The PET/CT Scan
Frequently Asked Questions
What is a PET/CT scan and how does it work?
PET stands for Positron Emission Tomography and CT stands for Computerised Tomography. Therefore, PET/CT is a fusion of both techniques.
CT images provide anatomical information while the PET study gives an indication of activity and function. Overlaying the PET image onto the CT image produces a fusion of anatomy with activity.
What is a Positron Emission?
Technically speaking, this term is applied when an unstable nuclide, in this case fluorine 18 attached to a glucose-like compound (FDG), emits a positively charged particle called a positron. The positron travels only 1 mm in tissue before reacting with an electron, a negatively charged particle, to produce two 511keV gamma rays (photons) at 180° to each other.
Two photons are emitted simultaneously from within the patient. Using a sophisticated PET/CT "camera", we're able to detect these events.
The scanner surrounds the area of the patient being imaged. As the photons are emitted from the patient, they interact with a sensitive camera. The computer in the camera calculates where the positron must have originated from.
By collecting millions of events, the PET scanner is able to create an image of the body that demonstrates where the greatest accumulation of labeled glucose is. This image is then superimposed onto the CT image.
Tell me more about the injection and how it works?
The PET/CT scan requires an injection of a radioactive form of sugar. This injection is given via a small needle, typically into an arm vein.
The main ingredient of the pharmaceutical is called FDG, an abbreviation for fluorodeoxyglucose. FDG is taken up by cells like normal glucose. More active cells, such as some cancer and inflammatory cells will take up more than the surrounding tissue.
These areas will produce greater numbers of photons, acting like a “beacon”, to show up abnormal sites. The injection is radioactive, but only for a short time. There are no known side affects to an injection of FDG and patients don't experience any sensation with the injection.
Tell me more about the radioactive component of the injection?
The radioactive component of the PET/CT scan is called Fluorine–18. Fluorine is attached to glucose in the injection given to the patient.
Radioactivity is often described in terms of its half-life. Half-life is defined as the time taken for radioactivity to fall to half its initial level. Fluorine has a half life of 110 minutes. This means that the level of radioactivity remaining in your system halves every 110 minutes.
It's safe to say that 8 hours after the scan there would be an insignificant amount of radioactivity left in the patient.
Why do I have to rest after the injection but before the scan begins?
This resting phase is vital to obtaining high quality PET/CT images. Pathology is demonstrated because areas of disease use sugar more rapidly than the surrounding tissue.
This means that the FDG injection will travel to areas of disease and demonstrate them on the scan. Working muscles also use this form of sugar as an energy supply. The FDG injection will therefore travel to these muscles if they're being used.
By completely resting for a period of 1 hour after the injection, there's more chance of the FDG going to areas of disease, rather than normal tissues.
