Title :
Object shape dependent PSF model for SPECT imaging
Author :
Beekman, Freek J. ; Eijkman, Eg G J ; Viergever, Max A. ; Borm, George F. ; Slijpen, Ed T P
Author_Institution :
Dept. of Med. Phys. & Biophys., Nijmegen Univ., Utrecht, Netherlands
fDate :
2/1/1993 12:00:00 AM
Abstract :
An analytical expression for the point spread function (PSF) and the line spread function (LSF) of a parallel hole gamma camera is presented, for homogeneous media and for photons having mainly Compton interactions in the object. The PSF of scattered photons is described by convolving a zeroth-order modified Bessel function of the second kind with the unscattered PSF, which is approximated by a Gaussian. The complete PSF (scatter plus nonscatter) depends on the source distance ( z) and depth (d) of the source in the object. For convex-shaped emitting objects, the dependence of the PSF on the object contour can be incorporated by a simple correction. Thus, a complete mathematical model of the imaging of an activity distribution in a homogeneous medium is obtained. The model has been evaluated for 99mTechnetium line sources by using a LEAP collimator at various energy windows (ΔE). It is shown that the model is valid to a high accuracy at ΔE=15%, for a large range of values of z and d
Keywords :
cameras; functions; gamma-ray apparatus; gamma-ray production; radioisotopes; technetium; 99Tc line source; Bessel function; LEAP collimator; SPECT imaging; convex object; homogeneous media; line spread function; object shape; parallel hole gamma camera; point spread function; scattered photons; source depth; source distance; Biomedical imaging; Brain modeling; Cameras; Electromagnetic scattering; Image reconstruction; Mathematical model; Optical imaging; Particle scattering; Shape measurement; Single photon emission computed tomography;
Journal_Title :
Nuclear Science, IEEE Transactions on
