Parallel-hole SPECT collimators have traditionally been manufactured by stacking sheets of lead foil or by casting. These techniques significantly restrict our options in terms of collimator geometry. However, recent developments in metal additive manufacturing are making novel collimator designs possible, giving rise to new opportunities in SPECT imaging. In this paper we propose an innovative type of collimator for stationary SPECT, using parallel-holes whose collimation direction depends on their axial position. Its main advantage compared to current stationary SPECT systems (which are based on pinholes) is that, using only axial bed translations, we can achieve complete angular sampling of an increased portion of the transaxial area of ...
Currently, clinical brain single photon emission computed tomography (SPECT) is mostly performed usi...
The aim of this work is to show a new scintigraphic device able to change automatically the length o...
The aim of this work is to show a new scintigraphic device able to change automatically the length o...
Parallel-hole SPECT collimators have traditionally been manufactured by stacking sheets of lead foil...
Stationary SPECT systems present many advantages compared to non-stationary systems: more stability ...
In SPECT imaging, stationary systems have been developed to avoid several of the practical issues as...
Collimator geometry has an important contribution on the image quality in SPECT imaging. The purpose...
Purpose: The aim of this study was to improve the uniformity of the axial spatial resolution and sen...
In clinical practice, brain SPECT is mostly performed using a dual-head SPECT scanner with fan-beam ...
The aim of this work is to develop an optimal collimator design for a stationary, compact SPECT inse...
The focus of this dissertation is the use of pinhole collimation in Nuclear Medicine. A pinhole is a...
This work optimized a multi-pinhole collimator for a stationary three-camera Single Photon Emission ...
The relative advantages of pinhole and parallel hole collimators for scintimammography with compact,...
Besides parallel and converging hole collimators which are frequently used in nuclear medicine, slat...
Parallel and converging hole collimators are most frequently used in nuclear medicine. Less common i...
Currently, clinical brain single photon emission computed tomography (SPECT) is mostly performed usi...
The aim of this work is to show a new scintigraphic device able to change automatically the length o...
The aim of this work is to show a new scintigraphic device able to change automatically the length o...
Parallel-hole SPECT collimators have traditionally been manufactured by stacking sheets of lead foil...
Stationary SPECT systems present many advantages compared to non-stationary systems: more stability ...
In SPECT imaging, stationary systems have been developed to avoid several of the practical issues as...
Collimator geometry has an important contribution on the image quality in SPECT imaging. The purpose...
Purpose: The aim of this study was to improve the uniformity of the axial spatial resolution and sen...
In clinical practice, brain SPECT is mostly performed using a dual-head SPECT scanner with fan-beam ...
The aim of this work is to develop an optimal collimator design for a stationary, compact SPECT inse...
The focus of this dissertation is the use of pinhole collimation in Nuclear Medicine. A pinhole is a...
This work optimized a multi-pinhole collimator for a stationary three-camera Single Photon Emission ...
The relative advantages of pinhole and parallel hole collimators for scintimammography with compact,...
Besides parallel and converging hole collimators which are frequently used in nuclear medicine, slat...
Parallel and converging hole collimators are most frequently used in nuclear medicine. Less common i...
Currently, clinical brain single photon emission computed tomography (SPECT) is mostly performed usi...
The aim of this work is to show a new scintigraphic device able to change automatically the length o...
The aim of this work is to show a new scintigraphic device able to change automatically the length o...