Title :
Influence of phantom size, shape, and density, and collimator selection on the dual photopeak window scatter correction method [SPECT]
Author :
Hademenos, George J. ; King, Michael A. ; Ljungberg, Michael
Author_Institution :
Dept. of Nucl. Med., Massachusetts Univ. Med. Center, Worcester, MA, USA
fDate :
2/1/1994 12:00:00 AM
Abstract :
Results from a Monte Carlo investigation are presented for the application of the dual photopeak window (DPW) scatter correction method to phantom geometries of varying shapes, sizes, and densities as well as to several collimators. A Monte Carlo program was used to simulate a Tc-99m point source at locations of 0.5 cm from the phantom surface, at the center, 0.5 cm from the bottom, and 4/5 the distance lateral from the center for each case of variation. DPW was then used to correct for scatter using a regression relation determined for a 30.5 cm×23.0 cm water-filled elliptical tub phantom using an ultrahigh resolution collimator. The application of DPW in all cases accounted for an approximate twelve-fold reduction in scatter fraction with an excellent agreement between the true scatter and scatter estimate distributions both at the tails and under the peak of the point spread functions
Keywords :
Monte Carlo methods; computerised tomography; gamma-ray scattering; radioisotope scanning and imaging; 23 cm; 30.5 cm; 99mTc point source; Monte Carlo program; SPECT; Tc; collimator selection; dual photopeak window scatter correction method; medical diagnostic imaging; nuclear medicine; phantom density; phantom shape; phantom size; regression relation; single photon emission computerised tomography; ultrahigh resolution collimator; water-filled elliptical tub phantom; Biomedical imaging; Cancer; Collimators; Energy resolution; Geometry; Imaging phantoms; Monte Carlo methods; Probability distribution; Scattering; Shape;
Journal_Title :
Nuclear Science, IEEE Transactions on
