TY - JOUR
T1 - Evaluation of a novel elastic respiratory motion correction algorithm on quantification and image quality in abdominothoracic PET/CT
AU - Meier, Joseph G.
AU - Wu, Carol C.
AU - Betancourt Cuellar, Sonia L.
AU - Truong, Mylene T.
AU - Erasmus, Jeremy J.
AU - Einstein, Samuel A.
AU - Mawlawi, Osama R.
N1 - Publisher Copyright:
COPYRIGHT © 2019 by the Society of Nuclear Medicine and Molecular Imaging.
PY - 2019/2/1
Y1 - 2019/2/1
N2 - Our aim was to evaluate in phantom and patient studies a recently developed elastic motion deblurring (EMDB) technique that makes use of all the acquired PET data and compare its performance with other conventional techniques such as phase-based gating (PBG) and HDChest (HDC), both of which use fractions of the acquired data. Comparisons were made with respect to static whole-body (SWB) images with no motion correction. Methods: A phantom simulating respiratory motion of the thorax with lung lesions (5 spheres with internal diameters of 10–28 mm) was scanned with 0, 1, 2, and 3 cm of motion. Four reconstructions were performed: SWB, PBG, HDC, and EMDB. For PBG, the average (PBG ave ) and maximum bin (PBG max ) were used. To compare the reconstructions, the ratios of SUV max , SUV peak , and contrast-to-noise ratio (CNR) were calculated with respect to SWB. Additionally, 46 patients with lung or liver tumors less than 3 cm in diameter were studied. Measurements of SUV max , SUV peak , and CNR were made for 46 lung and 19 liver lesions. To evaluate image noise, the SUV SD was measured in healthy lung and liver tissue and in the phantom background. Finally, the subjective image quality of patient examinations was scored on a 5-point scale by 4 radiologists. Results: In the phantom, EMDB increased SUV max and SUV peak over SWB but to a lesser extent than the other reconstruction methodologies. The ratio of CNR with respect to SWB for EMDB, however, was higher than all other reconstructions (0.68 with EMDB . 0.54 with HDC . 0.41 with PBG max . 0.31 with PBG ave ). Similar results were seen in patient studies. SUV max and SUV peak were higher by, respectively, 19.3% and 11.1% with EMDB, 21.6% and 13.9% with HDC, 22.8% and 12.8% with PBG ave , and 45.6% and 26.8% with PBG max , compared with SWB. Lung and liver noise increased with EMDB by, respectively, 3% and 15%, with HDC by 35% and 56%, with PBG ave by 100% and 170%, and with PBG max by 146% and 219%. CNR increased in lung and liver tumors only with EMDB (18% and 13%, respectively) and decreased with HDC (−14% and −23%), PBG ave (−39% and −63%), and PBG max (−18% and −46%). The average radiologist scores of image quality were 4.0 ± 0.8 with SWB, 3.7 ± 1.0 with EMDB, 3.1 ± 1.0 with HDC, and 1.5 ± 0.7 with PBG. Conclusion: The EMDB algorithm had the least increase in image noise, improved lesion CNR, and had the highest overall image quality score.
AB - Our aim was to evaluate in phantom and patient studies a recently developed elastic motion deblurring (EMDB) technique that makes use of all the acquired PET data and compare its performance with other conventional techniques such as phase-based gating (PBG) and HDChest (HDC), both of which use fractions of the acquired data. Comparisons were made with respect to static whole-body (SWB) images with no motion correction. Methods: A phantom simulating respiratory motion of the thorax with lung lesions (5 spheres with internal diameters of 10–28 mm) was scanned with 0, 1, 2, and 3 cm of motion. Four reconstructions were performed: SWB, PBG, HDC, and EMDB. For PBG, the average (PBG ave ) and maximum bin (PBG max ) were used. To compare the reconstructions, the ratios of SUV max , SUV peak , and contrast-to-noise ratio (CNR) were calculated with respect to SWB. Additionally, 46 patients with lung or liver tumors less than 3 cm in diameter were studied. Measurements of SUV max , SUV peak , and CNR were made for 46 lung and 19 liver lesions. To evaluate image noise, the SUV SD was measured in healthy lung and liver tissue and in the phantom background. Finally, the subjective image quality of patient examinations was scored on a 5-point scale by 4 radiologists. Results: In the phantom, EMDB increased SUV max and SUV peak over SWB but to a lesser extent than the other reconstruction methodologies. The ratio of CNR with respect to SWB for EMDB, however, was higher than all other reconstructions (0.68 with EMDB . 0.54 with HDC . 0.41 with PBG max . 0.31 with PBG ave ). Similar results were seen in patient studies. SUV max and SUV peak were higher by, respectively, 19.3% and 11.1% with EMDB, 21.6% and 13.9% with HDC, 22.8% and 12.8% with PBG ave , and 45.6% and 26.8% with PBG max , compared with SWB. Lung and liver noise increased with EMDB by, respectively, 3% and 15%, with HDC by 35% and 56%, with PBG ave by 100% and 170%, and with PBG max by 146% and 219%. CNR increased in lung and liver tumors only with EMDB (18% and 13%, respectively) and decreased with HDC (−14% and −23%), PBG ave (−39% and −63%), and PBG max (−18% and −46%). The average radiologist scores of image quality were 4.0 ± 0.8 with SWB, 3.7 ± 1.0 with EMDB, 3.1 ± 1.0 with HDC, and 1.5 ± 0.7 with PBG. Conclusion: The EMDB algorithm had the least increase in image noise, improved lesion CNR, and had the highest overall image quality score.
KW - Elastic respiratory motion correction
KW - Noise reduction
KW - PET/CT
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U2 - 10.2967/jnumed.118.213884
DO - 10.2967/jnumed.118.213884
M3 - Article
C2 - 30115689
AN - SCOPUS:85060944684
SN - 0161-5505
VL - 60
SP - 279
EP - 284
JO - Journal of Nuclear Medicine
JF - Journal of Nuclear Medicine
IS - 2
ER -