Study programmes
Imaging and irradiating technologies in radiodiagnostics, nuclear medicine and radiotherapy
Study program:
Imaging and irradiating technologies in radiodiagnostics, nuclear medicine and radiotherapy
SP code:
N0914P360006
Study form:
full-time
Study type:
Master's (post-Bachelor)
Standard duration of study in years:
2
Language of instruction:
Czech
Title:
Mgr.
Title:
No
More details
SP name in English:
Imaging and irradiating technologies in radiodiagnostics, nuclear medicine and radiotherapy
SP name in Latin:
Methodi corporis humani inspiciendi radiodiagnosticae, radiotherapeuticae, medicinae nuclearis propriae
SP profile:
vocationally oriented
SP characteristics
The aim of study is:
• to prepare graduates for the regulated profession of radiological assistant with regard to the performance of highly specialized diagnostic procedures
• to acquire specialized competencies by acquiring the necessary theoretical knowledge, practical skills, teamwork habits and deepening the ability of independent decision-making for activities stipulated by valid legislation in the three fields listed below and acquiring specializations in the full scope of educational programs of specialized education in the following fields:
1. Imaging technology in radiodiagnostice
2. Imaging and irradiation technologies in nuclear medicine
3. Imaging and irradiation technology in radiotherapy
• in the field of Imaging Technology in Radiodiagnostics, the graduate also obtains, by completing courses, which are an integral part of the study, knowledge and skills:
in analogue and digital skiagraphy
in computed tomography imaging
in magnetic resonance imaging
in interventional radiology and cardiology imaging procedures
in imaging in mammary diagnosis
• to prepare university-educated experts involved in the development of research in the fields of radiology – radiodiagnostics and nuclear medicine in order to combine theory and practice
• to prepare graduates who acquire theoretical and practical knowledge for the management of radiology, nuclear medicine and radiotherapy departments in the positions of the head radiological assistant
• to prepare graduates possessing the necessary theoretical knowledge and practical skills for lifelong learning in their expertise and for further academic education
• to prepare healthcare professionals capable of independent decision-making in the performance of specialized care activities in the field of imaging technologies in radiodiagnostics and with the ability to participate in the creation of examination protocols in specialized and superspecialized diagnostic and therapeutic activities in the fields of radiodiagnostics, including interventional radiology and interventional cardiology, nuclear medicine and radiotherapy
• to prepare graduates for the regulated profession of radiological assistant with regard to the performance of highly specialized diagnostic procedures
• to acquire specialized competencies by acquiring the necessary theoretical knowledge, practical skills, teamwork habits and deepening the ability of independent decision-making for activities stipulated by valid legislation in the three fields listed below and acquiring specializations in the full scope of educational programs of specialized education in the following fields:
1. Imaging technology in radiodiagnostice
2. Imaging and irradiation technologies in nuclear medicine
3. Imaging and irradiation technology in radiotherapy
• in the field of Imaging Technology in Radiodiagnostics, the graduate also obtains, by completing courses, which are an integral part of the study, knowledge and skills:
in analogue and digital skiagraphy
in computed tomography imaging
in magnetic resonance imaging
in interventional radiology and cardiology imaging procedures
in imaging in mammary diagnosis
• to prepare university-educated experts involved in the development of research in the fields of radiology – radiodiagnostics and nuclear medicine in order to combine theory and practice
• to prepare graduates who acquire theoretical and practical knowledge for the management of radiology, nuclear medicine and radiotherapy departments in the positions of the head radiological assistant
• to prepare graduates possessing the necessary theoretical knowledge and practical skills for lifelong learning in their expertise and for further academic education
• to prepare healthcare professionals capable of independent decision-making in the performance of specialized care activities in the field of imaging technologies in radiodiagnostics and with the ability to participate in the creation of examination protocols in specialized and superspecialized diagnostic and therapeutic activities in the fields of radiodiagnostics, including interventional radiology and interventional cardiology, nuclear medicine and radiotherapy
More details
Graduate profile for the public:
Graduates of the study program Imaging and Irradiating Technologies in Radiodiagnostics, Nuclear Medicine and Radiotherapy will be prepared to independently perform the activities of a radiological assistant with specialized competence defined in Act No. 201/2017 Coll., amending Act No. 96/2004 Coll., on conditions for obtaining and recognizing qualifications to perform non-medical health professions and to perform activities related to the provision of health care and amending certain related acts (the Act on Non-Medical health professions), as amended, and Decree of the Ministry of Health of the Czech Republic No. 2/2016 Coll., amending Decree No. 55/2011 Coll., on the activities of health care workers and other professionals, as amended.
Upon successful completion of the Master's degree program Imaging Technology in Radiodiagnostics, Nuclear Medicine and Radiotherapy, he completes 430 hours of theoretical education, 270 hours of practical training, and 1840 hours of professional practice.
Upon successful completion of the Master's degree programme Imaging and Irradiating Technologies in Radiodiagnostics, Nuclear Medicine and Radiotherapy, the graduate will complete the following within Imaging Technologies:
• theoretical instruction
• completion of compulsory professional practice
• during the lessons, the student is enabled to acquire Special Professional Competence for the Management of Sources of Ionizing Radiation at a Radiodiagnostic Workplace as a person with direct responsibility for ensuring radiation protection pursuant to Decree No. 146/1997 Coll., as amended, which must be submitted to the application for obtaining specialized competence, as amended.
Upon successful completion of the State Exam and defence of the diploma thesis, the student acquires Specialized competencies in three fields according to Decree No. 2/2016 Coll., amending Decree No. 55/2011 Coll., on the activities of health care workers and other professional workers, as amended, pursuant to § 161,
• 1/ Imaging technology in radiodiagnostics
• 2/ Imaging and irradiation technologies in nuclear medicine
• 3/ Imaging and irradiation technology in radiotherapy
- in the field of Imaging Technology in Radiodiagnostics, the graduate also acquires by completing courses, which are an integral part of the study, knowledge and skills:
in analog and digital skiagraphy
in computed tomography imaging
in magnetic resonance imaging
in imaging procedures of interventional radiology and cardiology
in imaging in mammary diagnosis
During the practical training during the study, the graduate achieves the fulfillment of practice of at least 1 year in the extent of at least half of the stipulated weekly working time, or at least 2 years in the extent of at least one fifth of the stipulated weekly working time and the fulfillment of other conditions and achieves the acquisition of specialized competence in the field of Imaging Technology and fulfillment with the designation of expertise of a specialist: Assistant Radiology Professor for Radiodiagnostics, Assistant Radiology Professor for Nuclear Medicine and Assistant Radiology Assistant for Radiodiagnostics.
Upon successful completion of the Master's degree program Imaging Technology in Radiodiagnostics, Nuclear Medicine and Radiotherapy, he completes 430 hours of theoretical education, 270 hours of practical training, and 1840 hours of professional practice.
Upon successful completion of the Master's degree programme Imaging and Irradiating Technologies in Radiodiagnostics, Nuclear Medicine and Radiotherapy, the graduate will complete the following within Imaging Technologies:
• theoretical instruction
• completion of compulsory professional practice
• during the lessons, the student is enabled to acquire Special Professional Competence for the Management of Sources of Ionizing Radiation at a Radiodiagnostic Workplace as a person with direct responsibility for ensuring radiation protection pursuant to Decree No. 146/1997 Coll., as amended, which must be submitted to the application for obtaining specialized competence, as amended.
Upon successful completion of the State Exam and defence of the diploma thesis, the student acquires Specialized competencies in three fields according to Decree No. 2/2016 Coll., amending Decree No. 55/2011 Coll., on the activities of health care workers and other professional workers, as amended, pursuant to § 161,
• 1/ Imaging technology in radiodiagnostics
• 2/ Imaging and irradiation technologies in nuclear medicine
• 3/ Imaging and irradiation technology in radiotherapy
- in the field of Imaging Technology in Radiodiagnostics, the graduate also acquires by completing courses, which are an integral part of the study, knowledge and skills:
in analog and digital skiagraphy
in computed tomography imaging
in magnetic resonance imaging
in imaging procedures of interventional radiology and cardiology
in imaging in mammary diagnosis
During the practical training during the study, the graduate achieves the fulfillment of practice of at least 1 year in the extent of at least half of the stipulated weekly working time, or at least 2 years in the extent of at least one fifth of the stipulated weekly working time and the fulfillment of other conditions and achieves the acquisition of specialized competence in the field of Imaging Technology and fulfillment with the designation of expertise of a specialist: Assistant Radiology Professor for Radiodiagnostics, Assistant Radiology Professor for Nuclear Medicine and Assistant Radiology Assistant for Radiodiagnostics.
Related accreditations
| Faculty | Name of the study program | Language of instruction | Study form |
|---|---|---|---|
| Lékařská fakulta v Plzni | Zobrazovací a ozařovací technologie v radiodiagnostice, nukleární medicíně a radioterapii | čeština | kombinovaná |
Teaching provided by
Faculty:
- Faculty of Medicine in Pilsen (LFP)
Cooperating institutions:
No
More details
Foreign university joint diploma type:
No
External department:
No
Classification
Area of education:
- Healthcare Fields
SP structure
Specialisation:
No
Double-curriculum study:
No
Data for persons with disabilities
Contact person for persons with disability:
Mgr. Bc. Petra Buňatová
Web page for persons with disability:
Further information about the study of persons with disability:
Personal provision
Garant SP:
- prof. MUDr. Hynek Mírka, Ph.D.
Study plans
No related study plans have been found
Plans according to accreditation:
full-time study form with language of instruction Czech
Instruction
Admission procedure requirements:
Can be studied in combination
No combinations have been found
