Chapter-5 Positron emission tomography (PET) The second major method for tomographic imaging in nuclear medicine is positron emission tomography, or PET. This mode can be used only with positron-emitting radionuclides. PET cameras are designed to detect the paired 511-KeV photons generated from the annihilation event that produced when a positron interacts with an ordinary electron. I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Following emission, any positron travels only a short distance before colliding with electrons in surrounding matter. The paired 511-KeV annihilation photons travel in opposite directions (180 apart) along the line. Following the acquisition of the image of positron emissions, the data are reconstructed in a manner similar to that used for SPECT I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Why PET ? I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Basic principles of annihilation coincidence detection When a positron undergoes annihilation with a negative electron, their rest masses are converted into pair of annihilation photons. I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Basic principles of annihilation coincidence detection The photons have identical energies (511 KeV) and are emitted simultaneously, in 180-degree opposing directions, usually within a few tenths of a mm to a few mm of the location where the positron was emitted, depending on the energy and range of the positrons. I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Basic principles of annihilation coincidence detection Simultaneous detection of two annihilation photons allows PET to localize their origin along a line between the two detectors, without the use of absorptive collimators. This mechanism is called annihilation coincidence detection (ACD) The ability of ACD to localize events on the basic of coincidence timing, without the need for absorptive collimation, is referred to a electronic collimation I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Basic principles of annihilation coincidence detection Coincidence logic is employed to analyze the signals from the opposing detectors. For many PET scanners, this is accomplished by having the electronics attach a digital “time stamp” to the record for each detected event. The coincidence processor examines the time stamp for each event in comparison to events recorded in the opposing detectors. A coincidence event is assumed to have occurred when a pair of events are recorded within a specified coincidence timing window , which typically is 6-12 nanoseconds. I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Basic principles of annihilation coincidence detection Although annihilation photons are emitted simultaneously, a small but finite coincidence window width is needed to allow for differences in signal transit times through the cables and electronics, as well as different distance of travel by the two photons from the annihilation event to the detectors. The need for a finite window width permits other types of events to occur in coincidence (will be discussed later) The annihilation photons are not always emitted in precise back-to-back directions I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Event types in annihilation coincidence detection ACD produces an output whenever two events are recorded within specified coincidence timing window. Generally, any such events are called prompt coincidences (coincidences) I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Event types is annihilation coincidence detection True event The coincidence arise from a pair of photons produced from the same annihilation event and that the annihilation event occurs somewhere within the coincidence line between the detectors. Theses events are called true coincidence I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Event types is annihilation coincidence detection Other prompt coincidence events also can occur within the resolving time of the detector system Random coincidence (also called accidental coincidence) Occur when annihilation photons from two unrelated positron annihilation events are detected in two different detectors, within the coincidence timing window, and recorded as a single coincidence event. This can happen if one photon from each annihilation event is detected in each detector element. I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Event types is annihilation coincidence detection Other prompt coincidence events also can occur within the resolving time of the detector system Random coincidence (also called accidental coincidence) I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Event types is annihilation coincidence detection A second category of non-valid prompt coincidence are scatter coincidence 2. Scatter coincidences These occur when one (or both) of the photons from an annihilation undergoes scattering and is detected in a detector other than the one that would be appropriate for a true coincidence event. I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Event types is annihilation coincidence detection 3. Single event The unpaired photon is called single event and is usually rejected A single event registered when an unpaired photon from a non-annihilation gamma ray impacts a detector A single event is also registered when only one of a pair of annihilation photons impact a detector; the other photon can leave the plane of detection or it can be absorbed or scattered by the surrounding medium. I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Event types is annihilation coincidence detection 3. Single event By chance, photons generated simultaneously from separate sites in the body may reach the crystal at the same time. These separate events are incorrectly perceived as though resulting from annihilation of a single positron emission occurring along a line between the two detectors I have to add some introduction History of gamma camera and uses

Chapter-5 Positron emission tomography (PET) Event types is annihilation coincidence detection Scatter and random events are undesirable because they contribute to an increase in image background counts and consequently cause a reduction in image contrast. They provide incorrect localization of the positron annihilation event. I have to add some introduction History of gamma camera and uses