EPN-V2

STRÅL6010 Scientific Subjects and Quality Assurance in Radiotherapy Course description

Course name in Norwegian
Realfag og kvalitetssikring i stråleterapi
Weight
10.0 ECTS
Year of study
2025/2026
Course history
Curriculum
FALL 2025
Schedule
  • Introduction

    The course covers the physical and technical aspects that form the basis for radiotherapy, and addresses the core subjects of clinical physics, dosimetry, radiotherapy machines and quality assurance.

  • Required preliminary courses

    Admission to the programme.

  • Learning outcomes

    After completing the course, the student should have the following learning outcomes defined in terms of knowledge, skills and general competence:

    Knowledge

    The student

    • can give an account of ionising radiation and properties of the radiation field and discuss factors that affect dose distribution
    • can discuss key concepts used in radiotherapy and assess dose definitions and normalisation
    • can describe in detail the structure and functioning of radiotherapy machines and other equipment used in radiotherapy
    • can give an account of radioactivity and radionuclides used in radiotherapy
    • can assess quantities, units and measuring methods in dosimetry
    • can discuss legislation, regulations and guidelines relating to radiotherapy
    • can evaluate radiation protection in connection with external and internal radiotherapy
    • can give an account of quality assurance and quality development systems in radiotherapy

    Skills

    The student

    • can discuss the advantages and disadvantages of different radiation qualities
    • can apply and evaluate techniques and equipment used in connection with radiotherapy
    • can carry out and discuss basic dose calculations and simulations
    • can carry out and interpret geometric and dosimetric calculations
    • can carry out checks of radiotherapy equipment and planned treatment

    General competence

    The student

    • can communicate science issues and solutions relating to radiotherapy
    • can assess the effect of different radiation qualities on dose distribution
    • can analyse quality assurance, non-conformities and handling of non-conformities in radiotherapy
  • Teaching and learning methods

    The work and teaching methods used are lectures, self-study, seminars, group and project work, as well as skills training and lab exercises under supervision.

  • Course requirements

    The following required coursework must be approved before the student can take the exam:

    • minimum 80 per cent attendance in connection with the introduction to the study programme, skills training, lab exercises, seminars and scheduled group and project work
    • project assignment in scientific subjects, individual written assignment of up to 3,000 words
  • Assessment

    Supervised individual written exam, 4 hours

  • Permitted exam materials and equipment

    Calculator.

  • Grading scale

    Grade scale A-F.

  • Examiners

    An external and an internal examiner will assess all exams.