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Lecturer(s)
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Hegerová Veronika, Mgr.
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Horalík Jiří, Ing. Bc. DiS.
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Vybíral Petr, Ing. Bc. DiS.
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Strásenská Pavlína, Bc.
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Course content
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Work organization and technique at a Nuclear Medicine Clinic, Radiation Protection, Accidents, Overview of Ionizing Radiation Detectors Scintillation Detector, Evaluation Apparatus. Parameters of the Scintillator
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Learning activities and teaching methods
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Training in job and motor Skils
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Learning outcomes
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The aim is to learn and master the rudiments of protection from ionizing radiation, managing minor accidents according to an emergency plan, decontamination. Organisation and management at a department of nuclear medicine. Overview of ionization detectors. Doing calculations of applied activity and volume of radiopharmaceuticals, making corrections of applied activity with regard to half-life and patient's weight, assisting in the application of radiopharmaceuticals. Carrying out static scintigraphy under supervision.
Students manage incidents according to the incident regulations, they check measuring devices, they carry out calculations of applied activity and the amount of radiopharmaceuticals, and under supervision they perform static scintigraphy.
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Prerequisites
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unspecified
RAM/RGA01 and RAM/RGB51
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Assessment methods and criteria
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Dialog
Active attendance, seminar paper.
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Recommended literature
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Hušák, V. a kol. (2009). Radiační ochrana pro radiologické asistenty. UP Olomouc.
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Hušák V. a kol. (2012). výukový portál LF UPOL - Fyzikální základy zobrazování v NM a radiační ochrana.
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Koranda, P. (2014). Nukleární medicína. Olomouc: Univerzita Palackého v Olomouci.
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Schulthess, Gustav Konrad von. (2016). Molecular Anatomic Imaging: PET/CT,PET/MR and CPECT/CT. Zurich, Swizerland: Wolters Kluwer.
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V. Ullmann. www.astronuklfyzika.cz.
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