所采样品冷藏带回,应用荧光显微镜计数细菌总数,倒平板法计数弧菌总数。
Bring the sampling to the laboratory under low temperature circumstances, then, census the total numbers of bacteria by fluorescence microscope and vibrio by selection technique of plate cultivation.
干化学法检查为异常的759例标本中,尿沉渣显微镜计数有243例为正常,假阳性率为32.02%。
Of 759 urinary specimens which were positive analyzed by dry-chemistry method, 243 specimens were found negative by urinary sediment examination. The false positive rate was 32.02%.
目的分析倒置显微镜计数、流式细胞仪及MTT等三种方法检测放射线照射后细胞存活率(S)结果间的差异。
Objective to analyze the difference among the cell survival probability (s) results, which were measured and calculated with microscope, flow cytometry and MTT methods respectively.
如果可能的话,在作血细胞计数的时候使用机械平台的显微镜。
In making blood counts a microscope with a mechanical stage should, if possible, be used.
电泳结束后,溴化乙啶(EB)染色,在荧光显微镜下观察、计数拖尾细胞的尾长。
After stained by EB, tail length of the cells were observed and counted under the fluorescence microscope.
介绍了细菌荧光显微镜直接计数法的基本原理、仪器设备、分析和计算方法,并对水样过滤操作方法作了一些改进。
This article introduces the basic principle, instrument, analysis and calculative method on how to take count of bacteria by fluorescence microscope.
观察:(1)相差显微镜,(2)S- 100免疫细胞化学染色,(3)细胞计数。
Observation: 1. Phase contrast microscopy 2. S-100 immunostain 3. Cell's account.
用显微镜直接计数。
在光学显微镜下对核径迹进行观察、识别、分类和计数,传统的人工观测方法工作繁重、乏味、效率较低,特别在观测大批量样品时难以达到预期目标。
Using the traditional methods to observe, identify, classify and count the nuclear track under the optical microscope has low efficiency, especially when analyze a large patch of slices.
方法:用血细胞计数仪检测尿中红细胞平均体积(MCV)并结合显微镜红细胞形态观察。
Methods: the mean corpuscular volume (MCV) of urinary RBC was measured with blood cell auto counting machine. At the same time, the morphology of urinary RBC was observed carefully with microscope.
结论:显微镜直接计数方法操作较烦琐,重复性稍差。
Conclusion: It was a heavy and complicated work for the microscopic counting method and the result was not very precise.
普通光学显微镜200倍视野下计数毛细血管数量。
The capillary density was counted under 200 magnified visual field with ordinary microscope.
MVD检测为在200倍显微镜下计数5个视野最高数目的微血管,以其平均数表示。
MVD was determined as the mean of microvessel under 5 microscopic vision fields (200).
基于数字显微镜的赤潮生物计数,是一种在实验室条件下使用的,对赤潮优势藻自动计数的方法。
The count of the red tide species based on digital microscope is a kind of auto-counted technique used in laboratory.
利用免疫组化的方法检测血管内皮生长因子(VEGF)的表达,并在显微镜下进行微血管计数。
The growth state of CNV was observed, the expression of VEGF in cornea was detected with immunohistochemical assay, and the microvessel quantity was counted as well.
利用免疫组化的方法检测血管内皮生长因子(VEGF)的表达,并在显微镜下进行微血管计数。
The growth state of CNV was observed, the expression of VEGF in cornea was detected with immunohistochemical assay, and the microvessel quantity was counted as well.
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