Clinical impact of time-of-flight and point response modeling in PET reconstructions: a lesion detection study. - Wikidata - wikimedia - TriplyDB

Clinical impact of time-of-flight and point response modeling in PET reconstructions: a lesion detection study.

Clinical impact of time-of-flight and point response modeling in PET reconstructions: a lesion detection study.

http://www.wikidata.org/entity/Q36739606

about

Positron emission tomography-magnetic resonance imaging: technical review.Visualization, imaging and new preclinical diagnostics in radiation oncology.Efficient visual-search model observers for PET.Determination of accuracy and precision of lesion uptake measurements in human subjects with time-of-flight PET.The association of tumor-to-background ratios and SUVmax deviations related to point spread function and time-of-flight F18-FDG-PET/CT reconstruction in colorectal liver metastases.Impact of point spread function modelling and time of flight on FDG uptake measurements in lung lesions using alternative filtering strategies Evaluation of the Effect of Tumor Position on Standardized Uptake Value Using Time-of-Flight Reconstruction and Point Spread Function Numerical observer for atherosclerotic plaque classification in spectral computed tomography.Point-spread function reconstructed PET images of sub-centimeter lesions are not quantitative.Minimum lesion detectability as a measure of PET system performance.Resolution modeling in PET imaging: theory, practice, benefits, and pitfalls.New prospects for PET in prostate cancer imaging: a physicist's viewpoint.Reconstruction of uptake patterns in PET: The influence of regularizing prior.Pre-clinical Positron Emission Tomography Reconstruction Algorithm Effect on Cu-64 ATSM Lesion Hypoxia.Effect of time-of-flight and point spread function modeling on detectability of myocardial defects in PET.The influence of different signal-to-background ratios on spatial resolution and F18-FDG-PET quantification using point spread function and time-of-flight reconstruction.Technical note: how to determine the FDG activity for tumour PET imaging that satisfies European guidelines.Noise propagation in resolution modeled PET imaging and its impact on detectability.Point/counterpoint. Resolution modeling enhances PET imaging.Evaluation of lesion detectability in positron emission tomography when using a convergent penalized likelihood image reconstruction method.The impact of image reconstruction settings on 18F-FDG PET radiomic features: multi-scanner phantom and patient studies.Diagnostic implications of a small-voxel reconstruction for loco-regional lymph node characterization in breast cancer patients using FDG-PET/CT.Lesion detection and quantification performance of the Tachyon-I time-of-flight PET scanner: phantom and human studies.A phantom design for assessment of detectability in PET imaging.

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P2860

Clinical impact of time-of-flight and point response modeling in PET reconstructions: a lesion detection study.

http://www.wikidata.org/entity/Q36739606

description

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Clinical impact of time-of-fli ...... ons: a lesion detection study.

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David Townsend

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Georges El Fakhri

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Joshua Schaefferkoetter

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Michael Casey

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P2860

Impact of time-of-flight on PET tumor detection.

An assessment of the impact of incorporating time-of-flight information into clinical PET/CT imaging.

Bias in iterative reconstruction of low-statistics PET data: benefits of a resolution model.

Human- and model-observer performance in ramp-spectrum noise: effects of regularization and object variability.

Improvement in lesion detection with whole-body oncologic time-of-flight PET.

Impact of time-of-flight PET on whole-body oncologic studies: a human observer lesion detection and localization study

Effect of Scan Time on Oncologic Lesion Detection in Whole-Body PET.

Evaluation of Multiclass Model Observers in PET LROC Studies.

Model observers for assessment of image quality.

Benefit of time-of-flight in PET: experimental and clinical results.

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