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Main Authors: More, Soham Sharad, Zhang, Xiaoliang
Format: Preprint
Published: 2022
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Online Access:https://arxiv.org/abs/2210.03317
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author More, Soham Sharad
Zhang, Xiaoliang
author_facet More, Soham Sharad
Zhang, Xiaoliang
contents UTE (Ultrashort Echo Time) and ZTE (Zero Echo Time) sequences have been developed to detect short T2 relaxation signals coming from regions that are unable to be detected by conventional MRI methods. Due to the high dipole-dipole interactions in solid and semi-solid tissues, the echo time generated is simply not enough to produce a signal using conventional imaging method, often leading to void signal coming from the discussed areas. By the application of these techniques, solid and semi-solid areas can be imaged which can have a profound impact in clinical imaging. High and Ultra-high field strength (UHF) provides a vital advantage in providing better sensitivity and specificity of MR imaging. When coupled with the UTE and ZTE sequences, the image can recover void signals as well as a much-improved signal quality. To further this strategy, secondary data from various research tools was obtained to further validate the research while addressing the drawbacks to this approach. It was found that UTE and ZTE sequences coupled with some techniques such as qualitative imaging and new trajectories are very crucial for accurate image depiction of the areas of the musculoskeletal system, neural system, lung imaging and dental imaging.
format Preprint
id arxiv_https___arxiv_org_abs_2210_03317
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Ultrashort echo time and zero echo time MR imaging and their applications at high magnetic fields: A literature survey
More, Soham Sharad
Zhang, Xiaoliang
Medical Physics
Image and Video Processing
UTE (Ultrashort Echo Time) and ZTE (Zero Echo Time) sequences have been developed to detect short T2 relaxation signals coming from regions that are unable to be detected by conventional MRI methods. Due to the high dipole-dipole interactions in solid and semi-solid tissues, the echo time generated is simply not enough to produce a signal using conventional imaging method, often leading to void signal coming from the discussed areas. By the application of these techniques, solid and semi-solid areas can be imaged which can have a profound impact in clinical imaging. High and Ultra-high field strength (UHF) provides a vital advantage in providing better sensitivity and specificity of MR imaging. When coupled with the UTE and ZTE sequences, the image can recover void signals as well as a much-improved signal quality. To further this strategy, secondary data from various research tools was obtained to further validate the research while addressing the drawbacks to this approach. It was found that UTE and ZTE sequences coupled with some techniques such as qualitative imaging and new trajectories are very crucial for accurate image depiction of the areas of the musculoskeletal system, neural system, lung imaging and dental imaging.
title Ultrashort echo time and zero echo time MR imaging and their applications at high magnetic fields: A literature survey
topic Medical Physics
Image and Video Processing
url https://arxiv.org/abs/2210.03317