Virtual plates: Getting the best out of high content screens

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Inbal Shapira Lots, Iris Alroy
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引用次数: 0

Abstract

High content screening (HCS) is becoming widely adopted as a high throughput screening modality, using hundred-of-thousands compounds library. The use of machine learning and artificial intelligence in image analysis is amplifying this trend. Another factor is the recognition that diverse cell phenotypes can be associated with changes in biological pathways relevant to disease processes. There are numerous challenges in HCS campaigns. These include limited ability to support replicates, low availability of precious and unique cells or reagents, high number of experimental batches, lengthy preparation of cells for imaging, image acquisition time (45–60 min per plate) and image processing time, deterioration of image quality with time post cell fixation and variability within wells and batches. To take advantage of the data in HCS, cell population based rather than well-based analyses are required. Historically, statistical analysis and hypothesis testing played only a limited role in non-high content high throughput campaigns. Thus, only a limited number of standard statistical criteria for hit selection in HCS have been developed so far. In addition to complex biological content in HCS campaigns, additional variability is impacted by cell and reagent handling and by instruments which may malfunction or perform unevenly. Together these can cause a significant number of wells or plates to fail. Here we describe an automated approach for hit analysis and detection in HCS. Our approach automates HCS hit detection using a methodology that is based on a documented statistical framework. We introduce the Virtual Plate concept in which selected wells from different plates are collated into a new, virtual plate. This allows the rescue and analysis of compound wells which have failed due to technical issues as well as to collect hit wells into one plate, allowing the user easier access to the hit data.

虚拟板块:充分利用高内容屏幕。
高含量筛选(HCS)作为一种高通量筛选方式正被广泛采用,使用数十万个化合物文库。机器学习和人工智能在图像分析中的应用正在放大这一趋势。另一个因素是认识到不同的细胞表型可能与与疾病过程相关的生物学途径的变化有关。在HCS运动中有许多挑战。这些因素包括支持复制的能力有限,珍贵和独特的细胞或试剂的可用性低,实验批次多,用于成像的细胞准备时间长,图像采集时间(每个板45-60分钟)和图像处理时间长,细胞固定后图像质量随时间的恶化以及孔和批次之间的变化。为了利用HCS中的数据,需要基于细胞群而不是基于良好的分析。从历史上看,统计分析和假设检验在非高内容高吞吐量活动中只发挥了有限的作用。因此,到目前为止,HCS中命中选择的标准统计标准数量有限。除了HCS活动中复杂的生物含量外,细胞和试剂处理以及可能发生故障或表现不均匀的仪器也会影响额外的可变性。这些因素加在一起可能导致大量井或板失效。在这里,我们描述了一种在HCS中进行命中分析和检测的自动化方法。我们的方法使用一种基于文档统计框架的方法来自动化HCS命中检测。我们介绍了虚拟板的概念,其中选择井从不同的板整理成一个新的,虚拟板。这可以对由于技术问题而失效的复合井进行救援和分析,并将冲击井收集到一个板块中,使用户更容易获得冲击数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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