Title :
Organ volume estimation using SPECT
Author_Institution :
Div. of Nucl. Med., Geneva Univ. Hospital, Switzerland
fDate :
6/1/1996 12:00:00 AM
Abstract :
Knowledge of in vivo thyroid volume has both diagnostic and therapeutic importance and could lead to a more precise quantification of absolute activity contained in the thyroid gland. In order to improve single-photon emission computed tomography (SPECT) quantitation, attenuation correction was performed according to Chang´s algorithm. The dual window method was used for scatter subtraction. We used a Monte Carlo simulation of the SPECT system to accurately determine the scatter multiplier factor k. Volume estimation using SPECT was performed by summing up the volume elements (voxels) lying within the contour of the object, determined by a fixed threshold and the gray level histogram (GLH) method. Thyroid phantom and patient studies were performed and the influence of (1) fixed thresholding, (2) automatic thresholding, (3) attenuation, (4) scatter, and (5) reconstruction filter were investigated. This study shows that accurate volume estimation of the thyroid gland is feasible when accurate corrections are performed. The relative error Is within 7% for the GLH method combined with attenuation and scatter corrections
Keywords :
Monte Carlo methods; single photon emission computed tomography; Chang algorithm; Monte Carlo simulation; SPECT; absolute activity; attenuation correction; automatic thresholding; dual window method; fixed threshold; fixed thresholding; gray level histogram method; in vivo thyroid volume; organ volume estimation; patient studies; reconstruction filter; scatter multiplier factor; scatter subtraction; single-photon emission computed tomography; thyroid gland; thyroid phantom studies; Attenuation; Computed tomography; Electromagnetic scattering; Glands; Image segmentation; Imaging phantoms; In vivo; Nuclear medicine; Particle scattering; Shape measurement;
Journal_Title :
Nuclear Science, IEEE Transactions on
