现阶段,染色体显带技术的发明为染色体组型分析铺就了一条更精确,更准确的研究道路。
In this stage, the invention of banding technique set karyotype analysis in the way to more micro and precise research.
结论与传统的染色体显带技术相比,荧光原位杂交技术具有高效、灵敏、可靠的特点,可为临床提供良好的辅助诊断。
Conclusions Compared with the conventional chromosome banding technique, FISH has characteristics of high sensitivity and accuracy, and provides a good assist method for diagnosis.
方法应用骨髓细胞短期培养法制备染色体标本,并应用R和G显带技术进行核型分析;
Methods Chromosome specimens were prepared by short term culture of bone marrow cells and karyotype analyses were carried out using R and G banding techniques.
方法:采用短期培养法及G显带技术对16例MM患者进行细胞染色体核型分析,且对MM分型、分期及预后进行相关性分析。
Method: Chromosomal abnormalities were analyzed in 16 patients with MM by short-term bone marrow cell cultures and G-banding and analyzed the relationship with the type and stage and prognosis in MM.
方法采用外周血淋巴细胞培养方法制备染色体,G、C等显带技术进行细胞遗传学分析。
Methods: Routine culture for the peripheral blood lymphocytes were made and G, C band were analysed.
方法:采用直接法、短期培养法和R显带技术制备染色体,根据复杂分类法进行染色体核型分析。
Methods: the chromosome were prepared with direct method, brief culture of cells and R-banding techniques, and the karyotypic analysis was performed on the base of complex classification.
方法:采用直接法、短期培养法和R显带技术制备染色体,根据复杂分类法进行染色体核型分析。
Methods: the chromosome were prepared with direct method, brief culture of cells and R-banding techniques, and the karyotypic analysis was performed on the base of complex classification.
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