Anu Grover scite author profile

Anu Grover

2Publications

79Citation Statements Received

69Citation Statements Given

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101

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University Hospitals Case Medical Center, University Hospitals of Cleveland, Case Western Reserve University

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Performance evaluation of the Ingenuity TF PET/CT scanner with a focus on high count-rate conditions

Kolthammer

Grover

et al. 2014

Phys. Med. Biol.

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This study evaluated the positron emission tomography (PET) imaging performance of the Ingenuity TF 128 PET/computed tomography (CT) scanner which has a PET component that was designed to support a wider radioactivity range than is possible with those of Gemini TF PET/CT and Ingenuity TF PET/MR. Spatial resolution, sensitivity, count rate characteristics and image quality were evaluated according to the NEMA NU 2–2007 standard and ACR phantom accreditation procedures; these were supplemented by additional measurements intended to characterize the system under conditions that would be encountered during quantitative cardiac imaging with 82Rb. Image quality was evaluated using a hot spheres phantom, and various contrast recovery and noise measurements were made from replicated images. Timing and energy resolution, dead time, and the linearity of the image activity concentration, were all measured over a wide range of count rates. Spatial resolution (4.8– 5.1 mm FWHM), sensitivity (7.3 cps kBq−1), peak noise-equivalent count rate (124 kcps), and peak trues rate (365 kcps)were similar to those of the Gemini TF PET/CT. Contrast recovery was higher with a 2 mm, body-detail reconstruction than with a 4 mm, body reconstruction, although the precision was reduced. The noise equivalent count rate peak was broad (within 10% of peak from 241–609 MBq). The activity measured in phantom images was within 10% of the true activity for count rates up to those observed in 82Rb cardiac PET studies.

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k‐space sampling optimization for ultrashort TE imaging of cortical bone: Applications in radiation therapy planning and MR‐based PET attenuation correction

Pereira

et al. 2014

Medical Physics

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This UTE strategy with angular undersampling preserves the image quality and contrast of cortical bone, while reducing the total scanning time by as much as 75%. The quantitative results of R2(∗) and the water fraction of skull based on Dixon analysis of UTE images acquired at multiple echo times provide guidance for the clinical adoption and further parameter optimization of the UTE sequence when used for radiation therapy and MR-based PET attenuation correction.

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Anu Grover

Performance evaluation of the Ingenuity TF PET/CT scanner with a focus on high count-rate conditions

k‐space sampling optimization for ultrashort TE imaging of cortical bone: Applications in radiation therapy planning and MR‐based PET attenuation correction

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