Method of improving PET (positron emission tomography) image reconstruction quality by constructing virtual DOI (depth of interaction) and corresponding system matrix

Abstract

The invention discloses a method of improving PET (positron emission tomography) image reconstruction quality by constructing a virtual DOI (depth of interaction) and a corresponding system matrix. The method comprises the following steps: 1) virtual DOIs are divided: a scintillation crystal in a PET detector ring is divided into a plurality of regions which correspond to different DOIs; 2) the detection probability of a virtual DOI is calculated: the virtually-divided DOI regions are paired, and the probability of each pair being detected at a different signal source position is calculated; 3) a virtual LOR (Line of response) event in the virtual DOI is divided: one LOR event in one original pair of crystals is divided to multiple sub events in the virtual DOI; 4) a conventional system matrix is optimized: multiple factors that affect the image reconstruction quality are considered; 5) image reconstruction is carried out: a statistical iterative algorithm is used to reconstruct an image; and 6) a GPU platform is used for distributed operation, and the data processing time can be greatly reduced. Through the method disclosed in the invention, the resolution of PET-class equipment after image reconstruction can be greatly improved, the location of a tumor can be positioned accurately, and important clinical value and significance are achieved.

Description

Technical field [0001] The invention relates to the field of nuclear medicine PET image reconstruction, in particular to a PET image reconstruction and optimization method based on constructing a virtual DOI and a corresponding system matrix. Background technique [0002] PET (positron emission tomography, positron emission tomography) is an important clinical examination imaging technology in the field of nuclear medicine. The detection principle of PET is to inject a positron emitting nuclide as a specific tracer into the patient's body. The positron emitted by the tracer and the electrons in the human body are annihilated to produce a pair of opposite gamma photons, and this pair of photons is detected The device records and stores it, and the distribution of the tracer in the patient can be obtained through image reconstruction, thereby realizing early detection and positioning of the tumor. [0003] The detection device in the PET equipment is generally composed of a similar ...

AI Technical Summary

Problems solved by technology

This method can greatly improve the counting efficiency of the detector, and the calculation is simple and convenient, but at the same time, it also ignores the position depth of the photon when it is detected in the scintillation crystal, which will cause a large error in the calculation of the photon emission position, resulting in image distortion. Spatial resolution drops

The low resolution of PET images is also a major criticism in the development of PET technology.

like figure 1 Shown: The traditional PET imaging equipment summarizes a certain LOR event generated by the source A into a pair of detectors P 1 P 2 Generated at a point on the center line of , the calculated source is at P 1 P 2 A certain point on the line, but in fac

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