Navdeep Ojha scite author profile

The Ingenuity TF PET–MRI is a newly released whole-body hybrid PET–MR imaging system with a Philips time-of-flight GEMINI TF PET and Achieva 3T X-series MRI system. Compared to PET–CT, modifications to the positron emission tomography (PET) gantry were made to avoid mutual system interference and deliver uncompromising performance which is equivalent to the standalone systems. The PET gantry was redesigned to introduce magnetic shielding for the photomultiplier tubes (PMTs). Stringent electromagnetic noise requirements of the MR system necessitated the removal of PET gantry electronics to be housed in the PET–MR equipment room. We report the standard NEMA measurements for the PET scanner. PET imaging and performance measurements were done at Geneva University Hospital as described in the NEMA Standards NU2-2007 manual. The scatter fraction (SF) and noise equivalent count rate (NECR) measurements with the NEMA cylinder (20 cm diameter) were repeated for two larger cylinders (27 cm and 35 cm diameter), which better represent average and heavy patients. A NEMA/IEC torso phantom was used for overall assessment of image quality. The transverse and axial resolution near the center was 4.7 mm. Timing and energy resolution of the PET–MR system were measured to be 525 ps and 12%, respectively. The results were comparable to PET–CT systems demonstrating that the effect of design modifications required on the PET system to remove the harmful effect of the magnetic field on the PMTs was negligible. The absolute sensitivity of this scanner was 7.0 cps kBq−1, whereas SF was 26%. NECR measurements performed with cylinders having three different diameters, and image quality measurements performed with IEC phantom yielded excellent results. The Ingenuity TF PET–MRI represents the first commercial whole-body hybrid PET–MRI system. The performance of the PET subsystem was comparable to the GEMINI TF PET–CT system using phantom and patient studies. It is conceived that advantages of hybrid PET–MRI will become more evident in the near future.

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Automatic, three-segment, MR-based attenuation correction for whole-body PET/MR data

Schulz

Torres-Espallardó

Renisch

et al. 2010

Eur J Nucl Med Mol Imaging

278

220

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MR-based attenuation correction for a whole-body sequential PET/MR system

Hu¹,

Ojha²,

Renisch³

et al. 2009

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Attenuation correction for MR table and coils for a sequential PET/MR system

Zhang

Pal

et al. 2009

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Navdeep Ojha

Design and performance evaluation of a whole-body Ingenuity TF PET–MRI system

Automatic, three-segment, MR-based attenuation correction for whole-body PET/MR data

MR-based attenuation correction for a whole-body sequential PET/MR system

Attenuation correction for MR table and coils for a sequential PET/MR system

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