1.How to effectively remove the magnetic resonance imaging (MRI ) artifacts in the electroencephalography (EEG) recordings, when EEG and functional magnetic resonance imaging (FMRI) are simultaneous recorded, is a challenge for integration of EEG and FMRI.
在脑电图(Electroencephalography,EEG)和功能磁共振成像(Functional magnetic resonance imaging, FMRI)同时记录时,如何有效的去除混入EEG信号中的强磁共振(Magnetic resonance imaging,MRI)伪迹干扰信号是当前在EEG和FMRI的联合研究中面临的一个信号前期处理难点。
2.Nuclear magnetic resonance spectroscopy (MRS) is the only one non-invasive method to quantify the metabolic products in vivo.
磁共振波谱分析(Nuclear magnetic resonance spectroscopy MRS)作为目前唯一的非侵袭性的活体器官组织代谢产物定量分析的方法,其应用正日益受到重视。
3.For solving false signal of landmine detection and realizing effective landmine detection,the basic principle of nuclear quadrupole resonance and its condition in explosive detection were introduced,and the resonant frequency and detection method of N14 nucleus in RDX and TNT were also analyzed. The actable experiment system for the explosive detection was presented.
为了解决探雷虚警率,实现探雷的有效性,介绍了核四极矩共振(Nuclear quadrupole resonance简称NQR)基本原理及其用于炸药探测的依据; 分析了黑索金(RDX)、梯恩梯(TNT)分子中氮原子(N14)的共振频率及其探测原理;
4.ABSTRACTObjective: To compare 3D DCE MRA(Three dimensional dynamic contrast enhanced magnetic resonance angiography) with DSA(Digital subtracted angiography) in assessing vascular stenosis of animal model.
目的:对比三维动态增强磁共振血管成像(Three dimensional dynamic contrast enhanced magnetic resonance angiography,3D DCE MRA)与数字减影血管造影(Digital subtracted angiography,DSA)在对模型动物血管狭窄评估中的一致性;
5.This thesis concerns the application of the technology of nuclear magnetic resonance (NMR) in the study of the complex system of new drugs, including drug metabolites in the biofluids and the biologically active components in Traditional Chinese Medicine.
应用核磁共振谱(nuclear magnetic resonance spectroscopy,NMR)技术对药物研究的复杂体系中药物及其代谢物进行研究,包括以下三个部分:
6.At present, the direct measurement includes bio-dosimetry methods (chromosome aberration analysis in peripheral human lymphocytes, micronucleus determination and FISH, etc) and electron paramagnetic resonance (EPR), a bio-physics method to measure the lone-lived radicals in human calcified tissues (tooth, bone, etc).
到目前为止,直接测量方法主要有生物剂量学方法(外周循环的T淋巴细胞染色体分析、染色体异位和其它稳定重排的分析)和基于测量钙化组织(牙齿、骨)中长寿命自由基浓度的电子顺磁共振(Electron Paramagnetic Resonance,EPR)生物物理方法。
7.The surface plasmon resonance(SPR) biochemical analysis instrument is based on the principle of physio-optics.
表面等离子谐振(Surface Plasmon Resonance,SPR)生化分析仪是一种基于物理光学原理的新型生化分析系统。
8.Objective The purpose of this study was to detect changes of nitric oxide(NO) contents in various organs of mice after repeated exposure to 1 500 m hypobaric hypoxia and protective effect of tea polyphenols(TP) using electron spin resonance(ESR) technique.
目的 用电子自旋共振 (electron spin resonance,ESR)技术观察模拟飞行缺氧条件下小鼠不同脏器一氧化氮 (nitric oxide,NO)含量的变化及抗氧化剂茶多酚的防护作用。
9.For the clinic-diagnosing disease and cardiac functional evaluation (CFE), it is important to estimate and track the motion of cardiac left ventricle (LV) using Magnetic resonance imaging (MRI) sequences. The motion state of LV can provide the most useful information for the cardiac functional evaluation.
在心脏疾病诊断和心功能评估等领域中,基于核磁共振成像(Magnetic resonance imaging,MRI)序列的心脏运动和形变估计是一个不可忽视的研究方向,尤其是左心室(Left Ventrical,LV)MRI序列所反映的运动信息对于心脏的功能评估具有重要的价值。
10.Rapid advances in the field of medical imaging are revolutionizing medicine. Computedtomography (CT), magnetic resonance imaging (MRI), Ultrasonography(US) and other imagingmodalities have been widely used in clinical diagnosis and therapy.
医学影像领域的迅速发展给医学带来了新的革命,计算机断层成像(ComputedTomography, CT)、核磁共振成像(Magnetic Resonance Imaging, MRI)、超声(Ultrasonography,US)及其它模式的医学影像已被广泛地应用于临床诊断和治疗。
