We study the performance of an iterative reconstruction algorithm for single pinhole SPECT, in which the correction for pinhole blurring is realized by averaging multiple projection rays by means of a Gaussian quadrature method. In addition we compare the regularizing effect obtained by using blobs basis functions and voxels with and without postsmoothing. Contrast-noise and resolution-noise studies with a mathematical phantom show that blobs improve the tradeoff between bias and variance compared to voxels with the same grid spacing. The performance of the voxel reconstruction is improved significantly by using postsmoothing with a Gaussian kernel and by taking finer voxel sampling, but the results with blobs remain better provided the par...
Background: Monte Carlo simulations provide accurate models of nuclear medicine imaging systems as t...
In pinhole SPECT, attenuation of the photon flux on trajectories between source and pinholes affects...
PURPOSE: Single photon emission computed tomography (SPECT) has become an important noninvasive imag...
We study the performance of an iterative reconstruction algorithm for single pinhole SPECT, in which...
In iterative reconstruction of pinhole SPECT data, the forward and back projection processes are oft...
Purpose: Low sensitivity can become a major problem when very small pinholes are used in SPECT imagi...
Pinhole SPECT is a fully 3-dimensional tomography technique. Uniformity requirements for gamma-camer...
[[abstract]]Accurate modeling of the photon acquisition process in pinhole SPECT is essential for op...
For multipinhole single-photon emission computed tomography (SPECT), iterative reconstruction algori...
[[abstract]]Iterative reconstruction of pinhole SPECT projection data acquired in preclinical animal...
We propose a new method for collimator blurring correction in pinhole SPECT, that uses the spherical...
For multipinhole single-photon emission computed tomography (SPECT), iterative reconstruction algori...
En imagerie du petit animal par tomographie d'émission monophotonique (TEMP), la modélisation de la ...
Background: Monte Carlo simulations provide accurate models of nuclear medicine imaging systems as t...
In pinhole SPECT, attenuation of the photon flux on trajectories between source and pinholes affects...
PURPOSE: Single photon emission computed tomography (SPECT) has become an important noninvasive imag...
We study the performance of an iterative reconstruction algorithm for single pinhole SPECT, in which...
In iterative reconstruction of pinhole SPECT data, the forward and back projection processes are oft...
Purpose: Low sensitivity can become a major problem when very small pinholes are used in SPECT imagi...
Pinhole SPECT is a fully 3-dimensional tomography technique. Uniformity requirements for gamma-camer...
[[abstract]]Accurate modeling of the photon acquisition process in pinhole SPECT is essential for op...
For multipinhole single-photon emission computed tomography (SPECT), iterative reconstruction algori...
[[abstract]]Iterative reconstruction of pinhole SPECT projection data acquired in preclinical animal...
We propose a new method for collimator blurring correction in pinhole SPECT, that uses the spherical...
For multipinhole single-photon emission computed tomography (SPECT), iterative reconstruction algori...
En imagerie du petit animal par tomographie d'émission monophotonique (TEMP), la modélisation de la ...
Background: Monte Carlo simulations provide accurate models of nuclear medicine imaging systems as t...
In pinhole SPECT, attenuation of the photon flux on trajectories between source and pinholes affects...
PURPOSE: Single photon emission computed tomography (SPECT) has become an important noninvasive imag...