原子力显微镜(afm)是目前最新的生物成像技术之一。
Atomic force microscope (AFM) is one of the newest imaging techniques in the field of biomedicine.
磁共振力显微镜的分辨率接近于电子显微镜(10倍以内),这是目前生物学家所用到的最灵敏的成像技术。
MRFM resolution is nearly as good (within a factor of 10) of the resolution of electron microscopy, the most sensitive imaging technique that biologists use today.
1991年,理论物理学家约翰·赛德斯首次提出了将原子力显微技术与MRI相结合用以对微小生物结构成像的想法。
In 1991, theoretical physicist John Sidles first proposed the idea of combining MRI with atomic force microscopy to image tiny biological structures.
PET是一项非损伤的成像技术,它将示踪迹注入血液利用其放射性来检测生物活性并成像。
PET is a non-invasive imaging technique that uses radioactivity emitted from injected tracer chemicals to measure and image biological activity.
他们说,新的颇具前途的成像技术和生物标记物血液检测均在研究当中。
Promising new imaging techniques and blood tests for biomarkers that would reveal cancer are in the works, they said.
用粒子成像测速技术(PIV)和稳态法分别测量均相流体在热管生物反应器中湍流时的流场、温度场;
The flow field and temperature field of the uniformity phase fluid were measured by PIV and the steadystate method during the state of onflow.
指纹成像是一种名为“生物统计学”的相对较新的技术的组成部分,该技术通过个人的生物学特征识别身份。
Finger imaging is part of a relatively new technology called "biometrics", which identifies people by using their individual biological traits.
本发明提供一种利用超声和光谱技术组合成像和分析生物结构的设备。
The invention provides an apparatus for combined imaging and analyzing of a biological structure by means of ultrasonic and spectroscopic techniques.
巨噬细胞成像技术可以作为一种生物标志物来证实亚临床炎症损伤,可以预测未来发生疾病的风险,同时也可以用来评价新的治疗方法。
Macrophage imaging may serve as a biomarker to identify subclinical inflamed lesions, to predict future risk, and to aid in the assessment of novel therapies.
扫描离子电导显微镜技术是在纳米尺度进行非导电的生物样品成像的一种新型扫描探针显微镜技术。
As a new kind of scanning probe microscopy, scanning ion conductance microscopy (SICM) is designed for imaging non-conducting biological sample at the nanometer scale.
结合光学分子成像技术与该尺寸范围的纳流芯片,将有助于研究生物分子的动力学和静力学性质。
Associating with optical molecular imaging, these scale nanostructured fluidic channels would be useful for studying single biomolecules statics as well as the dynamics.
生物学和医学先进成像技术:技术,软件环境,应用。
Advanced Imaging in Biology and Medicine: Technology, Software Environments, Applications.
生物电阻抗成像(EIT)是一种新型无创成像技术。
Bio-electrical impedance tomography (EIT) is a new noninvasive image reconstruction.
原子力显微镜分子成像和纳米操纵技术在生物医学中具有广阔的应用前景。
Atomic force microscope molecular imaging and nanometer manipulation will be widely applied on biomedicine.
荧光分子成像技术以低成本、简单易行、对生物体无电离辐射等优势在活体中进行疾病观察、药物及生物学等研究中发挥越来越重要的作用。
Whether on theory or in applications, optical imaging and analysis have gained great progresses with the developments of biological studies and labeling techniques and which exhibits a good prospect.
研究结果表明,显微成像光谱技术作为一种新的技术手段,必将在临床医学、生物学、材料学以及分析化学等领域得到广泛的应用。
The research result shows microscopical imaging spectrometer will get extensive applications in biological, medical, chemical and material fields as a new analytical method.
研究结果表明,显微成像光谱技术作为一种新的技术手段,必将在临床医学、生物学、材料学以及分析化学等领域得到广泛的应用。
The research result shows microscopical imaging spectrometer will get extensive applications in biological, medical, chemical and material fields as a new analytical method.
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