Quantitative comparison of data-driven gating and external hardware gating for 18F-FDG PET-MRI in patients with esophageal tumors

Quantitative comparison of data-driven gating and external hardware gating for 18F-FDG PET-MRI in patients with esophageal tumors

Abstract Background Respiratory motion during PET imaging reduces image quality. Data-driven gating (DDG) based on principal component analysis (PCA) can be used to identify respiratory signals. The use of DDG, without need for external devices, would greatly increase the feasibility of using respir...

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Main Authors: Sofia Kvernby, Nafsika Korsavidou Hult, Elin Lindström, Jonathan Sigfridsson, Gustav Linder, Jakob Hedberg, Håkan Ahlström, Tomas Bjerner, Mark Lubberink
Format: Article
Language:English
Published: SpringerOpen 2021-03-01
Series:European Journal of Hybrid Imaging
Subjects:
Respiratory gating
DDG
PET-MRI
Esophageal tumors
Online Access:https://doi.org/10.1186/s41824-021-00099-x
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spelling doaj-c17487bec6e94992ad0c78610589698c2021-03-28T11:42:44ZengSpringerOpenEuropean Journal of Hybrid Imaging2510-36362021-03-015111110.1186/s41824-021-00099-xQuantitative comparison of data-driven gating and external hardware gating for 18F-FDG PET-MRI in patients with esophageal tumorsSofia Kvernby0Nafsika Korsavidou Hult1Elin Lindström2Jonathan Sigfridsson3Gustav Linder4Jakob Hedberg5Håkan Ahlström6Tomas Bjerner7Mark Lubberink8Radiology & Nuclear Medicine, Department of Surgical Sciences, Uppsala UniversityRadiology & Nuclear Medicine, Department of Surgical Sciences, Uppsala UniversityRadiology & Nuclear Medicine, Department of Surgical Sciences, Uppsala UniversityMedical Imaging Centre, Uppsala University HospitalSection of Gastrointestinal Surgery, Department of Surgical Sciences, Uppsala UniversitySection of Gastrointestinal Surgery, Department of Surgical Sciences, Uppsala UniversityRadiology & Nuclear Medicine, Department of Surgical Sciences, Uppsala UniversityRadiology & Nuclear Medicine, Department of Surgical Sciences, Uppsala UniversityRadiology & Nuclear Medicine, Department of Surgical Sciences, Uppsala UniversityAbstract Background Respiratory motion during PET imaging reduces image quality. Data-driven gating (DDG) based on principal component analysis (PCA) can be used to identify respiratory signals. The use of DDG, without need for external devices, would greatly increase the feasibility of using respiratory gating in a routine clinical setting. The objective of this study was to evaluate data-driven gating in relation to external hardware gating and regular static image acquisition on PET-MRI data with respect to SUVmax and lesion volumes. Methods Sixteen patients with esophageal or gastroesophageal cancer (Siewert I and II) underwent a 6-min PET scan on a Signa PET-MRI system (GE Healthcare) 1.5–2 h after injection of 4 MBq/kg 18F-FDG. External hardware gating was done using a respiratory bellow device, and DDG was performed using MotionFree (GE Healthcare). The DDG raw data files and the external hardware-gating raw files were created on a Matlab-based toolbox from the whole 6-min scan LIST-file. For comparison, two 3-min static raw files were created for each patient. Images were reconstructed using TF-OSEM with resolution recovery with 2 iterations, 28 subsets, and 3-mm post filter. SUVmax and lesion volume were measured in all visible lesions, and noise level was measured in the liver. Paired t-test, linear regression, Pearson correlation, and Bland-Altman analysis were used to investigate difference, correlation, and agreement between the methods. Results A total number of 30 lesions were included in the study. No significant differences between DDG and external hardware-gating SUVmax or lesion volumes were found, but the noise level was significantly reduced in the DDG images. Both DDG and external hardware gating demonstrated significantly higher SUVmax (9.4% for DDG, 10.3% for external hardware gating) and smaller lesion volume (− 5.4% for DDG, − 6.6% for external gating) in comparison with non-gated static images. Conclusions Data-driven gating with MotionFree for PET-MRI performed similar to external device gating for esophageal lesions with respect to SUVmax and lesion volume. Both gating methods significantly increased the SUVmax and reduced the lesion volume in comparison with non-gated static acquisition. DDG resulted in reduced image noise compared to external device gating and static images.https://doi.org/10.1186/s41824-021-00099-xRespiratory gatingDDGPET-MRIEsophageal tumors
collection DOAJ
language English
format Article
sources DOAJ
author Sofia Kvernby
Nafsika Korsavidou Hult
Elin Lindström
Jonathan Sigfridsson
Gustav Linder
Jakob Hedberg
Håkan Ahlström
Tomas Bjerner
Mark Lubberink
spellingShingle Sofia Kvernby
Nafsika Korsavidou Hult
Elin Lindström
Jonathan Sigfridsson
Gustav Linder
Jakob Hedberg
Håkan Ahlström
Tomas Bjerner
Mark Lubberink
Quantitative comparison of data-driven gating and external hardware gating for 18F-FDG PET-MRI in patients with esophageal tumors
European Journal of Hybrid Imaging
Respiratory gating
DDG
PET-MRI
Esophageal tumors
author_facet Sofia Kvernby
Nafsika Korsavidou Hult
Elin Lindström
Jonathan Sigfridsson
Gustav Linder
Jakob Hedberg
Håkan Ahlström
Tomas Bjerner
Mark Lubberink
author_sort Sofia Kvernby
title Quantitative comparison of data-driven gating and external hardware gating for 18F-FDG PET-MRI in patients with esophageal tumors
title_short Quantitative comparison of data-driven gating and external hardware gating for 18F-FDG PET-MRI in patients with esophageal tumors
title_full Quantitative comparison of data-driven gating and external hardware gating for 18F-FDG PET-MRI in patients with esophageal tumors
title_fullStr Quantitative comparison of data-driven gating and external hardware gating for 18F-FDG PET-MRI in patients with esophageal tumors
title_full_unstemmed Quantitative comparison of data-driven gating and external hardware gating for 18F-FDG PET-MRI in patients with esophageal tumors
title_sort quantitative comparison of data-driven gating and external hardware gating for 18f-fdg pet-mri in patients with esophageal tumors
publisher SpringerOpen
series European Journal of Hybrid Imaging
issn 2510-3636
publishDate 2021-03-01
description Abstract Background Respiratory motion during PET imaging reduces image quality. Data-driven gating (DDG) based on principal component analysis (PCA) can be used to identify respiratory signals. The use of DDG, without need for external devices, would greatly increase the feasibility of using respiratory gating in a routine clinical setting. The objective of this study was to evaluate data-driven gating in relation to external hardware gating and regular static image acquisition on PET-MRI data with respect to SUVmax and lesion volumes. Methods Sixteen patients with esophageal or gastroesophageal cancer (Siewert I and II) underwent a 6-min PET scan on a Signa PET-MRI system (GE Healthcare) 1.5–2 h after injection of 4 MBq/kg 18F-FDG. External hardware gating was done using a respiratory bellow device, and DDG was performed using MotionFree (GE Healthcare). The DDG raw data files and the external hardware-gating raw files were created on a Matlab-based toolbox from the whole 6-min scan LIST-file. For comparison, two 3-min static raw files were created for each patient. Images were reconstructed using TF-OSEM with resolution recovery with 2 iterations, 28 subsets, and 3-mm post filter. SUVmax and lesion volume were measured in all visible lesions, and noise level was measured in the liver. Paired t-test, linear regression, Pearson correlation, and Bland-Altman analysis were used to investigate difference, correlation, and agreement between the methods. Results A total number of 30 lesions were included in the study. No significant differences between DDG and external hardware-gating SUVmax or lesion volumes were found, but the noise level was significantly reduced in the DDG images. Both DDG and external hardware gating demonstrated significantly higher SUVmax (9.4% for DDG, 10.3% for external hardware gating) and smaller lesion volume (− 5.4% for DDG, − 6.6% for external gating) in comparison with non-gated static images. Conclusions Data-driven gating with MotionFree for PET-MRI performed similar to external device gating for esophageal lesions with respect to SUVmax and lesion volume. Both gating methods significantly increased the SUVmax and reduced the lesion volume in comparison with non-gated static acquisition. DDG resulted in reduced image noise compared to external device gating and static images.
topic Respiratory gating
DDG
PET-MRI
Esophageal tumors
url https://doi.org/10.1186/s41824-021-00099-x
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