BURST excitation pulses

Heid, O.

doi:10.1002/mrm.1910380413

Cited by 3 publications

(1 citation statement)

References 13 publications

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“…In the same year, van Gelderen et al (15) proposed a similar multiphase approach. Both groups produced prescriptions that made Burst imaging a more realistic proposition on clinical scanners, whereas a more comprehensive theoretical description was given by Heid (16). Alternative approaches in which the Burst pulses are, respectively, amplitude modulated and frequency modulated have been described by Ochi et al (17 ) and Cho et al (5 ).…”

Section: Review Of the Existing Literaturementioning

confidence: 99%

Burst imaging—Can it ever be useful in the clinic?

Doran

Bourgeois

Leach

2005

Concepts Magn. Reson.

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ABSTRACT:Burst is an ultra-rapid imaging sequence that works by excitation of magnetization using a series of regularly spaced, low flip-angle pulses, applied at the same time as a gradient in the read direction. In the original concept, this gradient is constant, and multiple echoes are refocused under a constant-read gradient. This article brings together the previous literature on the subject, placing the various developments within a common framework. The potential of the technique is discussed, with the aid of a comparison of the signal-to-noise ratio for the various Burst sequences previously proposed and a detailed case study of one of the more promising variants.

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Section: Review Of the Existing Literaturementioning

confidence: 99%

Burst imaging—Can it ever be useful in the clinic?

Doran

Bourgeois

Leach

2005

Concepts Magn. Reson.

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FM DANTE fast imaging and variations: Emerging rf-based ultrafast imaging techniques

Cho

Ro²,

Hong

1998

Concepts Magn. Reson.

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A group of generic radio‐frequency‐based ultrafast imaging techniques using DANTE principles is reviewed and a new frequency‐modulated DANTE (FM DANTE) fast‐imaging sequence is discussed together with several application areas developed recently. In the past, the DANTE (delays alternating with nutations for tailored excitation) pulse sequence, based on Fourier transform principles, that were originally developed for solvent suppression in NMR spectroscopy, has been used in motion and flow imaging for tagging purposes. More recently, it has been used for imaging. The major drawback of DANTE fast imaging has been the poor signal‐to‐noise ratio because of the small excitation profile of DANTE excitation when it is used as an imaging sequence. Several advances have been made in DANTE fast imaging, notably the phase‐modulated OUFIS (optimized ultrafast imaging sequence) and FM DANTE. This paper reviews the principles and developments of the DANTE‐based, or more generally radio‐frequency based, ultrafast imaging techniques, particularly FM DANTE and its applications, such as extended three‐dimensional gradient echo imaging, chemical shift imaging, and susceptibility compensation imaging. ©1998 John Wiley & Sons, Inc. Concepts Magn Reson 10: 33–54, 1998

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