Your search keyword '"Elaine Y. Yu"' showing total 2 results

1. Tracking short-term biodistribution and long-term clearance of SPIO tracers in magnetic particle imaging.

Author

Paul Keselman, Elaine Y Yu, Xinyi Y Zhou, Patrick W Goodwill, Prashant Chandrasekharan, R Matthew Ferguson, Amit P Khandhar, Scott J Kemp, Kannan M Krishnan, Bo Zheng, and Steven M Conolly

Subjects

*DIAGNOSTIC imaging, *MAGNETIC particle imaging, *SUPERPARAMAGNETIC materials

Abstract

Magnetic particle imaging (MPI) is an emerging tracer-based medical imaging modality that images non-radioactive, kidney-safe superparamagnetic iron oxide (SPIO) tracers. MPI offers quantitative, high-contrast and high-SNR images, so MPI has exceptional promise for applications such as cell tracking, angiography, brain perfusion, cancer detection, traumatic brain injury and pulmonary imaging. In assessing MPI’s utility for applications mentioned above, it is important to be able to assess tracer short-term biodistribution as well as long-term clearance from the body. Here, we describe the biodistribution and clearance for two commonly used tracers in MPI: Ferucarbotran (Meito Sangyo Co., Japan) and LS-oo8 (LodeSpin Labs, Seattle, WA). We successfully demonstrate that 3D MPI is able to quantitatively assess short-term biodistribution, as well as long-term tracking and clearance of these tracers in vivo. [ABSTRACT FROM AUTHOR]

Published

2017

2. First in vivo magnetic particle imaging of lung perfusion in rats.

Author

Xinyi Y Zhou, Kenneth E Jeffris, Elaine Y Yu, Bo Zheng, Patrick W Goodwill, Payam Nahid, and Steven M Conolly

Subjects

PULMONARY embolism, MAGNETIC particle imaging, SUPERPARAMAGNETIC materials, DIAGNOSIS

Abstract

Pulmonary embolism (PE), along with the closely related condition of deep vein thrombosis, affect an estimated 600 000 patients in the US per year. Untreated, PE carries a mortality rate of 30%. Because many patients experience mild or non-specific symptoms, imaging studies are necessary for definitive diagnosis of PE. Iodinated CT pulmonary angiography is recommended for most patients, while nuclear medicine-based ventilation/perfusion (V/Q) scans are reserved for patients in whom the use of iodine is contraindicated. Magnetic particle imaging (MPI) is an emerging tracer imaging modality with high image contrast (no tissue background signal) and sensitivity to superparamagnetic iron oxide (SPIO) tracer. Importantly, unlike CT or nuclear medicine, MPI uses no ionizing radiation. Further, MPI is not derived from magnetic resonance imaging (MRI); MPI directly images SPIO tracers via their strong electronic magnetization, enabling deep imaging of anatomy including within the lungs, which is very challenging with MRI. Here, the first high-contrast in vivo MPI lung perfusion images of rats are shown using a novel lung perfusion agent, MAA-SPIOs. [ABSTRACT FROM AUTHOR]

Published

2017