PETSTEP: generation of synthetic PET lesions for fast evaluation of segmentation methods
2015 (English)In: Physica medica (Testo stampato), ISSN 1120-1797, E-ISSN 1724-191X, Vol. 31, no 8, 969-980 p.Article in journal (Other academic) Published
Purpose: This work describes PETSTEP (PET Simulator of Tracers via Emission Projection): a faster and more accessible alternative to Monte Carlo (MC) simulation generating realistic PET images, for studies assessing image features and segmentation techniques.
Methods: PETSTEP was implemented within Matlab as open source software. It allows generating threedimensional PET images from PET/CT data or synthetic CT and PET maps, with user-drawn lesions and user-set acquisition and reconstruction parameters. PETSTEP was used to reproduce images of the NEMA body phantom acquired on a GE Discovery 690 PET/CT scanner, and simulated with MC for the GE Discovery LS scanner, and to generate realistic Head and Neck scans. Finally the sensitivity (S) and Positive Predictive Value (PPV) of three automatic segmentation methods were compared when applied to the scanner-acquired and PETSTEP-simulated NEMA images.
Results: PETSTEP produced 3D phantom and clinical images within 4 and 6 min respectively on a single core 2.7 GHz computer. PETSTEP images of the NEMA phantom had mean intensities within 2% of the scanner-acquired image for both background and largest insert, and 16% larger background Full Width at Half Maximum. Similar results were obtained when comparing PETSTEP images to MC simulated data. The S and PPV obtained with simulated phantom images were statistically significantly lower than for the original images, but led to the same conclusions with respect to the evaluated segmentation methods.
Conclusions: PETSTEP allows fast simulation of synthetic images reproducing scanner-acquired PET data and shows great promise for the evaluation of PET segmentation methods.
Place, publisher, year, edition, pages
2015. Vol. 31, no 8, 969-980 p.
Positron emission tomography, Digital phantoms, Simulation, Image segmentation, Synthetic lesions
Other Physics Topics Cancer and Oncology Radiology, Nuclear Medicine and Medical Imaging
Research subject radiofysik
IdentifiersURN: urn:nbn:se:umu:diva-95493DOI: 10.1016/j.ejmp.2015.07.139ISI: 000366660400017PubMedID: 26321409OAI: oai:DiVA.org:umu-95493DiVA: diva2:759553
FunderSwedish National Infrastructure for Computing (SNIC), 2014/1-260