Abstract #3321

A New High-Resolution Perfusion-Weighted Imaging Technique without exogenous tracer and Its Quantitative Model

Hyunseok Seo¹, Dongchan Kim¹, Jaejin Cho¹, Kinam kwon¹, Byungjai Kim¹, and HyunWook Park¹

¹Electrical Engineering, KAIST, Daejeon, Korea, Republic of

The proposed method is based on the perfusion model of intravoxel incoherent motion (IVIM), which assumes that perfusion is a microcirculation of blood in the capillary network. The method introduces two-types of bi-polar gradients in a radial spin-echo sequence, a new ordering of bi-polar gradients for isotropic perfusion weighting, and signal models for quantitative analysis of perfusion. To verify the proposed method, in-vivo imaging in 3 T MRI was performed, and the proposed method offers the high-resolution quantitative perfusion map.

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