1. Noise and physical limits to maximum resolution of PET images
- Author
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Manuel Desco, Joaquin L. Herraiz, Samuel España, Jose Manuel Udias, Juan J. Vaquero, and Esther Vicente
- Subjects
Physics ,Nuclear and High Energy Physics ,Scanner ,Monte Carlo application ,business.industry ,Image quality ,Resolution (electron density) ,Function (mathematics) ,Radiation ,computer.software_genre ,Noise (electronics) ,Optics ,Voxel ,Positron Emission Tomography (PET) ,Limit (mathematics) ,business ,Instrumentation ,computer ,Biología y Biomedicina - Abstract
In this work we show that there is a limit for the maximum resolution achievable with a high resolution PET scanner, as well as for the best signal-to-noise ratio, which are ultimately related to the physical effects involved in the emission and detection of the radiation and thus they cannot be overcome with any particular reconstruction method. These effects prevent the spatial high frequency components of the imaged structures to be recorded by the scanner. Therefore, the information encoded in these high frequencies cannot be recovered by any reconstruction technique. Within this framework, we have determined the maximum resolution achievable for a given acquisition as a function of data statistics and scanner parameters, like the size of the crystals or the inter-crystal scatter. In particular, the noise level in the data as a limitation factor to yield high-resolution images in tomographs with small crystal sizes is outlined. These results have implications regarding how to decide the optimal number of voxels of the reconstructed image or how to design better PET scanners Publicado
- Published
- 2007
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