BACKGROUND: Generation of a SPECT scan during procedure may aid in the optimization of treatments as liver radioembolization by offering image-guided dosimetry. This, however, requires both shortened acquisition times and fast quantitative reconstruction. Focusing collimators increase sensitivity and thus may speed up imaging. Monte Carlo-based iterative reconstruction has shown to provide quantitative results for parallel hole collimators but may be slow. The purpose of this work is to develop fast Monte Carlo-based reconstruction for focusing collimators and to evaluate the impact of reconstruction and collimator choice on quantitative accuracy of liver dosimetry by means of simulations. RESULTS: The developed fast Monte Carlo simulator w...
This paper presents the development and validation of a Monte Carlo-based singe photon emission comp...
Parallel-hole SPECT collimators have traditionally been manufactured by stacking sheets of lead foil...
International audienceAbstract Background In selective internal radiation therapy, 99m Tc SPECT imag...
BACKGROUND: Generation of a SPECT scan during procedure may aid in the optimization of treatments as...
Purpose: In 90Y microsphere radioembolization (RE), accurate post-therapy imaging-based dosimetry is...
Abstract Background Post-therapy SPECT/CT imaging of 90Y microspheres delivered to hepatic malignanc...
Direct Monte Carlo (MC) simulation is considered the gold standard approach for internal dosimetry i...
Purpose: Quantitative accuracy of the single photon emission computed tomography (SPECT) reconstruct...
The evaluation of radiation absorbed doses in tumorous and healthy tissues is of increasing interest...
The accuracy of quantitative imaging in SPECT is degraded by physical effects, namely photon attenua...
Background: Obtaining high quality images in Single Photon Emission Tomography (SPECT) device is th...
Collimator geometry has an important contribution on the image quality in SPECT imaging. The purpose...
Purpose: Many centers aim to plan liver transarterial radioembolization (TARE) with dosimetry, even ...
Single Photon Emission Computed Tomography (SPECT) is one of the most applied molecular imaging tech...
This paper presents the development and validation of a Monte Carlo-based singe photon emission comp...
Parallel-hole SPECT collimators have traditionally been manufactured by stacking sheets of lead foil...
International audienceAbstract Background In selective internal radiation therapy, 99m Tc SPECT imag...
BACKGROUND: Generation of a SPECT scan during procedure may aid in the optimization of treatments as...
Purpose: In 90Y microsphere radioembolization (RE), accurate post-therapy imaging-based dosimetry is...
Abstract Background Post-therapy SPECT/CT imaging of 90Y microspheres delivered to hepatic malignanc...
Direct Monte Carlo (MC) simulation is considered the gold standard approach for internal dosimetry i...
Purpose: Quantitative accuracy of the single photon emission computed tomography (SPECT) reconstruct...
The evaluation of radiation absorbed doses in tumorous and healthy tissues is of increasing interest...
The accuracy of quantitative imaging in SPECT is degraded by physical effects, namely photon attenua...
Background: Obtaining high quality images in Single Photon Emission Tomography (SPECT) device is th...
Collimator geometry has an important contribution on the image quality in SPECT imaging. The purpose...
Purpose: Many centers aim to plan liver transarterial radioembolization (TARE) with dosimetry, even ...
Single Photon Emission Computed Tomography (SPECT) is one of the most applied molecular imaging tech...
This paper presents the development and validation of a Monte Carlo-based singe photon emission comp...
Parallel-hole SPECT collimators have traditionally been manufactured by stacking sheets of lead foil...
International audienceAbstract Background In selective internal radiation therapy, 99m Tc SPECT imag...