Application of the Cytokinesis-Block Micronucleus Assay for High-Dose Exposures Using Imaging Flow Cytometry.

IF 1.7 4区 生物学 Q4 CELL BIOLOGY
Cytogenetic and Genome Research Pub Date : 2023-01-01 Epub Date: 2023-08-01 DOI:10.1159/000532124
Lindsay A Beaton-Green, Jessica M Mayenburg, Leonora Marro, Eman M Hassan, Sarita Cuadros Sanchez, Riham Darwish, Sylvie Lachapelle, Nadine Adam, Julie J Burtt, Cyndi Van Den Hanenberg, Matthew A Rodrigues, Qi Wang, David J Brenner, Helen C Turner, Ruth C Wilkins
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引用次数: 0

Abstract

The cytokinesis-block micronucleus assay is a well-established method to assess radiation-induced genetic damage in human cells. This assay has been adapted to imaging flow cytometry (IFC), allowing automated analysis of many cells, and eliminating the need to create microscope slides. Furthermore, to improve the efficiency of assay performance, a small-volume method previously developed was employed. Irradiated human blood samples were cultured, stained, and analyzed by IFC to produce images of the cells. Samples were run using both manual and 96-well plate automated acquisition. Multiple parameter-based image features were collected for each sample, and the results were compared to confirm that these acquisition methods are functionally identical. This paper details the multi-parametric analysis developed and the resulting calibration curves up to 10 Gy. The calibration curves were created using a quadratic random coefficient model with Poisson errors, as well as a logistic discriminant function. The curves were then validated with blinded, irradiated samples, using relative bias and relative mean square error. Overall, the accuracy of the dose estimates was adequate for triage dosimetry (within 1 Gy of the true dose) over 90% of the time for lower doses and about half the time for higher doses, with the lowest success rate between 5 and 6 Gy where the calibration curve reached its peak and there was the smallest change in MN/BNC with dose. This work describes the application of a novel multi-parametric analysis that fits the calibration curves and allows dose estimates up to 10 Gy, which were previously limited to 4 Gy. Furthermore, it demonstrates that the results from samples acquired manually and with the autosampler are functionally similar.

使用成像流式细胞仪对高剂量暴露应用细胞因子阻滞微核测定法
细胞分裂受阻微核试验是评估辐射诱导的人类细胞遗传损伤的一种行之有效的方法。这种检测方法已被改装成成像流式细胞仪(IFC),可对许多细胞进行自动分析,无需制作显微镜载玻片。此外,为了提高检测效率,还采用了之前开发的小容量方法。对经过辐照的人体血液样本进行培养、染色并用 IFC 分析,以生成细胞图像。采用手动和 96 孔板自动采集两种方式运行样本。为每个样本收集了基于多个参数的图像特征,并对结果进行了比较,以确认这些采集方法在功能上是相同的。本文详细介绍了所开发的多参数分析方法以及由此得出的高达 10 Gy 的校准曲线。校准曲线是使用具有泊松误差的二次随机系数模型以及逻辑判别函数创建的。然后使用相对偏差和相对均方误差,对盲法辐照样本进行曲线验证。总体而言,剂量估算的准确性在较低剂量和较高剂量的情况下,分别有超过 90% 和约一半的时间足以满足分诊剂量测定(真实剂量在 1 Gy 以内)的要求,而在校准曲线达到峰值且 MN/BNC 随剂量变化最小的 5 Gy 和 6 Gy 之间,成功率最低。这项工作描述了一种新的多参数分析方法的应用,它能拟合校准曲线,并允许剂量估算高达 10 Gy,而以前的估算仅限于 4 Gy。此外,它还证明了手动和自动进样器采集的样本结果在功能上是相似的。
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来源期刊
Cytogenetic and Genome Research
Cytogenetic and Genome Research 生物-细胞生物学
CiteScore
3.10
自引率
5.90%
发文量
25
审稿时长
1 months
期刊介绍: During the last decades, ''Cytogenetic and Genome Research'' has been the leading forum for original reports and reviews in human and animal cytogenetics, including molecular, clinical and comparative cytogenetics. In recent years, most of its papers have centered on genome research, including gene cloning and sequencing, gene mapping, gene regulation and expression, cancer genetics, comparative genetics, gene linkage and related areas. The journal also publishes key papers on chromosome aberrations in somatic, meiotic and malignant cells. Its scope has expanded to include studies on invertebrate and plant cytogenetics and genomics. Also featured are the vast majority of the reports of the International Workshops on Human Chromosome Mapping, the reports of international human and animal chromosome nomenclature committees, and proceedings of the American and European cytogenetic conferences and other events. In addition to regular issues, the journal has been publishing since 2002 a series of topical issues on a broad variety of themes from cytogenetic and genome research.
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