Reference no: EM133493645
Question 1. Describe positron decay and the production of annihilation photons.
Question 2. List the positron-emitting radionuclides and their properties.
Question 3. Describe the detection of true, scatter, and random events.
Question 4. Define SUV and explain how it is calculated and used.
Question 5. List the calibrations (quality control) required for PET scanners.
Question 6.Describe the principles of Time-Of-Flight for PET scans
Question 7.Describe the various attenuation correction techniques for PET scanning.
Question 8. Describe the physics principles involved in the production of X-rays within an X-ray tube.
Question 9.Describe the role of each components in the x-ray tube and its operations.
Question 10. Describe the purpose of adjusting the voltage and current in the X-ray tube for image production.
Question 11.Describe the principal parts of the CT scanner and list their functions.
Question 12.Describe CT numbers and the values assigned to various tissues and how these values are assigned into display windowing.
Question 13. List and describe common CT artifacts.
Question 14.Describe the list of calibrations and QC procedures necessary for CT scanners.
Question 15. Describe the various types of PET scintillation crystals and their composition characteristics.
Question 16. Describe the limitations of spatial resolution on PET scanners.
Question 17. Describe the differences between 2D and 3D scanning techniques for PET scanners.
Question 18. Describe the various types of artifacts found on PET images.
Question 19.Describe the purpose of filtering and collimation when producing x-rays.
Question 20.Describe common CT artifacts found on CT images.