Worth Ross Michael, Espina Laura
Riverwell Consultancy Services Ltd., Cardiff, United Kingdom.
Ineos Oxford Institute for Antimicrobial Research, Department of Zoology, University of Oxford, Oxford, United Kingdom.
Front Microbiol. 2022 Jul 19;13:900596. doi: 10.3389/fmicb.2022.900596. eCollection 2022.
Monitoring the growth of bacterial cultures is one of the most common techniques in microbiology. This is usually achieved by using expensive and bulky spectrophotometric plate readers which periodically measure the optical density of bacterial cultures during the incubation period. In this study, we present a completely novel way of obtaining bacterial growth curves based on the classification of scanned images of cultures rather than using spectrophotometric measurements. We trained a deep learning model with images of bacterial broths contained in microplates, and we integrated it into a custom-made software application that triggers a flatbed scanner to timely capture images, automatically processes the images, and represents all growth curves. The developed tool, ScanGrow, is presented as a low-cost and high-throughput alternative to plate readers, and it only requires a computer connected to a flatbed scanner and equipped with our open-source ScanGrow application. In addition, this application also assists in the pre-processing of data to create and evaluate new models, having the potential to facilitate many routine microbiological techniques.
监测细菌培养物的生长是微生物学中最常见的技术之一。这通常通过使用昂贵且体积庞大的分光光度平板读数器来实现,该读数器在培养期间定期测量细菌培养物的光密度。在本研究中,我们提出了一种全新的获取细菌生长曲线的方法,该方法基于对培养物扫描图像的分类,而不是使用分光光度测量。我们用微孔板中细菌肉汤的图像训练了一个深度学习模型,并将其集成到一个定制的软件应用程序中,该应用程序触发平板扫描仪及时捕获图像,自动处理图像,并呈现所有生长曲线。所开发的工具ScanGrow作为平板读数器的低成本、高通量替代品被展示出来,它只需要一台连接到平板扫描仪并配备我们开源ScanGrow应用程序的计算机。此外,该应用程序还协助进行数据预处理以创建和评估新模型,有可能促进许多常规微生物技术。
