Physics of Nuclear Medicine

This course aims at giving theoretical and practical knowledge of diagnostic and therapeutic nuclear medicine physics and to prepare for work as a medical physicist in nuclear medicine. The course includes the principles of radiopharmaceutical imaging, quality assurance, radiation dosimetry and radiation safety.

In this course you will start by studying the photon and charged particle interactions occurring in the range of energies common in Nuclear Medicine. Following this we move on to radionuclide and radiopharmaceutical production and important uptake mechanisms in the human body. You will get to know relevant nuclear medicine equipment (gamma camera, SPECT/CT, PET-camera, PET/CT, PET/MRI, radiation monitors and detectors) components and function. Important aspects of imaging like reconstruction algorithms, correction methods, calibration, optimization and quality assurance are also covered. An essential part of the course is focused on radiation safety regulations, measurements and actions. You will learn strategies for protecting patients, staff and the general public from unwanted effects of radiation from nuclear medicine procedures. The medical perspective of nuclear medicine will be covered by lectures given by physicians active in the field of nuclear medicine.

Overall you will be well acquainted with the entire nuclear medicine process; from radionuclide production to radiopharmaceuticals, nuclear medicine equipment, optimization of imaging, image processing, analysis and interpretation – always with radiation safety in mind.

This is an advanced course given during the daytime. The course is included in the Master`s Programme in Medical Physics.

Modules

  • Theory and homework problems, 5.5 hp
  • Laboratory exercises, 1.0 hp
  • Clinical training, 4.5 hp

Teaching Format

The course consists of lectures, homework exercises, laboratory exercises as well as clinical training at a nuclear medicine facility. During the internship and the laboratory exercises active participation is mandatory.


Assessment

Written and oral examinations are undertaken for the theoretical and numerical parts of the course. In order to pass the course, the laboratory exercises as well as the clinical training must be passed as well.

Examiner

Cathrine Jonsson

E-mail: cathrine.jonsson@sll.se

The schedule will be available no later than one month before the start of the course. We do not recommend print-outs as changes can occur. At the start of the course, your department will advise where you can find your schedule during the course.


Note that the course literature can be changed up to two months before the start of the course.

Physics in Nuclear Medicine, 4e by Simon R. Cherry, ISBN: 9781416051985, ISBN-10: 1416051988

Course reports are displayed for the three most recent course instances.








Course coordinator and teacher:
Cathrine Jonsson, email: cathrine.jonsson@sll.se

 

Academic advisor at the Department of Physics: studievagledare@fysik.su.se

Student office: studentexp@fysik.su.se

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