Abstract
PurposeTo determine the impact of the Bayesian penalized likelihood (BPL) reconstruction algorithm in comparison to OSEM on hypoxia PET/CT images of NSCLC using 18F-MIZO and 18F-FAZA.Materials and methodsImages of low-contrasted (SBR = 3) micro-spheres of Jaszczak phantom were acquired. Twenty patients with lung neoplasia were included. Each patient benefitted from 18F-MISO and/or 18F-FAZA PET/CT exams, reconstructed with OSEM and BPL. Lesion was considered as hypoxic if the lesion SUVmax > 1.4. A blind evaluation of lesion detectability and image quality was performed on a set of 78 randomized BPL and OSEM images by 10 nuclear physicians. SUVmax, SUVmean, and hypoxic volumes using 3 thresholding approaches were measured and compared for each reconstruction.ResultsThe phantom and patient datasets showed a significant increase of quantitative parameters using BPL compared to OSEM but had no impact on detectability. The optimal beta parameter determined by the phantom analysis was β350. Regarding patient data, there was no clear trend of image quality improvement using BPL. There was no correlation between SUVmax increase with BPL and either SUV or hypoxic volume from the initial OSEM reconstruction. Hypoxic volume obtained by a SUV > 1.4 thresholding was not impacted by the BPL reconstruction parameter.ConclusionBPL allows a significant increase in quantitative parameters and contrast without significantly improving the lesion detectability or image quality. The variation in hypoxic volume by BPL depends on the method used but SUV > 1.4 thresholding seems to be the more robust method, not impacted by the reconstruction method (BPL or OSEM).Trial registrationClinicalTrials.gov, NCT02490696. Registered 1 June 2015
Highlights
18F-Fluorodeoxyglyucose (18F-FDG) PET/CT is a commonly used imaging modality to help in diagnosing and stratifying diseases with various indications in oncology, cardiology, infectiology, or rheumatology.In oncology, several studies have shown the interest to use metabolic information from PET/CT to optimize radiotherapy delineation [1] with 18F-FDG
Hypoxic volume obtained by a SUV > 1.4 thresholding was not impacted by the Bayesian penalized likelihood (BPL) reconstruction parameter
BPL allows a significant increase in quantitative parameters and contrast without significantly improving the lesion detectability or image quality
Summary
18F-Fluorodeoxyglyucose (18F-FDG) PET/CT is a commonly used imaging modality to help in diagnosing and stratifying diseases with various indications in oncology, cardiology, infectiology, or rheumatology.In oncology, several studies have shown the interest to use metabolic information from PET/CT to optimize radiotherapy delineation [1] with 18F-FDG. Reconstruction of PET raw data is based on iterative methods, the most commonly used being the ordered subset expectation maximization (OSEM). We used a random subset of nonCT-fused 2D OSEM and BPL PET images showing each lesion twice (OSEM and BPL) but not consecutively allowing a paired statistical analysis (for BPL, b350 was chosen as a trade-off between a CRC increase and noise limitation). All these images contained the whole lungs and the observers were informed of the presence of a lesion on each slice.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
