3D DT-MRI Using a Reduced-FOV Approach and Saturation Pulses

Jiun Jie Wang; Ralf Deichmann; Robert Turner; Roger Ordidge

doi:10.1002/mrm.20012

3D DT-MRI Using a Reduced-FOV Approach and Saturation Pulses

Jiun Jie Wang^*, Ralf Deichmann, Robert Turner, Roger Ordidge

^*Corresponding author for this work

Department of Medical Imaging and Radiological Sciences

University College London

Research output: Contribution to journal › Journal Article › peer-review

8 Scopus citations

Abstract

Diffusion tensor imaging (DTI) can provide vital insights into brain connectivity, and may become an important tool for the diagnosis and treatment of neurological disease. However, DTI's intrinsic low signal-to-noise ratio (SNR) and vulnerability to ghosting artifacts can result in poor image quality with low spatial resolution, which limits its clinical applications. In this study, a new double-shot EPI sequence (half-FOV EPI) with high spatial resolution was developed. This method enables DT measurements to be obtained with high isotropic spatial resolution and whole-brain coverage. To avoid ghosting artifacts, the data are combined in image space rather than in k-space.

Original language	English
Pages (from-to)	853-857
Number of pages	5
Journal	Magnetic Resonance in Medicine
Volume	51
Issue number	4
DOIs	https://doi.org/10.1002/mrm.20012
State	Published - 04 2004

Keywords

Diffusion tensor imaging
Half-FOV
High spatial resolution
Multishot EPI
Saturation pulses

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10.1002/mrm.20012

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AU - Wang, Jiun Jie

AU - Deichmann, Ralf

AU - Turner, Robert

AU - Ordidge, Roger

PY - 2004/4

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N2 - Diffusion tensor imaging (DTI) can provide vital insights into brain connectivity, and may become an important tool for the diagnosis and treatment of neurological disease. However, DTI's intrinsic low signal-to-noise ratio (SNR) and vulnerability to ghosting artifacts can result in poor image quality with low spatial resolution, which limits its clinical applications. In this study, a new double-shot EPI sequence (half-FOV EPI) with high spatial resolution was developed. This method enables DT measurements to be obtained with high isotropic spatial resolution and whole-brain coverage. To avoid ghosting artifacts, the data are combined in image space rather than in k-space.

AB - Diffusion tensor imaging (DTI) can provide vital insights into brain connectivity, and may become an important tool for the diagnosis and treatment of neurological disease. However, DTI's intrinsic low signal-to-noise ratio (SNR) and vulnerability to ghosting artifacts can result in poor image quality with low spatial resolution, which limits its clinical applications. In this study, a new double-shot EPI sequence (half-FOV EPI) with high spatial resolution was developed. This method enables DT measurements to be obtained with high isotropic spatial resolution and whole-brain coverage. To avoid ghosting artifacts, the data are combined in image space rather than in k-space.

KW - Diffusion tensor imaging

KW - Half-FOV

KW - High spatial resolution

KW - Multishot EPI

KW - Saturation pulses

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JO - Magnetic Resonance in Medicine

JF - Magnetic Resonance in Medicine

IS - 4

ER -

3D DT-MRI Using a Reduced-FOV Approach and Saturation Pulses

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Keywords

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