来自印第安那大学医学院的研究人员用机能性磁共振成像来观察电子游戏能如何影响大脑。
Researchers from the Indiana University School of Medicine used functional magnetic resonance imaging (fMRI) to observe how playing video games might affect the brain.
目前,核磁共振已在物理、化学、材料科学、生命科学和医学等领域中得到了广泛应用。
At present, nuclear magnetic resonance (NMR) has been in physics, chemistry, materials science, life science and medicine has been widely applied in areas such as.
核磁共振技术在医学、地质等方面都有广泛的应用。
Nuclear magnetic resonance (NMR) technique has been widely used in medicine and geology.
本文介绍了2003年诺贝尔生理医学奖项的内容-磁共振成像技术。
This paper introduces the 2003 year Nobel Prize topic: Magnetic Resonance Imaging.
影像技术是由放射学、X—CT、磁共振、超声诊断、核医学、电镜红外成像等多科所组成。
Tomography ls composed of radiography, X - CT, MRI, supersonic diagnosis, nuclear medicine, and EM infrared photography.
美国德州大学西南医学中心的科学家们是美国最先使用一种叫做磁共振波谱分析(MRS)的成像技术来检测人类胰脏中脂肪含量的。
Scientists at UT Southwestern Medical Center are the first in the U. S. to use an imaging technique called magnetic resonance spectroscopy (MRS) to measure the amount of pancreatic fat in humans.
全脑图解是哈佛医学院主持,提供不同疾病状况所显示的核磁共振及功能核磁共振图片。
The Whole Brain atlas is a site that is hosted by the Harvard medical school which displays pictures from MRI to fMRI in various disease states.
结果:为磁共振图像进行增强局部对比度算法研究提供了一个研发平台,实现了位图图像与医学数字成像和通信图像的数据转换接口功能。
RESULTS: the system provided a research platform for the algorithm of MRI local enhancement, and had the interface function of image format conversion between bitmap and DICOM.
这些修订过的指南于星期三发布,同时发布的还有一项《新英格兰医学杂志》上的研究,该研究称核磁共振成像检查在一组已经身患乳腺癌的患者身上有用。
The revised guidelines were released Wednesday, along with a New England Journal of Medicine study reporting that MRIs are useful in one group of women who already have breast cancer.
可在此框架内使用数字图像处理技术对磁共振医学图像信息进行处理。
Within this framework, Digital image processing technology can be used for magnetic resonance medical image information processing.
多年来,对心脏核磁共振图像(MRI)的分析研究一直是医学图像领域的一个重要课题。
Research on cardiac MR image (MRI) analysis is a significant topic in the field of medical image for many years.
磁共振成像技术(MRI)是近年来医学影像学中有效的诊断途径。
Magnetic resonance imaging (MRI) is a powerful diagnostic technique in Medical Imageology in recent years.
放射学助理帮助病人准备拍摄X光,核磁共振成像,和其它形式的医学成像。
Radiological assistants help patients prepare for X-rays, MRI's, and other types of medical imaging.
本发明公开了一种磁共振对比剂及其制备方法,属于医学检测试剂技术领域。
The invention discloses a magnetic resonance tumor targeted contrast agent and a preparation method thereof, belonging to the technical field of medical detection reagents.
随着分子影像学的提出,能通过活体检测移植后的细胞,方法主要有磁共振成像、核医学成像、光学成像。
With the proposing of the molecular imaging, the transplanted cells can be tracked in vivo by MR imaging, nuclear imaging and optical imaging.
前言:目的医学核磁共振与地面核磁共振找水是核磁共振技术应用的不同领域。
Objective: Medical Nuclear Magnetic Resonance Tomography (MNMRT) and Surface Nuclear Magnetic Resonance Detection of groundwater (SNMRD) are different areas of NMR technology applications.
超声诊断与X - CT、核磁共振、核素扫描已成为现代医学的四大影像技术。
Now ultrasonic diagnosis, together with X-CT, NMR and nuclide scan, have already become the four major imaging techniques in modern image medicine.
全脑图片集,由哈佛医学院维护,展示了各种疾病状态从核磁共振成像到功能核磁共振成像的图片。
The Whole Brain atlas, hosted by the Harvard Medical School, displays pictures from MRI to fMRI in various disease states.
最近的这项由医学研究委员会临床科学家Rachel Baterham博士领导的研究使用了功能核磁共振成像。
This latest research, led by Medical Research Council clinician scientist Dr Rachel Batterham, used functional Magnetic Resonance Imaging (fMRI).
超声诊断与X -CT、核磁共振、核素扫描已成为现代医学的四大影像技术。
Now ultrasonic diagnosis, together with X-CT, NMR and nuclide scan, have already become the four major imaging techniques in modern image medi...
在《科学转化医学》上发表的一项研究中,研究员对172名出生于美国和加拿大的早产儿进行了磁共振成像扫描来检测它们的小脑。
In a study, (which was published in Science Translational Medicine,) 172 premature babies born in the United States and Canada got MRI scans to measure their cerebellums.
固态核磁共振技术在工业和生物医学领域的广泛应用,研究重点为多孔介质和铁基纳米流体。
Intensive involvement in industrial and biomedical applications of solid state NMR techniques, with emphasis in the study of porous media and iron based nanofluids.
核磁共振成像是一种先进的医学成像技术,它可以提供有关人体软组织解剖结构丰富的信息。
MRI (Magnetic Resonance imaging) is an advanced medical imaging technique providing rich information about the human soft tissue anatomy.
开设课程包括:医学物理,医学物理实验,医用电子学,医用磁共振成像学,血液流变学及血液循环力学。
Thee curriculums include Medical Physics, Medical Physics Experiments, Medical Electronics, Magnetic Resonance Imaging in Medicine, Blood Rheology and Mechanics of Blood Circulation.
本论文以传统中医理论为指导,运用现代医学的观点和功能磁共振成像技术,从实验设计模式和数据处理方法等方面对针刺作用的神经机制进行了初步探索。
In this paper, we used fMRI technology to study and analyze the brain response to acupuncture and combined the theory of TCM and modern medical means to explore neural regulating mechanisms.
本论文以传统中医理论为指导,运用现代医学的观点和功能磁共振成像技术,从实验设计模式和数据处理方法等方面对针刺作用的神经机制进行了初步探索。
In this paper, we used fMRI technology to study and analyze the brain response to acupuncture and combined the theory of TCM and modern medical means to explore neural regulating mechanisms.
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