基于组织光学原理研发了组织氧饱和度无损检测仪。
Based on the principles of organizational optics, the noninvasive tissue oxygenation saturation monitor was developed.
结论所建立的光学模型可应用于白癜风皮肤的组织光学特性的研究。
Conclusions The optical model developed could be used to study tissue optical property of vitiligo skin.
利用组织光学液体模型模拟组织体,实验验证了理论推导的正确性。
The correctness of theoretical deduction is invalidated by the experiments using optical simulation phantom of tissue.
基于时域漫射理论 ,提出一种用透射光来确定生物组织光学特性的方法。
On the basis of the diffusion theory, a method for measurement of tissue optical properties by time resolved transmission was presented.
本文概述了常用的测定组织中光辐射能流率及组织光学特性参数的测量方法。
We summarized in this article the commonly used measurement methods for light fluence rate and optical properties of tissue.
方法基于白癜风皮肤的组织结构与病理学分析,确定白癜风皮肤的组织光学参数。
Methods Based on the analysis of tissue structure and skin pathology, the tissue optical parameters of vitiligo skin were determined.
光学技术已在医学领域获得日益广泛的应用并业已形成一门新兴的学科——组织光学。
As the optics technology is widely used in biomedicine, a new crossing discipline named tissue optics has shaped.
他在“光学分子成像”和“关于组织结构与功能的组织光学成像”方面有系统的研究。
He has systematically carried out the studies on optical molecular imaging and tissue optical imaging based on tissue structure and function.
本文建立的皮肤组织光学模型及其方法,可应用于皮肤光学基础与临床的其它研究中。
The optical model and the method developed here can be used in both basic and clinic study of skin.
本文的研究可为组织光学、光子医学生物学、医疗诊断等领域提供实验依据和参考价值。
The research result will provide theoretical and experimental reference to Tissue Optics, Biomedical Photonics, medical Diagnose and corresponding fields.
生物组织光学特性参数无损测量技术的研究在医学诊断和治疗中有着重要意义和广泛应用前景。
Noninvasive determination of biological tissue optical properties parameters has important signification and extensive application in diagnostic and therapeutics medicine.
基于人体皮肤的组织结构,光在皮肤组织中的传输特性以及皮肤各层的组织光学参数,建立了正常皮肤的光学模型,介绍了该模型中的组织光学参数的确定方法。
Based on the analysis of skin structure, the light transport property in skin and the optical parameters of skin tissue, an optical model for normal skin was developed.
利用光学显微镜(OM)和扫描电镜(SEM)对麦秆横切面、内、外表面的组织结构进行了观察和分析。
By using Optical Microscope (OM) and Scanning Electron Microscope (SEM), the structural features of cross section, interior and exterior surfaces for wheat straws were observed and analyzed.
到目前为止,多种生物组织在可见光到近红外范围内的光学参数值,已经通过各种测量技术得到。
The visible and near-infrared optical parameters of many different kinds of biological tissues have been obtained by different measuring methods so far.
方法实验采用了双积分球系统和光辐射测量技术的基本原理以及运用生物组织的光学模型。
Methods a double-integrating-spheres system, basic principle of measuring technology of light radiation and biological tissues optical model were used for the study.
利用给定的人体前臂组织的典型光学参数,给出了扩散方程解析解的模拟计算结果。
Using the presented typical optical parameter of human being's forearm tissue, the simulation result of the analysis resolution of the diffusion equation was shown.
研究了热作用对心肌组织在可见及近红外光谱范围内的光学特性改变。
The effects of optical properties of myocardium tissue due to heating in the visible and near-infrared spectral range were investigated.
光学显微镜下观察各组大鼠脑组织细胞形态。
Cytomorphology of brain tissue observed under optic microscope in rats of each group.
对从排泄物中分离的脱落肠组织进行切片,采用光学显微镜和透射电镜观察及图像分析。
The dropped intestinal tissue from the excretion were sliced and observed by light microscope, transmission electron microscope and picture-analysis.
目的建立羊膜组织共聚焦激光扫描显微镜光学切片的方法,探讨早期人胚羊膜细胞结构、分层及细胞骨架的空间结构。
Objective to develop a method for the optical section of laser scanning confocal microscopy of amnion and to study the spatial structure of cell and actin cytoskeleton in amnion of human embryo.
采用光学显微镜和扫描电镜对断裂转向节臂的宏、微观组织进行了分析。
Macro and micro structure of the fractured steering knuckle arm was examined by optical microscope and scanning electron microscope.
采用光学显微镜、扫描电镜等分析手段,对45钢大齿轮传动轴断裂表面的金相组织、断口形貌进行了分析和检测。
The metallurgical structure and fracture morphology on gear transmission shaft of 45 steel were analyzed by means of optical microscope and scanning electron microscope.
随着光子进入组织深度的增加,漫散射光学层析成像的深度敏感性呈现指数下降分布。
The sensitivity of diffuse optical tomography (DOT) imaging exponentially decreases with the increase of photon penetration depth, which leads to a poor depth resolution for DOT.
用电子探针、光学显微镜对电厂凝汽器泄漏铜管的成分、组织、微区元素分布进行分析。
The composition and microstructure of the failed copper alloy tube in a condenser were studied by means of optical microscope and EMPA.
首先,根据组织体的光学特性,介绍光谱检测方法的基本原理。
First, based on the optical character of tissue, the basic theory of spectra measuring is presented.
组织学:以特殊的染色技术以及光学显微镜和电子显微镜检查、究组织结构的学科。
Histology: the study of the structure of tissues by means of special staining techniques combined with light and electron microcopy.
组织学:以特殊的染色技术以及光学显微镜和电子显微镜检查、研究组织结构的学科。
Histology: the study of the structure of tissues by means of special staining techniques combined with light and electron microcopy.
组织学:以特殊的染色技术以及光学显微镜和电子显微镜检查、研究组织结构的学科。
Histology: the study of the structure of tissues by means of special staining techniques combined with light and electron microcopy.
应用推荐