about
Quantitative in vivo cell-surface receptor imaging in oncology: kinetic modeling and paired-agent principles from nuclear medicine and optical imagingUse of measured scatter data for the attenuation correction of single photon emission tomography without transmission scanning.Effective noise-suppressed and artifact-reduced reconstruction of SPECT data using a preconditioned alternating projection algorithm.Joint reconstruction of activity and attenuation map using LM SPECT emission data.A detector response function design in pinhole SPECT including geometrical calibration.Characterization of a high-purity germanium detector for small-animal SPECT.Attenuation correction in emission tomography using the emission data--A reviewQuantitative capabilities of four state-of-the-art SPECT-CT camerasOptimisation of simultaneous tl-201/tc-99m dual isotope reconstruction with monte-carlo-based scatter correctionCharacterization of simulated incident scatter and the impact on quantification in dedicated breast single-photon emission computed tomography.Pre-clinical quantitative imaging and mouse-specific dosimetry for 111In-labelled radiotracersPhantom Validation of Tc-99m Absolute Quantification in a SPECT/CT Commercial DeviceAccuracy and precision assessment for activity quantification in individualized dosimetry of 177Lu-DOTATATE therapy.[123I]FP-CIT ENC-DAT normal database: the impact of the reconstruction and quantification methods.Three-dimensional Neumann-series approach to model light transport in nonuniform media.Simulating photon-transport in uniform media using the radiative transport equation: a study using the Neumann-series approach.The role of preclinical SPECT in oncological and neurological research in combination with either CT or MRI.Simplifying volumes-of-interest (VOIs) definition in quantitative SPECT: Beyond manual definition of 3D whole-organ VOIs.SPECT/CT: an update on technological developments and clinical applications.Analytically based photon scatter modeling for a multipinhole cardiac SPECT camera.Organ-specific SPECT activity calibration using 3D printed phantoms for molecular radiotherapy dosimetry.Impact of SPECT corrections on 3D-dosimetry for liver transarterial radioembolization using the patient relative calibration methodology.Quantitatively accurate activity measurements with a dedicated cardiac SPECT camera: Physical phantom experiments.Impact of respiratory motion and acquisition settings on SPECT liver dosimetry for radioembolization.A New Approach for Scatter Removal and Attenuation Compensation from SPECT/CT ImagesImproved scatter correction with factor analysis for planar and SPECT imaging.Onboard functional and molecular imaging: a design investigation for robotic multipinhole SPECTLow-dose single acquisition rest (99m)Tc/stress (201)Tl myocardial perfusion SPECT protocol: phantom studies and clinical validation.Quantitative Monte Carlo-based holmium-166 SPECT reconstruction.Comparison of attenuation, dual-energy-window, and model-based scatter correction of low-count SPECT to 82Rb PET/CT quantified myocardial perfusion scores.Monte Carlo-based quantitative pinhole SPECT reconstruction using a ray-tracing back-projector.Characterization of Compton-scatter imaging with an analytical simulation method.Implementation of absolute quantification in small-animal SPECT imaging: Phantom and animal studies.Single CT for attenuation correction of rest/stress cardiac SPECT perfusion imaging.A modified TEW approach to scatter correction for In-111 and Tc-99m dual-isotope small-animal SPECT.Scatter correction improves concordance in SPECT MPI with a dedicated cardiac SPECT solid-state camera.Optimization of a simultaneous dual-isotope 201Tl/123I-MIBG myocardial SPECT imaging protocol with a CZT camera for trigger zone assessment after myocardial infarction for routine clinical settings: Are delayed acquisition and scatter correction necImage-based SPECT calibration based on the evaluation of the Fraction of Activity in the Field of View.
P2860
Q27023605-D012D658-5548-4280-8CF6-7327DD4570D4Q30660329-E70A2739-EAFF-465F-830F-8C11E26441E2Q30984409-F0D08C67-A8F3-40EA-85E6-A02FC00A324AQ30984589-FDBC8C0E-7445-4A2E-8657-F729A21684F2Q33595028-2C08B2BE-7770-4EE5-9EA2-94049254FFDCQ35228944-8A187AC0-91D6-4B6E-A450-DB145763583AQ35914145-5FB40B57-2835-4E3C-A1EE-66DBAA1AB1FCQ36311938-EA9459DC-482C-46D0-9779-04EDCB5B42B1Q36424726-9890510F-0354-409B-901F-6695B28FC63AQ36508678-FA64DB04-DDBC-43F0-8E88-38A34A5B9843Q37437920-31E7CCED-D2C1-41A0-9474-4F90083F276FQ37550816-8C887983-B34E-4F5A-B458-E26913EB1902Q37608115-3D4A48D7-3A40-4B20-8623-7DAB7241B660Q37610763-107CCAB6-91DB-47B0-947B-1A17AAD613DFQ37658390-F7BFE9C0-6009-4DDF-B79F-8473C334D9E9Q37700884-B8B27E44-3BA6-4727-9953-B9E0D72A3393Q38217493-52CEBA5C-0687-4876-8E36-C408E016E1E8Q38957266-2720511B-4D1A-4377-A795-8761CAF58C2EQ39009093-DC2A02C3-A8A2-4380-BFD1-A77190A45CFFQ39223382-E67C2BAB-ED2D-43CA-B5E4-319C60092E71Q39605647-C79A29F7-97C9-4AD6-B79E-3924DB956347Q39637887-1A6BE51F-90A4-4C35-A6F6-2988C3A9EE3DQ40128525-55011CBF-C4CF-4F03-8A97-2CB9796668F0Q40489091-0B2EF895-8776-4F58-AD19-C2EA65B11D12Q41905366-C023C100-A082-4F6A-8C5D-F0259A73AA55Q42694195-B29972AB-C015-4F6D-ABDE-5ACFB83C9C4AQ42747035-97B9F3D5-C315-4AC1-B67A-95E80CC586A0Q44848258-BAAB386D-6660-4CEE-9A47-B1BE29E09B77Q45369216-4887D120-F97E-4AE6-8C33-91F555CB47CBQ46406871-98B520F8-4FD6-4F37-B47C-37E820A76A70Q47146215-FCAB0979-FBB3-46D3-A51C-F43302F0C841Q47575519-C76C5919-BFBE-48B8-BD89-54B2349DC144Q47843662-416A1C04-C8EC-4882-87D6-194816EA8A59Q48658913-11CA4198-62E9-449E-9670-4FE682469D89Q48667009-C3BDF204-ADDE-4722-AE77-60C1177D515EQ48820392-4441DF5C-8B89-43BA-8514-D6EB67B6B859Q53755351-93C209E8-C423-473B-9841-83E6599E465EQ55176573-A9705167-683D-415C-AD91-74FAC771A872
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 23 June 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Review and current status of SPECT scatter correction.
@en
Review and current status of SPECT scatter correction.
@nl
type
label
Review and current status of SPECT scatter correction.
@en
Review and current status of SPECT scatter correction.
@nl
prefLabel
Review and current status of SPECT scatter correction.
@en
Review and current status of SPECT scatter correction.
@nl
P356
P1476
Review and current status of SPECT scatter correction
@en
P2093
Brian F Hutton
Freek J Beekman
P304
P356
10.1088/0031-9155/56/14/R01
P50
P577
2011-06-23T00:00:00Z