To overcome these limitations, tissue microarray (TMA) technology has been developed.
为了克服这些限制,组织微阵列(TMA)技术被开发。
Tissue microarray is an efficient technique to study genes and its expression product.
组织芯片技术是高效的研究基因及其表达产物的技术平台。
Prospective applications of tissue microarray in pathology course were discussed in this paper.
现就组织芯片技术在病理学教学中的应用前景进行简单探讨。
Objective to discuss the reliability of tissue microarray technique in research of retinoblastoma.
目的探讨组织芯片技术用于视网膜母细胞瘤研究中的可靠性。
The design and precision in execution of a tissue microarray is essential to obtain the desired results.
组织微阵列执行中的设计和精度对于获得需要的结果是至关重要的。
The expression of VEGF and CD34 was detected by double-labeling immunohistochemistry on tissue microarray.
用免疫组织化学双重染色法标记组织芯片中的VEGF及CD34的表达。
The tissue microarray were arranged in order and stained clearly and there were good viewing field for judge.
芯片中组织微阵列排列整齐,各样本组织染色清晰,组织定位良好,可判断性强。
Tissue Microarray (TMA) is an effective high-throughput technique platform for the study of tumor molecular pathology.
组织芯片技术是可高效进行分子病理研究的技术平台。
Our tissue microarray technique was successful, and it could be used on research work and clinicopathological diagnosis.
我们制作组织芯片的方法是成功的,完全可以用于科研工作及临床病理诊断。
This is the website for Tissue MicroArray Laboratory at Department of Pathology, Johns Hopkins University School of Medicine.
这是约翰霍普金斯大学医学院病理学系组织微阵列实验室的网站。
Results The morphous of cells and the expression of BAG-1 in tissue microarray was very accordant to that in normal tissue slice(K>0.75).
结果组织芯片上细胞形态和BAG-1蛋白表达情况与相应的常规切片上的情况表现出高度一致性(K>0。75)。
Objective: To detect the expression and distribution of activated cytotoxic cells in types of lymphoma with tissue microarray, and provide evidences for clinical treatment and prognosis.
目的:运用组织芯片及常规病理切片检测活化的细胞毒性细胞在各型淋巴瘤中的表达分布情况,为临床治疗和判断预后提供依据。
CD271+ MSC density was quantitated by automated image analysis of tissue microarray cores in 125 cytopenic patients: 40 lower grade MDS (<5% marrow blasts), 24 higher grade MDS, and 61 benign.
通过对125例血细胞减少症患者的组织芯片自动图像分析进行CD271+MSC密度定量检查:包括40例低级别的MDS(<5%的骨髓原始细胞),24例高级别的MDS和61例良性MDS。
To assess gene expression in each small bit of tissue, researchers expose its RNA to a gene chip, or DNA microarray.
为了评价每小片组织中的基因的表达情况,研究人员将它的RNA暴露给一个基因芯片,或者DNA阵列。
Expressions of S-adenosylmethionine synthetase gene, arginase gene and oxidant stress related genes in myocardial tissue of normal and diabetic rats were assayed by DNA microarray.
在正常大鼠和糖尿病大鼠心肌组织中,以基因芯片技术测定s腺苷蛋氨酸合成酶、精氨酸酶及氧化应激相关基因的表达。
Objective To investigate the gene expression profiles in lung adenocarcinoma (LA), tumor adjacent tissue (TAT) and fetal lung tissue (FLT) by cDNA microarray technique.
目的利用基因芯片技术研究肺腺癌组织、癌旁组织及胚胎肺组织中的基因表达差异。
Objective to Screen the various expression of apoptosis related genes between glioblastomas and normal brain tissue with cDNA microarray.
目的研究胶质母细胞瘤凋亡相关基因的表达。
Objective to Screen the various expression of apoptosis related genes between glioblastomas and normal brain tissue with cDNA microarray.
目的研究胶质母细胞瘤凋亡相关基因的表达。
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