Patent ID: 7968849

Claim:
A positron CT apparatus comprising (A) a plurality of detecting devices for detecting photons emitted from a radionuclide given to a patient; (B) an analog-to-digital converter for converting an analog energy output which is one of detection outputs of each detecting device, into digital information of a predetermined number of channels; (C) an event determining device for receiving the detection outputs of each detecting device, and determining whether an event which is a phenomenon of photon incidence on the detecting device serving as a trigger for the detecting device to generate the detection outputs is a double event which is a phenomenon of an annihilation pair of photons being incident on a pair of detecting devices simultaneously, or it is a single event which is a phenomenon of a single photon being incident on a single detecting device; (D) a double event energy information storage device for taking in and accumulating output information of the analog-to-digital converter at the time when the event determining device determines that a certain event is a double event; (E) a single event energy information storage device for taking in output information of the analog-to-digital converter at the time when the event determining device determines that a certain event is a single event, and accumulating for each detecting device an energy channel spectrum expressing a distribution of counts of incident photons relating to the single event on an energy channel axis; (F) an energy peak detecting device for reading, at an appropriate time, the energy channel spectrum of each detecting device accumulated in the single event energy information storage device, and detecting an energy base peak corresponding to a noise level of a background and a self-energy peak peculiar to the radionuclide; (G) an energy conversion factor calculating device for calculating, for each detecting device, an energy conversion factor which is the number of channels per unit energy from a relationship between the number of channels corresponding to an energy interval between the energy base peak and the self-energy peak detected for each detecting device, and an energy value peculiar to the radionuclide; (H) an offset energy detecting device for determining the number of channels corresponding to an offset energy of each detecting device based on a position of the energy base peak of each detecting device; and (I) an energy calibration device for adjusting a gain and an offset of each detecting device and/or an energy channel axis and an offset of the analog-to-digital converter based on the energy conversion factor and the offset energy of each detecting device.