Mettler F.A. Jr, Guibertau MJ: Essentials of Nuclear Medicine
Imaging . 6th Edition. Saunders Comp., 2012. ISBN 978-1-45570104-9
QUESTIONS IN RADIOLOGY FOR MEDICAL STUDENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
Contrast media; complications associated with their
application
Radiology of the skeletal system: the normal appearance, the
pathologic changes in general
Skeletal trauma: radiological appearance, healing and
complications of fractures
Inflamatory changes of bones and joints
Degenerative disease of the joints
Radiodiagnostics of bone tumors
Radiodiagnostics of diseases in the neck region
Imaging methods used in the investigation of the respiratory
system: the normal findings
Radiodiagnostics of inflamatory diseases of the lung and the
bronchi
Radiodiagnostics of pulmonary tuberculosis and
pneumoconioses
Radiodiagnostics of tumors of the lung and pleura
Radiodiagnostics of the mediastinum
Radiodiagnostics of the heart: the normal findings
Radiodiagnostics of heart diseases
Radiodiagnostics of pulmonary edema and pulmonary
embolism
Radiogiagnostics of diseases of the arteries
Radiogiagnostics of diseases of the veins and the lymphatics
Angiography: the technique, indications and complications
Noninvasive imaging of the vessels (ultrasound, MRA)
Imaging methods used in the investigation of the
gastrointestinal tract:
the normal appearance and pathology in general
Endovacular interventional methods
Interventional radiology: nonvascular methods
Radiodiagnostics of diseases of the esophagus and stomach
Radiodiagnostics of small and large bowel diseases
Radiodiagnostics of the acute abdomen
Radiodiagnostics of diseases of the pankreas and spleen
27.
28.
29.
30.
31.
32.
33.
34.
35.
36.
37.
38.
39.
40.
Radiodiagnostics of diseases of the liver and billiary system
Imaging methods used in the investigation of the urinary
system
Radiodiagnostics of renal diseases
Radiodiagnostics of the organs in the lesser pelvis
Radiodiagnostics of breast diseases
Imaging methods used in neuroradiology
Sonography: the basics of the technique and important
indications
Sonography of the abdomen
CT: the basics of the technique and important indications
CT of the head: the indications and the common pathological
appearances
CT of the chest and abdomen: indications and the common
pathological findings
Magnetic resonance: MRI, MRA, MRS
MRI of the brain and spine
Pediatric radiology
QUESTIONS IN NUCLEAR MEDICINE FOR MEDICAL STUDENTS
1. Radiation detection in nuclear medicine. Principle of the scintillation detector. Instruments
for in vitro measurements and for in vivo measurements (scintillation camera, SPECT,
PET).
2. Characteristics of radionuclides and radiopharmaceuticals - physical half-life, emitted
radiation and its energy, apyrogenity, sterility, radionuclidic and radiochemical purity.
Principle of radionuclide generator.
3. Biological effects of ionising radiation - stochastic and deterministic effects Radiation
protection of workers and patients in nuclear medicine.
4. Frequently used radiopharmaceuticals, their distribution and kinetics in the body.
5. Nuclear cardiology - stress techniques, diagnosis of coronary artery disease, prognostic
value of cardiac gated SPECT imaging, myocardial viability assessment. First-pass
radionuclide angiocardiography.
6. Perfusion and ventilation lung scintigraphy. Venography.
7. Radionuclide brain imaging.
8. Genitourinary tract: static and dynamic scintigraphy, diuretic renography, detection of
renovascular hypertension, evaluation of renal transplants, cystography.
9. Evaluation of musculoskeletal system.
10. Evaluation of gastrointestinal tract and liver.
11. Radionuclide studies in hematology. Splenic scintigraphy. Bone marrow imaging.
12. Thyroid gland scintigraphy. Therapy of differentiated thyroid carcinomas. Parathyroid
imaging.
13. Radionuclide therapy.
14. Nuclear oncology.
15. Detection of infection and inflammation.