A general model to calculate the spin-lattice (T-1) relaxation time of blood, accounting for haematocrit, oxygen saturation and magnetic field strength

Hales Patrick W.; Kirkham Fenella J.; Clark Christopher A.

首页> 外文期刊>Journal of Cerebral Blood Flow and Metabolism: Official Journal of the International Society of Cerebral Blood Flow and Metabolism >A general model to calculate the spin-lattice (T-1) relaxation time of blood, accounting for haematocrit, oxygen saturation and magnetic field strength

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A general model to calculate the spin-lattice (T-1) relaxation time of blood, accounting for haematocrit, oxygen saturation and magnetic field strength

机译：计算血细胞比容，氧饱和度和磁场强度的通用模型，用于计算血液的自旋晶格（T-1）弛豫时间

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Many MRI techniques require prior knowledge of the T1-relaxation time of blood (T-1bl). An assumed/fixed value is often used; however, T-1bl is sensitive to magnetic field (B-0), haematocrit (Hct), and oxygen saturation (Y). We aimed to combine data from previous in vitro measurements into a mathematical model, to estimate T-1bl as a function of B-0, Hct, and Y. The model was shown to predict T-1bl from in vivo studies with a good accuracy (+/- 87 ms). This model allows for improved estimation of T-1bl between 1.5-7.0 T while accounting for variations in Hct and Y, leading to improved accuracy of MRI-derived perfusion measurements.

机译：许多MRI技术需要对血液的T1松弛时间（T-1bl）有先验知识。通常使用假定/固定值;然而，T-1bl对磁场（B-0），血细胞比容（Hct）和氧饱和度（Y）敏感。我们旨在将先前体外测量的数据合并到数学模型中，以将T-1bl估计为B-0，Hct和Y的函数。该模型显示出可以通过体内研究预测T-1bl的准确性很高（+/- 87毫秒）。该模型允许在1.5-7.0 T之间改进T-1b1的估计，同时考虑到Hct和Y的变化，从而提高了MRI灌注测量的准确性。

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《Journal of Cerebral Blood Flow and Metabolism: Official Journal of the International Society of Cerebral Blood Flow and Metabolism》 |2016年第2期|共5页
作者
Hales Patrick W.; Kirkham Fenella J.; Clark Christopher A.;
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正文语种 eng
中图分类神经病学;
关键词
ASL; cerebral blood flow measurement; MRI; perfusion weighted MRI; mathematical modelling;

机译：ASL;脑血流测量;MRI;灌注加权MRI;数学建模;

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1. A general model to calculate the spin-lattice (T-1) relaxation time of blood, accounting for haematocrit, oxygen saturation and magnetic field strength [J] . Hales Patrick W., Kirkham Fenella J., Clark Christopher A. Journal of Cerebral Blood Flow and Metabolism: Official Journal of the International Society of Cerebral Blood Flow and Metabolism . 2016,第2期

机译：计算血细胞比容，氧饱和度和磁场强度的通用模型，用于计算血液的自旋晶格（T-1）弛豫时间
2. Measurement of Spin-Lattice Relaxation Times and Concentrations in Systems with Chemical Exchange Using the One-Pulse Sequence: Breakdown of the Ernst Model for Partial Saturation in Nuclear Magnetic Resonance Spectroscopy [J] . Richard G. S. Spencer, Kenneth W. Fishbein Journal of magnetic resonance . 2000,第1期

机译：使用一脉冲序列测量具有化学交换的系统中自旋晶格弛豫时间和浓度：核磁共振波谱中部分饱和的Ernst模型的分解
3. Measurement of Spin-Lattice Relaxation Times and Concentrations in Systems with Chemical Exchange Using the One-Pulse Sequence: Breakdown of the Ernst Model for Partial Saturation in Nuclear Magnetic Resonance Spectroscopy [J] . Richard G. S. Spencer, Kenneth W. Fishbein JOM . 2000,第1期

机译：使用一脉冲序列测量具有化学交换的系统中自旋晶格弛豫时间和浓度：核磁共振波谱中部分饱和的Ernst模型的分解
4. Comparison of transverse and spin-lattice relaxation based electron paramagnetic resonance oxygen images [C] . Epel Boris, Halpern Howard J. 2011 8th IEEE International Symposium on Biomedical Imaging: From Nano to Macro . 2011

机译：基于横向和自旋晶格弛豫的电子顺磁共振氧气图像的比较
5. I. SPIN-LATTICE RELAXATION OF DILUTE SOLUTIONS OF POLARIZED HELIUM-3 IN LIQUID HELIUM-4 IN LOW MAGNETIC FIELDS AT 4 K. II. AN ANALYSIS OF A PROPOSED CRYOGENIC HELIUM(3) NUCLEAR GYROSCOPE AND ITS APPLICATION TO A NUCLEAR ELECTRIC-DIPOLE MOMENT EXPERIMENT. [D] . TABER, MICHAEL ALLAN. 1978

机译：I.在4 K低磁场中，液态氦4中的极化氦3稀释溶液中的自旋晶格弛豫。拟议的低温氦（3）核陀螺的分析及其在核电偶极矩实验中的应用。
6. A general model to calculate the spin-lattice (T1) relaxation time of blood accounting for haematocrit oxygen saturation and magnetic field strength [O] . Patrick W Hales, Fenella J Kirkham, Christopher A Clark 2016

机译：计算血细胞比容氧饱和度和磁场强度的通用模型用于计算血液的自旋晶格（T1）弛豫时间
7. A general model to calculate the spin-lattice (T1) relaxation time of blood, accounting for haematocrit, oxygen saturation and magnetic field strength [O] . Patrick W Hales, Fenella J Kirkham, Christopher A Clark 2015

机译：一种综合模型，用于计算血液过谱的旋转晶格（T1）弛豫时间，占血细胞比容，氧气饱和度和磁场强度
8. Dependence of Spin-Lattice Relaxation Time Upon Magnetic Field for Two Salts of Neodymium [R] . Baker, J. M., Ford, N. C. 1964

机译：两种钕盐磁场上自旋 - 晶格弛豫时间的依赖性

A general model to calculate the spin-lattice (T-1) relaxation time of blood, accounting for haematocrit, oxygen saturation and magnetic field strength

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