Jun Bao scite author profile

Within the EXPLORER Consortium, the construction of the world's first total-body PET/CT scanner has recently been completed. The 194-cm axial field of view of the EXPLORER PET/CT scanner is sufficient to cover, for the first time, the entire human adult body in a single acquisition in more than 99% of the population and allows total-body pharmacokinetic studies with frame durations as short as 1 s. The large increase in sensitivity arising from total-body coverage as well as increased solid angle for detection at any point within the body allows whole-body 18 F-FDG PET studies to be acquired with unprecedented count density, improving the signal-tonoise ratio of the resulting images. Alternatively, the sensitivity gain can be used to acquire diagnostic PET images with very small amounts of activity in the field of view (25 MBq, 0.7 mCi or less), with very short acquisition times (∼1 min or less) or at later time points after the tracer's administration. We report here on the first human imaging studies on the EXPLORER scanner using a range of different protocols that provide initial evidence in support of these claims. These case studies provide the foundation for future carefully controlled trials to quantitatively evaluate the improvements possible through total-body PET imaging.

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Performance Evaluation of the uEXPLORER Total-Body PET/CT Scanner Based on NEMA NU 2-2018 with Additional Tests to Characterize PET Scanners with a Long Axial Field of View

Spencer

et al. 2020

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The ECAT HRRT: performance and first clinical application of the new high resolution research tomograph

Wienhard

Schmand

Casey

et al. 2002

IEEE Trans. Nucl. Sci.

376

198

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Total-Body Dynamic Reconstruction and Parametric Imaging on the uEXPLORER

et al. 2019

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Performance evaluation of a new LSO high resolution research tomograph-HRRT

Schmand

Wienhard²,

Casey³

et al.

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Jun Bao

First Human Imaging Studies with the EXPLORER Total-Body PET Scanner*

Performance Evaluation of the uEXPLORER Total-Body PET/CT Scanner Based on NEMA NU 2-2018 with Additional Tests to Characterize PET Scanners with a Long Axial Field of View

The ECAT HRRT: performance and first clinical application of the new high resolution research tomograph

Total-Body Dynamic Reconstruction and Parametric Imaging on the uEXPLORER

Performance evaluation of a new LSO high resolution research tomograph-HRRT

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