Programplaner og emneplaner - Student
Further Education in Radiotherapy Programme description
- Programme name, Norwegian
- Videreutdanning i stråleterapi
- Valid from
- 2025 FALL
- ECTS credits
- 60 ECTS credits
- Duration
- 2 semesters
- Schedule
- Here you can find an example schedule for first year students.
- Programme history
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Introduction
The further education programme in radiotherapy is a full-time programme with a duration of one year. The study programme has a total scope of 60 credits (ECTS). The programme qualifies students for independent work as radiotherapists pursuant to the Regulations relating to Radiation Protection and Use of Radiation (the Radiation Protection Regulations) Section 48 letter e).
The field of radiotherapy is in continuous development. Developments in medical technology are rapid and wide-ranging. New knowledge is being obtained in the areas of oncology, radiobiology and clinical physics. The amount of information about individual patients is increasing, and the available treatment is becoming more and more advanced. This enables more individually adapted treatment that aims to achieve improved life expectancy and/or better quality of life for the patients.
The quality of the available treatment is dependent on the education of radiotherapists who are highly qualified in all areas of the field of radiotherapy. The further education programme in radiotherapy gives the students the necessary basis for working as radiotherapists and a basis for subsequently keeping up-to-date with developments in the field.
Radiotherapists deal with patients in a serious condition, which places great demands on their professional practice. Cancer patients need close follow-up, good information and necessary care. Many patients receive treatment over a long period, and the radiotherapy personnel are often their primary contact.
Radiotherapy is very much an activity where success depends on good cooperation between several disciplines. Improvements in radiotherapy require the different professions to have a good knowledge of each other’s discipline. Radiotherapists must therefore have good knowledge of the work of oncologists and medical physicians.
The programme description was established under the Act relating to Universities and University Colleges and the Regulations relating to Studies and Examinations at OsloMet. The programme description also takes into account the European core curriculum for radiation therapists developed by the European Society for Radiotherapy and Oncology (ESTRO), and the European Federation of Radiographer Societies’ (EFRS) benchmarking document for EQF level 7.
Target group
The programme’s target group is radiographers.
Admission requirements
Bachelor’s degree in radiography or equivalent.
Five additional points can be awarded to applicants who provide documentation that they are prioritized for admission to the upcoming academic year by a radiation therapy center.
Reference is made to the Regulations relating to Admission to Studies at OsloMet for more detailed provisions on admission requirements, calculation of points and ranking of applicants.
Learning outcomes
The purpose of the further education in radiotherapy is to educate patient-oriented, independent and reflective professionals who will engage in interdisciplinary cooperation. The candidates are expected to acquire competence that ensures that they practise their profession in accordance with applicable requirements and guidelines.
After completing the programme, the candidates should have the following learning outcomes defined in terms of knowledge, skills and general competence:
Knowledge
The candidate
- has in-depth knowledge of oncology and cancer therapy, including personalised cancer treatment
- has in-depth knowledge of cancer care that is relevant to radiotherapy patients and their next of kin
- has advanced knowledge of the biological aspects that form the basis for radiotherapy
- has advanced knowledge of the physical and technical aspects that form the basis for radiotherapy
- has advanced knowledge of the radiotherapy process, treatment preparations and the clinical pathway involved in radiotherapy
- has in-depth knowledge of quality assurance and control, monitoring and verification in radiotherapy
- has detailed knowledge of laws, regulations and recommendations relating to radiotherapy
- can assess knowledge in new fields of radiotherapy
Skills
The candidate
- knows how to identify and attend to the patient’s need for care and follow-up in connection with radiotherapy
- knows how to use communication techniques and communicative competence when dealing with patients and their next of kin
- can carry out radiotherapy in accordance with applicable guidelines and procedures in an independent manner
- can critically analyse and assess planned radiotherapy based on physical and biological aspects
- can critically analyse and assess quality assurance and quality control methods in radiotherapy
- can collect, critically assess and refer to information and subject matter in order to structure, formulate and communicate professional arguments
- can analyse and critically assess research results and other sources of information in order to make use of such information in his/her professional practice
General competence
The candidate
- knows how to treat patients and next of kin with empathy and respect
- can practise the profession in a safe and responsible manner in accordance with legal requirements and ethical standards for professional practice
- can organise, critically assess and quality assure his/her own work
- masters the forms of expression used in radiotherapy and can communicate theories, problems and solutions relating to the field
- can perform evidence-based work to ensure updated professional practice and development
- can initiate and contribute constructively to work in teams and demonstrates an understanding of other professions’ expertise and areas of work and responsibility
- can contribute to interdisciplinary cooperation on developing the quality of radiotherapy
Teaching and learning methods
The programme’s learning outcomes cover a broad spectrum. This requires varied and complex work and teaching methods in order to support students’ learning process. The work methods promote learning processes that build on the students’ own activity and responsibility for their own learning. Students are expected to use problem-solving work methods and develop their ability to work both in groups and independently. A good learning outcome is first and foremost dependent on the students’ own effort. This applies both to benefiting from teaching and academic supervision and to independent work in the form of theoretical studies and practical skills training. Independent work includes both cooperation with fellow students and individual work.
The following work and teaching methods are used in the course: lectures, digital learning resources, seminars, skills training, lab exercises, clinical training, self-study, project work and other independent or group assignments. The students may also be taken on excursions.
The students will receive regular supervision and feedback throughout the study period, both in connection with theoretical tuition, written assignments and clinical training.
LecturesLectures will primarily be used to introduce important subject matter. The purpose of the lectures is to highlight connections and main elements in topics, and to communicate relevant issues. The theory lectures will mainly take place at Oslo University Hospital (OUS) – the Norwegian Radium Hospital, or through the use of digital learning resources.
Seminars Seminars are used to focus on a specific topic and require active participation by the students. The seminars are led by the course lecturer and are a forum for discussing and communicating issues in the field of radiography. Seminars normally require advance preparation, which can be done using digital resources, academic texts, articles and interactive assignments.
Written assignments The students will work continuously throughout the study period on written reports and project assignments, individually and in groups. Presentations in plenary sessions to fellow students, lecturers and others may also be relevant. The work will give the students experience of presenting their own knowledge, experience and opinions, in writing and orally. Students will receive feedback on their written assignments from the supervisor and/or fellow students.
Skills training and lab exercisesSkills training and lab exercises take place in smaller groups. In clinical practice in radiotherapy, skills training will take place in different modalities where the students acquire skills through clinical training and reflection. In clinical physics and dosimetry, lab exercises will be carried out and tuition will be provided in how to conduct different measurements and calculations.
Practical training
This programme description was prepared by Oslo and Akershus University College of Applied Sciences pursuant to the National Curriculum Regulations for Engineering Education, adopted by the Ministry of Education and Research on 4 February 2011.
The Norwegian Qualifications Framework for Higher Education, which was adopted by the Ministry of Education and Research on 20 March 2009, provides an overview of the overall learning outcomes defined in terms of the knowledge, skills and general competence candidates are expected to have achieved after completing the education. The learning outcomes described in the programme description have been prepared in accordance with the National Curriculum Regulations and the Qualifications Framework.
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Internationalisation
The literature used in the study programme will mainly be international specialist and research literature in English. Clinical training may be conducted abroad by arrangement. The study programme will facilitate international guest lectures.
Work requirements
Required coursework is all types of work, tests and compulsory attendance that are requirements for being permitted to take the assessment/exam and/or complete periods of clinical training. Required coursework is assessed as approved/not approved. The coursework requirements for each course are described in the respective course descriptions.
The programme has coursework requirements in the form of compulsory attendance and project assignments.
Compulsory attendanceThe minimum attendance requirement for the introduction to the study programme, skills training, lab exercises, seminars and scheduled group and project work is 80 per cent. Other activities may also be subject to compulsory attendance requirements, to ensure that the students achieve sufficient competence and skills of vital importance to patient safety. The course descriptions describe the compulsory attendance requirements that apply to each course.
See the information under ‘Assessment and grading’ for information about compulsory attendance during clinical training.
If a student exceeds the maximum absence limit, the lecturer will consider whether it is possible for the student to compensate for the absence by meeting alternative requirements, for example by submitting individual written assignments or presentations. If it is not possible to compensate for the absence, the student must take the course the next time it is taught. Whether or not this is possible depends on the extent of the student’s absence and which activities he/she has missed.
Project assignmentsIn the courses STRÅL6010 and STRÅLPRA, the students will carry out project assignments relating to scientific subjects, treatment planning, care and quality assurance in radiotherapy.
Project assignments that are not approved must be reworked before re-submission.
If the project assignment for STRÅL6010 is not approved on re-submission, the student cannot take the ordinary exam in the course. The student is entitled to a third attempt before the resit/rescheduled exam. If the assignment is not approved after three attempts, the student must take the course the next time it is taught. Project assignments in the course STRÅLPRA must be approved before the final assessment in STRÅLPRA-102. Students have up to three attempts to have the assignments approved. If the assignment is not approved after three attempts, the student will not receive a final assessment and must take the course the next time it is taught.
Assessment
The programme’s admission requirements include the Higher Education Entrance Qualification/prior learning and work experience and mathematics R1+R2 and Physics 1. An introductory course or qualifications from a technical college under previous regimes are sufficient to meet the qualification requirements. Applicants with qualifications from a technical college pursuant to the Act relating to Tertiary Vocational Education of 2003 only need to take mathematics R1+R2 and Physics 1.
Reference is made to the Regulations concerning Admission to Higher Education:
https://lovdata.no/dokument/NL/lov/2005-04-01-15?q=forskrift_opptak_høyere_utdanning
Other information
Programme description:
Adopted by the department board at the Department of Health Sciences on 28 March 2001.
Latest amendments approved by the Vice-Dean of the Faculty of Health Sciences on 16 June 2024.
Latest update on 12 June 2025.
The programme description applies to students starting the programme in 2025.