2010
Novel Scatter Compensation of List-Mode PET Data Using Spatial and Energy Dependent Corrections
Guérin B, Fakhri G. Novel Scatter Compensation of List-Mode PET Data Using Spatial and Energy Dependent Corrections. IEEE Transactions On Medical Imaging 2010, 30: 759-773. PMID: 21118770, PMCID: PMC3120772, DOI: 10.1109/tmi.2010.2095025.Peer-Reviewed Original ResearchConceptsScattered coincidencesEnergy resolutionE-pdfNCAT phantomDependent correctionsEnergy of individual photonsScatter correctionEnergy dependent correctionsEnergy probability density functionScatter correction schemeTotal energy spectrumList-mode acquisitionEnergy informationPositron emission tomography dataActivity distribution estimationScatter sinogramIndividual photonsEnergy spectrumCylindrical phantomEnergy distributionMonte Carlo simulationsScattering approachPhotonsScatteringScattering component
2008
Realistic PET Monte Carlo Simulation with Pixelated Block Detectors, Light Sharing, Random Coincidences and Dead-Time Modeling
Guérin B, Fakhri G. Realistic PET Monte Carlo Simulation with Pixelated Block Detectors, Light Sharing, Random Coincidences and Dead-Time Modeling. IEEE Transactions On Nuclear Science 2008, 55: 942-952. PMID: 19079776, PMCID: PMC2600659, DOI: 10.1109/tns.2008.924064.Peer-Reviewed Original ResearchBlock detectorsDiscovery STRandom coincidencesSimSET softwareMonte Carlo transport codeElectronics dead-timeNEMA NU 2Detector dead-timeDead-timeMonte Carlo simulation softwarePositron emission tomography scannerSimulated spatial resolutionPET modelingSpatial resolutionWhole scannerCoincidence spectraPhoton interactionsEnergy spectrumNU 2Light sharingTransport codeSingles ratesCrystal elementsDead-time modelMonte Carlo simulations
2005
Realistic Monte Carlo PET Simulation with Pixellated Block Detectors, Light Sharing and Randoms Modeling
Guérin B, Fakhri G. Realistic Monte Carlo PET Simulation with Pixellated Block Detectors, Light Sharing and Randoms Modeling. 2005, 3: 1563-1567. DOI: 10.1109/nssmic.2005.1596617.Peer-Reviewed Original ResearchPET scannerBlock detectorsPhoton transportRandom coincidencesSimSET softwareMonte Carlo transport codeNEMA NU 2Model of photon transportEnergy weighted averageModel photon transportLight-sharingEnergy spectrumNU 2Light sharingTransport codeCrystal elementsMonte Carlo simulationsPET simulationsVery good agreementInteraction pointPET acquisitionDetection crystalAttenuation distributionDetectorCarlo simulations
1998
Artificial neural network as a tool to compensate for scatter and attenuation in radionuclide imaging.
Maksud P, Fertil B, Rica C, El Fakhri G, Aurengo A. Artificial neural network as a tool to compensate for scatter and attenuation in radionuclide imaging. Journal Of Nuclear Medicine 1998, 39: 735-45. PMID: 9544691.Peer-Reviewed Original ResearchConceptsEnergy spectrumCompton scatteringRadioactive sourcesImages of radioactive sourcesScatter correctionArtificial neural networkNeural networkNumerical Monte Carlo simulationsMonte Carlo simulationsPelvis scansIncident photonsMultilayer neural networkProjection imagesScatteringComptonCarlo simulationsDiffusion mediaSource distributionSpectrum acquisitionEnergyGeometric sourcesHomogeneous mediumCorrectionSpectraNetwork