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MRI-Derived 3-D-Printed Breast Phantom for Microwave Breast Imaging Validation
We propose a 3-D-printed breast phantom for use in preclinical experimental microwave imaging studies. The phantom is derived from an MRI of a human subject; thus, it is anthropomorphic, and itsExpand
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A 3-D Level Set Method for Microwave Breast Imaging
TLDR
We present a computationally tractable 3-D microwave imaging algorithm based on level sets based on a Jacobian matrix, rather than an adjoint method. Expand
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Relaxivity of Ferumoxytol at 1.5 T and 3.0 T
Objectives The aim of this study was to determine the relaxation properties of ferumoxytol, an off-label alternative to gadolinium-based contrast agents, under physiological conditions at 1.5 T andExpand
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The effects of concomitant gradients on chemical shift encoded MRI
The purpose of this work was to characterize the effects of concomitant gradients (CGs) on chemical shift encoded (CSE)‐based estimation of B0 field map, proton density fat fraction (PDFF), and R2* .
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Sensitivity of quantitative relaxometry and susceptibility mapping to microscopic iron distribution
Determine the impact of the microscopic spatial distribution of iron on relaxometry and susceptibility‐based estimates of iron concentration.
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Practical Implementation of Avalanche Infrasound Monitoring Technology for Operational Utilization Near Teton Pass Wyoming
Recent advancements in infrasound monitoring hardware and software for the detection and identification of avalanche-generated infrasound signals have resulted in operation of a prototype monitoringExpand
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Crossover comparison of ferumoxytol and gadobenate dimeglumine for abdominal MR‐angiography at 3.0 tesla: Effects of contrast bolus length and flip angle
Ferumoxytol (FE) has gained interest as an alternative to gadolinium‐based contrast agents (GBCAs). The purpose of this study was to evaluate and optimize ferumoxytol dose and T1 weighting, inExpand
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Comparison of gadolinium‐enhanced and ferumoxytol‐enhanced conventional and UTE‐MRA for the depiction of the pulmonary vasculature
To evaluate the feasibility of ferumoxytol (FE)‐enhanced UTE‐MRA for depiction of the pulmonary vascular and nonvascular structures.
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T1‐corrected quantitative chemical shift‐encoded MRI
To develop and validate a T1‐corrected chemical‐shift encoded MRI (CSE‐MRI) method to improve noise performance and reduce bias for quantification of tissue proton density fat‐fraction (PDFF).
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