Artificial local magnetic field inhomogeneity enhances T2 relaxivity

The signal detected in magnetic resonance imaging comes from the relaxation of proton nuclear magnetization. Here, Zhouet al. introduce magnetic field inhomogeneity as a parameter to design iron oxide nanoparticle clusters to enhance the relaxation rate of nearby protons, thereby increasing image co...

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Autores principales: Zijian Zhou, Rui Tian, Zhenyu Wang, Zhen Yang, Yijing Liu, Gang Liu, Ruifang Wang, Jinhao Gao, Jibin Song, Liming Nie, Xiaoyuan Chen
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2017
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Acceso en línea:https://doaj.org/article/0441c4e84a6c45cdbcd4ed86a4aafaf2
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spelling oai:doaj.org-article:0441c4e84a6c45cdbcd4ed86a4aafaf22021-12-02T14:41:09ZArtificial local magnetic field inhomogeneity enhances T2 relaxivity10.1038/ncomms154682041-1723https://doaj.org/article/0441c4e84a6c45cdbcd4ed86a4aafaf22017-05-01T00:00:00Zhttps://doi.org/10.1038/ncomms15468https://doaj.org/toc/2041-1723The signal detected in magnetic resonance imaging comes from the relaxation of proton nuclear magnetization. Here, Zhouet al. introduce magnetic field inhomogeneity as a parameter to design iron oxide nanoparticle clusters to enhance the relaxation rate of nearby protons, thereby increasing image contrast.Zijian ZhouRui TianZhenyu WangZhen YangYijing LiuGang LiuRuifang WangJinhao GaoJibin SongLiming NieXiaoyuan ChenNature PortfolioarticleScienceQENNature Communications, Vol 8, Iss 1, Pp 1-10 (2017)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Zijian Zhou
Rui Tian
Zhenyu Wang
Zhen Yang
Yijing Liu
Gang Liu
Ruifang Wang
Jinhao Gao
Jibin Song
Liming Nie
Xiaoyuan Chen
Artificial local magnetic field inhomogeneity enhances T2 relaxivity
description The signal detected in magnetic resonance imaging comes from the relaxation of proton nuclear magnetization. Here, Zhouet al. introduce magnetic field inhomogeneity as a parameter to design iron oxide nanoparticle clusters to enhance the relaxation rate of nearby protons, thereby increasing image contrast.
format article
author Zijian Zhou
Rui Tian
Zhenyu Wang
Zhen Yang
Yijing Liu
Gang Liu
Ruifang Wang
Jinhao Gao
Jibin Song
Liming Nie
Xiaoyuan Chen
author_facet Zijian Zhou
Rui Tian
Zhenyu Wang
Zhen Yang
Yijing Liu
Gang Liu
Ruifang Wang
Jinhao Gao
Jibin Song
Liming Nie
Xiaoyuan Chen
author_sort Zijian Zhou
title Artificial local magnetic field inhomogeneity enhances T2 relaxivity
title_short Artificial local magnetic field inhomogeneity enhances T2 relaxivity
title_full Artificial local magnetic field inhomogeneity enhances T2 relaxivity
title_fullStr Artificial local magnetic field inhomogeneity enhances T2 relaxivity
title_full_unstemmed Artificial local magnetic field inhomogeneity enhances T2 relaxivity
title_sort artificial local magnetic field inhomogeneity enhances t2 relaxivity
publisher Nature Portfolio
publishDate 2017
url https://doaj.org/article/0441c4e84a6c45cdbcd4ed86a4aafaf2
work_keys_str_mv AT zijianzhou artificiallocalmagneticfieldinhomogeneityenhancest2relaxivity
AT ruitian artificiallocalmagneticfieldinhomogeneityenhancest2relaxivity
AT zhenyuwang artificiallocalmagneticfieldinhomogeneityenhancest2relaxivity
AT zhenyang artificiallocalmagneticfieldinhomogeneityenhancest2relaxivity
AT yijingliu artificiallocalmagneticfieldinhomogeneityenhancest2relaxivity
AT gangliu artificiallocalmagneticfieldinhomogeneityenhancest2relaxivity
AT ruifangwang artificiallocalmagneticfieldinhomogeneityenhancest2relaxivity
AT jinhaogao artificiallocalmagneticfieldinhomogeneityenhancest2relaxivity
AT jibinsong artificiallocalmagneticfieldinhomogeneityenhancest2relaxivity
AT limingnie artificiallocalmagneticfieldinhomogeneityenhancest2relaxivity
AT xiaoyuanchen artificiallocalmagneticfieldinhomogeneityenhancest2relaxivity
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