Image Noise, Resolution, and Lesion Detectability in Single Photon Emission CT
- 1 January 1982
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Transactions on Nuclear Science
- Vol. 29 (1) , 500-505
- https://doi.org/10.1109/TNS.1982.4335895
Abstract
Single Photon Emission Computed Tomography (SPECT) based on rotational scintillation gamma cameras in combination with filtered back-projection allows full 3-D imaging of isotope uptake in an organ volume. (1, 2,3,4) This paper treats the physical dependence of lesion detectability in SPECT imaging on the lesion uptake, lesion size, object size, and the number of photons collected. The lesion contrast depends on both camera resolution and reconstruction filtering. The relative photon-limited image noise is proportional to the three halves power of the number of linear samples covering the object, inversely proportional to the square root of the number of photons collected, and is also affected by the reconstruction filter chosen. Based on signal-to-noise analysis, the total number of counts necessary for lesion detection is determined.Keywords
This publication has 13 references indexed in Scilit:
- Physical Factors Affecting Quantitative Measurements Using Camera-Based Single Photon Emission Computed Tomography (Spect)IEEE Transactions on Nuclear Science, 1981
- SPECT: Single Photon Emission Computed TomographyIEEE Transactions on Nuclear Science, 1980
- Performance Analysis of Three Camera Configurations for Single Photon Emission Computed TomographyIEEE Transactions on Nuclear Science, 1980
- A Method for Attenuation Correction in Radionuclide Computed TomographyIEEE Transactions on Nuclear Science, 1978
- Image Noise And Smoothing In Computed Tomography (CT) ScannersPublished by SPIE-Intl Soc Optical Eng ,1977
- Noise Due to Photon Counting Statistics in Computed X-Ray TomographyJournal of Computer Assisted Tomography, 1977
- Statistical limitations in x‐ray reconstructive tomographyMedical Physics, 1976
- The Fourier reconstruction of a head sectionIEEE Transactions on Nuclear Science, 1974
- Results of Scattering in Radioisotope ImagingIEEE Transactions on Nuclear Science, 1973
- Three-dimensional Reconstruction from Radiographs and Electron Micrographs: Application of Convolutions instead of Fourier TransformsProceedings of the National Academy of Sciences, 1971