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磁共振成像可见液晶温度计。

MRI-visible liquid crystal thermometer.

作者信息

Keenan Kathryn E, Stupic Karl F, Russek Stephen E, Mirowski Elizabeth

机构信息

Physical Measurement Laboratory, National Institute of Standards and Technology, Boulder, Colorado.

Verellium, Inc. Nederland, Colorado.

出版信息

Magn Reson Med. 2020 Sep;84(3):1552-1563. doi: 10.1002/mrm.28224. Epub 2020 Feb 28.

DOI:10.1002/mrm.28224
PMID:32112464
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7875457/
Abstract

PURPOSE

MRI parameters, such as T , T , and ADC, of tissue-mimicking materials in MRI phantoms can exhibit temperature dependence, and bore temperatures can vary over a 10°C range across different MRI systems. If this variation is not accurately corrected for, the quantitative nature of reference or phantom measurements is irrelevant. Available thermometers require opening the phantoms to probe the temperature, which can introduce contaminants that may affect the stability and accuracy of the phantom. An integrated, MRI-visible thermometer that can be read using typical imaging protocols is needed.

THEORY AND METHODS

An MRI-compatible thermometer was designed using liquid crystals (LCs) that exhibit rapid transitions between the LC cholesteric state and isotropic state in the room temperature range spanning 17°C to 23°C in 1.0°C increments. The LC thermometer was assessed visually and using superconducting quantum interference device magnetometry, NMR, and MRI techniques.

RESULTS

The signal generated from the LC thermometer was visible with spin-echo and gradient-echo MRI images. The LC state transition temperatures were visually referenced to a National Institute of Standards and Technology-traceable thermometer, and these LC state transitions were confirmed using superconducting quantum interference device magnetometry and NMR.

CONCLUSIONS

The LC MR-visible thermometer had measurable changes in relative signal with temperature, which were invariant to a variety of imaging sequences used.

摘要

目的

磁共振成像(MRI)体模中组织模拟材料的MRI参数,如T1、T2和表观扩散系数(ADC),可能呈现温度依赖性,并且不同MRI系统的孔内温度在10°C范围内会有所变化。如果这种变化没有得到准确校正,那么参考测量或体模测量的定量性质就没有意义了。现有的温度计需要打开体模来探测温度,这可能会引入污染物,从而影响体模的稳定性和准确性。因此需要一种集成的、可通过典型成像协议读取的MRI可见温度计。

理论与方法

设计了一种与MRI兼容的温度计,使用液晶(LC),其在17°C至23°C的室温范围内以1.0°C的增量在LC胆甾相和各向同性相之间呈现快速转变。通过视觉评估以及使用超导量子干涉器件磁力测量法、核磁共振(NMR)和MRI技术对LC温度计进行了评估。

结果

LC温度计产生的信号在自旋回波和梯度回波MRI图像中可见。LC状态转变温度通过视觉参考了可溯源至美国国家标准与技术研究院的温度计,并且这些LC状态转变通过超导量子干涉器件磁力测量法和NMR得到了证实。

结论

LC MR可见温度计的相对信号随温度有可测量的变化,这对于所使用的各种成像序列是不变的。

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