Nobuyasu Ichinose scite author profile

A novel MR angiography (MRA) method, swap phase encode extended data (SPEED), was developed. Two one-shot images with the phase-encode directions swapped were collected within a single breath-hold period and processed with a maximum intensity projection (MIP) to obtain an image. In this study, a long echo train two-dimensional rapid acquisition with relaxation enhancement (RARE) sequence with half-Fourier (half-RARE) was used to obtain the pulmonary MRA images. The MIP image obtained using the SPEED technique presented promising results for pulmonary vessels.

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Contrast-enhanced MR imaging of the endolymphatic sac in patients with sudden hearing loss

Naganawa

Koshikawa

Fukatsu

et al. 2001

Eur Radiol

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MR imaging of the inner ear: comparison of a three-dimensional fast spin-echo sequence with use of a dedicated quadrature-surface coil with a gadolinium-enhanced spoiled gradient-recalled sequence.

Naganawa¹,

Ito²,

Fukatsu³

et al. 1998

Radiology

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A novel saturation transfer contrast method for 3D time‐of‐flight magnetic resonance angiography: A slice‐selective off‐resonance sinc pulse (SORS) technique

Miyazaki

Kojima

Ichinose

et al. 1994

Magnetic Resonance in Med

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Saturation transfer contrast (STC) techniques have been employed to decrease the signal intensity of observed water by saturating a broad proton component. The STC pulse, generally spatially nonselective, reduces the signal of brain background tissues as well as inflowing blood in 3D time-of-flight (TOF) angiography. We present a novel technique, a slice-selective off-resonance sinc pulse (SORS), which is employed to enhance inflowing blood and to suppress the signal of stationary background tissues. The STC effects of the SORS and other spatially nonselective methods influencing inflowing blood is discussed in detail. Angiograms using the SORS method are also presented to demonstrate improved vessel conspicuity. In addition, the SORS method is applicable to imagers with a whole-body RF transmitter system.

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