Labelling Chemistry and Compound Development
Syllabus, Master's level, 3DR407
- Code
- 3DR407
- Education cycle
- Second cycle
- Main field(s) of study and in-depth level
- Medical Nuclide Techniques A1F
- Grading system
- Fail (U), Pass (G)
- Finalised by
- The Educational Board of Medicine, 16 March 2016
- Responsible department
- Department of Immunology, Genetics and Pathology
Entry requirements
A university degree after at least three years of study (180 credits) in life sciences (e.g. physics, radiophysics, chemistry or biology), medicine, pharmacy, nursing, or other relevant university education. Radiation Protection and Medical Effects, 6 credits, and Nuclide Production and Radiochemistry, 9 credits.
Learning outcomes
The course applies knowledge from the courses Radiation Protection and Medical Effects, 4 p (6 ECTS credits) and Nuclide Production and Radiochemistry, 6 p (9 ECTS credits). The course is for half a year before the final project work 20 p (30 ECTS credits). The overall goal is to give knowledge on methods used for radiolabelling of biologically interesting molecules of low and high molecular weight aimed for in vivo (PET, SPECT) clinical and experimental use and also for in vitro use. After passed course it is expected that the student can:
-produce radionuclides using cyclotrons
-apply methods for the synthesis of 11C- and 18F- labelled compounds
-handle chelating chemistry and synthesis using radiohalogens
-relevant methods for purification of radiopharmaceuticals
-analytical techniques in radiochemistry and quality control
-methods for synthesis of compounds with long-lived radionuclides such as 14-C and 3-H
-organic chemistry with selected topics needed for labelling methods and strategy
-understand the essential methods when labelling macromolecules
-methods for production and recovery of radionuclides for PET and SPECT
-several applications with radionuclides suitable for autoradiography and other in vitro assays
-synthesis technology and automation: commercial kit-methods and custom-made research instrumentation
-understand the relationship between molecular structure and tracer properties, including the use of computational methods
-radioanalytical and other analytical methods for validation of radionuclide purity, radiochemical purity, chemical purity and structure certification
-quality control and biological and medical evaluation in relation to the quality control after radiolabelling
Content
-Labelling methods; history and future perspectives.
-Fundamental organic chemistry with selected topics needed for the understanding of labelling methods and strategy. Methods for the labelling of low and high molecular weight compounds are included.
-Production and recovery of radionuclides for PET, SPECT and examples of clinical diagnostic applications.
-Radionuclides for preclinical applications and radionuclides suitable for autoradiography and other in vitro assays.
-Synthesis technology and automation: commercial kit-methods and custom-made research instrumentation.
-Relationship between molecular structure and tracer properties, including the use of computational methods.
-Synthesis methods for long-lived radionuclides such as 14-C and 3-H.
-Radioanalytical and other analytical methods for validation of radionuclide purity, radiochemical purity, chemical purity and structure certification
-Quality control and biological and medical evaluation after radiolabelling.
Part I: General lectures
Part II: Peptides and Macromolecules
Part III: Low Molecular Weight Compounds
Instruction
2-6 hours lectures per day and laboratory work. Course-specific web site information and education material. Study visits and seminars. Student seminars on selected literature.
Assessment
At each part of the course there will be examination and written reports. Certificates will be given after each part. At the end of the completed course a written examination will take place to get a passing grade. For passing grade the laboratory work and the seminars is required. The grades "Pass" or "Fail" are given.
Transitional provisions
Students that have passed all courses within Medical Nuclide Techniques, 40 p ("magisterprogram" given 2004-2006) fulfil the requirements for this course.