Add to ORKGRespiratory gating is a powerful tool for tackling motion-related issues in chest PET imaging. On current scanners the respiratory signal is obtained from external devices, whereas with Data-Driven methods it can be extracted directly from the data. The aim of this work is to show the increased potential of the application of Principal Component Analysis (PCA) on TOF data. We propose a methodology that retains the TOF information and compare it to the non-TOF method. We tested the method on 16 FDG oncology patients, monitored with an RPM camera. To further investigate the benefit of TOF, PCA was selectively applied to sets of TOF bins equidistant from the center. The correlation with the RPM, the level of noise and the respiratory-likeness ...
Background We aimed to evaluate the clinical robustness of a commercially developed data-driven resp...
Background We aimed to evaluate the clinical robustness of a commercially developed data-driven res...
Background We aimed to evaluate the clinical robustness of a commercially developed data-driven res...
Respiratory gating and motion correction can increase resolution in PET chest imaging, but require a...
Respiratory gating and motion correction can increase resolution in PET chest imaging, but require a...
Respiratory gating and motion correction can increase resolution in PET chest imaging, but require a...
Positron Emission Tomography (PET) is a nuclear medicine imaging technique which allows quantitative...
Respiratory gating and motion correction can increase resolution in PET chest imaging, but require a...
Patient respiratory motion during PET image acquisition leads to blurring in the reconstructed image...
Respiratory motion can degrade PET image quality and lead to inaccurate quantification of lesion upt...
Objective: Respiratory motion can degrade PET image quality and lead to inaccurate quantification o...
Objective: Respiratory motion can degrade PET image quality and lead to inaccurate quantification o...
Objective: Respiratory motion can degrade PET image quality and lead to inaccurate quantification o...
Objective: Respiratory motion can degrade PET image quality and lead to inaccurate quantification o...
Objective: Respiratory motion can degrade PET image quality and lead to inaccurate quantification o...
Background We aimed to evaluate the clinical robustness of a commercially developed data-driven resp...
Background We aimed to evaluate the clinical robustness of a commercially developed data-driven res...
Background We aimed to evaluate the clinical robustness of a commercially developed data-driven res...
Respiratory gating and motion correction can increase resolution in PET chest imaging, but require a...
Respiratory gating and motion correction can increase resolution in PET chest imaging, but require a...
Respiratory gating and motion correction can increase resolution in PET chest imaging, but require a...
Positron Emission Tomography (PET) is a nuclear medicine imaging technique which allows quantitative...
Respiratory gating and motion correction can increase resolution in PET chest imaging, but require a...
Patient respiratory motion during PET image acquisition leads to blurring in the reconstructed image...
Respiratory motion can degrade PET image quality and lead to inaccurate quantification of lesion upt...
Objective: Respiratory motion can degrade PET image quality and lead to inaccurate quantification o...
Objective: Respiratory motion can degrade PET image quality and lead to inaccurate quantification o...
Objective: Respiratory motion can degrade PET image quality and lead to inaccurate quantification o...
Objective: Respiratory motion can degrade PET image quality and lead to inaccurate quantification o...
Objective: Respiratory motion can degrade PET image quality and lead to inaccurate quantification o...
Background We aimed to evaluate the clinical robustness of a commercially developed data-driven resp...
Background We aimed to evaluate the clinical robustness of a commercially developed data-driven res...
Background We aimed to evaluate the clinical robustness of a commercially developed data-driven res...