Tehran University of Medical Sciences

Science Communicator Platform

Stay connected! Follow us on X network (Twitter):
Share By
Standardization and Optimization of Siemens Biograph Truepoint Pet/Ct Acquisition and Reconstruction Parameters: Simultaneous Qualitative and Quantitative Assessments Publisher



Vosoughi H1, 2 ; Emami F3 ; Momennezhad M4 ; Geramifar P2 ; Rahmim A5
Authors

Source: Iranian Journal of Nuclear Medicine Published:2024


Abstract

Introduction: Data acquisition and image reconstruction protocols affect image quality and quantification accuracy in PET imaging. We aimed to standardize and optimize image acquisition, and reconstruction parameter sets using a simultaneous quantitative and qualitative assessment framework for a lutetium oxyorthosilicate (LSO)-based PET/CT scanner. Methods: The NEMA IEC Body Phantom acquisition was performed in list mode for 10 minutes with four spheres to background ratios (SBRs). Raw PET data were reconstructed using 60 different protocols. Image quality was evaluated for standardization using contrast, CNR, and noise. Recovery coefficient (RC) measurements were performed for different common VOI definitions. Results: No significant differences were observed between RCs for various acquisition durations. The contrast to noise ratio (CNR) increased at all SBRs by expanding the acquisition duration from 60 to 600 seconds. PET scan time was reduced to 90 seconds per bed position while preserving image quality. Up to 50% improvement in CNR for the highest sub-iteration with a high level of smoothing was observed. PSF-based reconstruction produced a positive bias of RCmax in high SBRs (8 and 10) using higher sub-iterations (30 to 60) with Gaussian filters less than 6 mm FWHM. Moreover, a Sub-iteration of more than 32 with a 4-6 mm FWHM Gaussian filter provides optimized reconstruction sets. Conclusion: Our study demonstrates it would be feasible for PET image acquisition and reconstruction settings to simultaneously allow optimal lesion detection with high image quality while providing accurate quantification. Copyright © 2024 The Authors. Published by Tehran University of Medical Sciences. This work is published as an open access article distributed under the terms of the Creative Commons Attribution 4.0 License (http://creativecommons.org/licenses/by-nc/4). Non-commercial uses of the work are permitted, provided the original work is properly cited.
Related Docs
View other Related Docs
1. Multicenter Quantitative 18F-Fluorodeoxyglucose Positron Emission Tomography Performance Harmonization: Use of Hottest Voxels Towards More Robust Quantification, Quantitative Imaging in Medicine and Surgery (2023)
2. Quantification of the Impact of Tof and Psf on Pet Images Using the Noise-Matching Concept: Clinical and Phantom Study, Nuclear Science and Techniques (2017)
3. Quantification and Reduction of Respiratory Induced Artifacts in Positron Emission Tomography/Computed Tomography Using the Time-Of-Flight Technique, Nuclear Medicine Communications (2017)
Experts (# of related papers)
View all Related Experts
Mohammad Reza Ay (15)
Parham Geramifar (5)
Other Related Docs
4. Pet Nema Iq Phantom Dataset: Image Reconstruction Settings for Quantitative Pet Imaging, Data in Brief (2021)
5. Impact of Time-Of-Flight and Point-Spread-Function for Respiratory Artifact Reduction in Pet/Ct Imaging: Focus on Standardized Uptake Value, Tanaffos (2017)
6. The Impact of Iterative Reconstruction Protocol, Signal-To-Background Ratio and Background Activity on Measurement of Pet Spatial Resolution, Japanese Journal of Radiology (2020)
7. Reducing Scan Time Using Time-Of-Flight Protocol in Clinical [18F]Fdg-Pet/Ct Imaging: A Feasibility Study, Iranian Journal of Nuclear Medicine (2023)
8. Impact of Random and Scattered Coincidences From Outside of Field of View on Positron Emission Tomography/Computed Tomography Imaging With Different Reconstruction Protocols, Nuclear Science and Techniques (2023)
9. The Influence of Using Different Reconstruction Algorithms on Sensitivity of Quantitative 18F-Fdg-Pet Volumetric Measures to Background Activity Variation, Iranian Journal of Nuclear Medicine (2018)
10. Optimizing Pet-Ct Image Reconstruction Parameters for Diagnostic Imaging Using Non-Tof Algorithms, Biochemical and Cellular Archives (2018)
11. Impact of Image Reconstruction Methods on Quantitative Accuracy and Variability of Fdg-Pet Volumetric and Textural Measures in Solid Tumors, European Radiology (2019)
12. Role of Lesion-To-Background Activity Ratio and Background Activity in Optimization of Reconstruction Protocols for Fdg Pet/Ct Images of Overweight Patients: A Phantom Study, Iranian Journal of Radiology (2023)
13. Impact of Various Image Reconstruction Methods on Joint Compensation of Respiratory Motion and Partial Volume Effects in Whole-Body18f-Fdg Pet/Ct Imaging: Patients With Non-Small Cell Lung Cancer, Iranian South Medical Journal (2022)
14. Accurate Monte Carlo Modeling and Performance Evaluation of a Total-Body Pet Scanner, 2021 IEEE Nuclear Science Symposium and Medical Imaging Conference Record# NSS/MIC 2021 and 28th International Symposium on Room-Temperature Semiconductor Detectors# RTSD 2022 (2021)
15. Design, Optimization and Performance Evaluation of Bm-Pet: A Simulation Study, Nuclear Instruments and Methods in Physics Research# Section A: Accelerators# Spectrometers# Detectors and Associated Equipment (2019)
16. Effect of Span and Mrd Configurations on Small Animal Pet Image Quality and Quantitative Accuracy, Journal of Biomedical Physics and Engineering (2025)
17. Nema Nu-4 2008 Performance Evaluation of Xtrim-Pet: A Prototype Sipm-Based Preclinical Scanner, Medical Physics (2019)
18. Recovery of Missing Data in Partial Geometry Pet Scanners: Compensation in Projection Space Vs Image Space, Medical Physics (2018)
19. Optimizing Scan Time and Bayesian Penalized Likelihood Reconstruction Algorithm in Copper-64 Pet/Ct Imaging: A Phantom Study, Biomedical Physics and Engineering Express (2024)
20. Low-Dose 90Y Pet/Ct Imaging Optimized for Lesion Detectability and Quantitative Accuracy: A Phantom Study to Assess the Feasibility of Pretherapy Imaging to Plan the Therapeutic Dose, Nuclear Medicine Communications (2017)