Adatok
A Tantárgybejelentőben megadott hivatalos adatok az alábbi tanévre: 2024-2025
Tantárgyfelelős
-
Tóth Arnold
assistant professor,
Faculty of Engineering and Information Technology, Department of Mechanical Engineering
Óraszámok/félév
előadás: 28 óra
gyakorlat: 28 óra
szeminárium: 0 óra
összesen: 56 óra
Tárgyadatok
- Kód: OAK-KRA-T
- 4 kredit
- General Medicine
- Clinical modul
- autumn
OAP-PA2-T finished , OAP-SPR-T finished
Kurzus létszámkorlát
min. 5 fő – max. 150 fő
Tematika
The Medical Student Education Program of the Department of Radiology is active in the fourth year of the medical student curriculum, training not only future radiologists, but also future physicians of all specialties. We realize that most of our students will not be going
into Radiology, but all of our students will be using radiology as a tool in the care of their patients. Our goal is to provide a firm grounding in the basic knowledge and skills of our field as well as instruction on how to interact with radiology and radiologists to get the most benefit for your patients. In addition, the major features and applications of nuclear medicine methods are also integrated in the lectures and clinical practices.
Előadások
- 1.
Introduction, physics, radiation protection
- Bogner Péter - 2.
Nuclear medicine basics, techniques and devices.
- Bódisné Zámbó Katalin - 3.
X-ray devices, CT, nuclear medicine devices
- Bogner Péter - 4.
Radiological techniques
- Bogner Péter - 5.
Chest
- Battyáni István - 6.
Chest - nuclear medicine
- Bódisné Zámbó Katalin - 7.
Cardiovascular system
- Várady Edit - 8.
Cardiovascular system - nuclear medicine
- Bódisné Zámbó Katalin - 9.
Gastrointestinal system
- Faluhelyi Nándor - 10.
Gastrointestinal system - nuclear medicine
- Bódisné Zámbó Katalin - 11.
Neuroradiology
- Rostás Tamás - 12.
CNS - nuclear medicine
- Molnárné Szabó Zsuzsanna - 13.
Head and neck
- Rostás Tamás - 14.
Head and neck- nuclear medicine
- Bán Zsuzsanna - 15.
Musculoskeletal system
- Járay Ákos - 16.
Musculoskeletal system - nuclear medicine
- Dezső Dániel - 17.
Urogenital system
- Tóth András - 18.
Urogenital system - nuclear medicine
- Molnárné Szabó Zsuzsanna - 19.
Emergency radiology I.
- Járay Ákos - 20.
Emergency radiology II.
- Járay Ákos - 21.
Pediatric radiology
- Péleyné Mohay Gabriella - 22.
Pediatric radiology - nuclear medicine
- Bán Zsuzsanna - 23.
Breast, female pelvis
- Bencze Gábor Tamás, Rostás Tamás - 24.
Breast, female pelvis - medicine imaging
- Dezső Dániel - 25.
Vascular intervention I.
- Tóth Arnold - 26.
Vascular intervention II.
- Tóth Arnold - 27.
Non-vascular intervention
- Tóth Arnold - 28.
Radioisotope therapic methods with alpha and beta emitting radiopharmacons.
- Dezső Dániel
Gyakorlatok
- 1.
Introduction to the diagnostic workplaces. Radiation protection.
- 2.
The radiology referral. Indications/contraindications
- 3.
US practice
- 4.
Nuclear medicine workplace.
- 5.
Chest imaging. Interactive practice
- 6.
Chest imaging. Interactive practice
- 7.
Imaging of the cardiovascular system. Practice.
- 8.
Imaging of the cardiovascular system. Practice.
- 9.
Imaging of the gastrointestinal system. Acute abdomen. Practice.
- 10.
Imaging of the gastrointestinal system. Acute abdomen. Practice.
- 11.
Imaging of the CNS. Practice
- 12.
Imaging of the CNS. Practice
- 13.
Imaging of the head and neck. Practice
- 14.
Imaging of the head and neck. Practice
- 15.
Imaging of the musculoskeletal system. Practice
- 16.
Imaging of the musculoskeletal system. Practice
- 17.
Imaging of the urogenital and the female pelvis system. Practice
- 18.
Imaging of the urogenital and the female pelvis system. Practice
- 19.
Emergency radiology cases. Practice
- 20.
Emergency radiology cases. Practice
- 21.
Pediatric radiology cases. Practice
- 22.
Pediatric radiology cases. Practice
- 23.
Practice
- 24.
Practice
- 25.
Nuclear medicine. Practice
- 26.
Nuclear medicine. Practice
- 27.
Intervantional radiology cases. Practice.
- 28.
Intervantional radiology cases. Practice.
Szemináriumok
A tananyag elsajátításához szükséges segédanyagok
Kötelező irodalom
Saját oktatási anyag
Uploaded to PotePedia
Jegyzet
Ajánlott irodalom
Herring: Learning Radiology, Saunders, 2015
R. B. Gunderman: Essential Radiology, Thieme, 2006
G. M. Roberts, J. P. Hughes and M. D. Hourihan: Clinical Radiology for Medical Students
S. Francis, A. F. Watkinson (Department of Radiology of The Royal Free Hospital, London, UK): Interventional Radiology
Explained, Remedicina Publishing, 2000.
In Hungarian:
Fráter, Palkó, Makó, Kollár, Battyáni: Radiológia, Medicina, 2014
Recommended: Davit Sutton: Textbook of Radiology and Imaging, latest edition, Elsevier
A félév elfogadásának feltételei
The completion of Clinical Radiology course will be verified in case of maximum two absences from clinical practices (4 hours). To recover the absences over the limit, the permission of clinical director is needed (e.g. in case of health problems that is legally documented).
The exams (all chances) are written tests (inhouse-online Moodle tests) consisting of simple choice, true-false and relation analysis questions. The test also contains image analysis: examination methods, important anatomical structures and basic pathologies are expected to be recognized.
Félévközi ellenőrzések
During several lectures an online test, using Kahoot! (https://kahoot.it/) mobile appliaction, will be performed. Depending on the perticipation the students will get expra point(s) for the written exam (i.e. 1 Kahoot = 1 point), but only, if they pass the exam without those exra points. Extra points will only be applied during A chance.
To prevent cheating, written catalouges will be carried out on random lectures. Those students who wrongfully achieved extra points (e.g. those who participated in a kahoot quiz but were not present on the given lecture) will loose chance to get any extra point during the test.
Távolmaradás pótlásának lehetőségei
Recovering absences over the limit is possible by attending practices with a different group but similar topic.
Vizsgakérdések
1.The fundamentals of X-ray imaging. X-ray equipments. Radiation protection.
2.The fundamentals of CT and MRI imaging, examination methods.
3.Fundamentals of ultrasound physics. Ultrasound methods. Patient preparation before examination.
4.Imaging of pneumonias.
5.Thoracic masses. Imaging strategy, differential diagnosis.
6.Pulmonary embolism. Diagnosis and diagnostic difficulties.
7.Pneumothorax and hydrothorax. Etiology, radiologic characteristics.
8.Interstitial pulmonary diseases. Pulmonary fibrosis. Silicosis. Emphysema.
9.Diagnostic imaging of cardiac diseases. Methods, indications. Cardiomyopathies. Diseases of the pericardium.
10.Imaging of ischemic heart diseases and cardiac valve diseases.
11.Diseases of the aorta. Imaging methods, the role of CT and MRI.
12.Imaging in acute abdomen.
13.Imaging of the esophagus, stomach and small bowels. Methods, indications, imaging strategy.
14.Imaging of the colon. Inflammatory diseases of the colon. Diverticulosis. Colon tumors.
15.Imaging of the liver and the hepatobiliary system. Imaging techniques, indications, information content.
16.Imaging of the pancreas and the spleen. Imaging techniques, indications, information content.
17.Imaging of the urinary system. Indications, diagnostic strategy. Renal inflammatory diseases, nephrolithiasis.
18.Onco-uroradiology: Adrenal and renal masses. Masses of the urinary bladder, the prostate and the testis. Imaging techniques and strategy.
19.Imaging of the arterial system and arterial diseases. Methods of angiography. Indications and complications.
20.Imaging of the venous and lymphatic system and their diseases. Deep vein thrombosis.
21.Imaging of musculoskeletal trauma (bones and soft tissue). Radiologic signs of fracture healing. Terminology.
22.Imaging of degenerative joint diseases.
23.Imaging of inflammatory bone and joint diseases. Osteomyelitis, arthritis. Aseptic bone necrosis.
24.Imaging of bone metastases. Radiologic and nuclear medicine techniques.
25.Neuroradiology. Imaging techniques and indications.
26.Neuroradiology. Imaging of acute intracranial vascular diseases. Stroke.
27.Imaging in neurotrauma.
28.Imaging of the vertebral column and the spinal cord. Main diseases.
29.Imaging of the head and the neck. Imaging methods, indications and strategy.
30.Imaging of the orbit and the paranasal sinuses. Imaging methods, indications and strategy.
31.Imaging of the breast. Mammography, clinical mammography, ultrasound.
32.Imaging strategy in gynecologic tumors (cervix, uterus, ovarium).
33.Intravascular radiologic interventions I. Methods of revascularization (PTA, stent implantation, selective thrombolysis, catheter thrombectomy/embolectomy).
34.Intravascular radiologic interventions II. Interventional radiologic treatment of bleeding, vasoocclusive techniques (embolization, sclerotisation).
35.Image-guided biopsies. Cyst puncture, drainage (biliary, renal, bladder etc.)
36.Radiologic interventions in tumor treatment (Tumor ablation techniques. Selective cytostatic treatment, chemoembolization).
37.The fundamentals of nuclear medicine imaging. Types of radiation, applications.
38.Advantages of hybrid techniques (SPECT/CT, PET/CT).
39.Radioisotope diagnostics of pulmonary embolism (perfusion and inhalation). Radioisotope methods in pulmonary malignancies.
40.Radioisotope examination of myocardial perfusion (transient and permanent ischaemia, viability). Radioisotope examination of left ventricle pump function and wall motion problems.
41.Radioisotope diagnostics of thyroid diseases and parathyroid diseases.
42.Nuclear medicine methods in childhood (kidney, bone, 123I-MIBG scintigraphy).
43.Radioisotope diagnostics in breast and gynecologic tumors. The significance of sentinel lymph node scintigraphy.
44.Brain perfusion examinations in nuclear medicine (indications, radiopharmaceuticals, imaging).
45.Nuclear medicine examinations in gastroenterology.
46.Isotope renography (indications, radiopharmaceuticals, imaging).
47.Indications of bone scintigraphy. The significance and indications of 3-phase bone scintigraphy.
48.Radioiodine therapy in the diseases of the thyroid gland.
49.Radionuclide therapy of neuroendocrine and neuroectodermal tumors.
Vizsgáztatók
- Bán Zsuzsanna
- Battyáni István
- Bogner Péter
- Botz Bálint
- Faluhelyi Nándor
- Farkas Orsolya
- Járay Ákos
- Molnárné Szabó Zsuzsanna
- Rostás Tamás
- Tóth Arnold
- Várady Edit
Gyakorlatok, szemináriumok oktatói
- Battyáni István
- Bencze Gábor Tamás
- Bódisné Zámbó Katalin
- Dezső Dániel
- Farkas Orsolya
- Gáspár Tamás
- Hamvas Zsófia
- Járay Ákos
- KURZUSHOZ RENDELT OKTATÓ
- Szekeres Gábor
- Tóth András
- Tóth Arnold
- Várady Edit