Machine learning for enumeration of cell colony forming units.

4区计算机科学 Q1 Arts and Humanities Visual Computing for Industry, Biomedicine, and Art Pub Date : 2022-11-05 DOI:10.1186/s42492-022-00122-3

Louis Zhang

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引用次数: 2

Abstract

As one of the most widely used assays in biological research, an enumeration of the bacterial cell colonies is an important but time-consuming and labor-intensive process. To speed up the colony counting, a machine learning method is presented for counting the colony forming units (CFUs), which is referred to as CFUCounter. This cell-counting program processes digital images and segments bacterial colonies. The algorithm combines unsupervised machine learning, iterative adaptive thresholding, and local-minima-based watershed segmentation to enable an accurate and robust cell counting. Compared to a manual counting method, CFUCounter supports color-based CFU classification, allows plates containing heterologous colonies to be counted individually, and demonstrates overall performance (slope 0.996, SD 0.013, 95%CI: 0.97-1.02, p value < 1e-11, r = 0.999) indistinguishable from the gold standard of point-and-click counting. This CFUCounter application is open-source and easy to use as a unique addition to the arsenal of colony-counting tools.

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用于细胞集落形成单元枚举的机器学习。

作为生物学研究中应用最广泛的检测方法之一，细菌菌落计数是一项重要但耗时费力的过程。为了加快菌落计数的速度，提出了一种用于菌落形成单元计数的机器学习方法，称为菌落计数器。这个细胞计数程序处理数字图像并分割细菌菌落。该算法结合了无监督机器学习、迭代自适应阈值分割和基于局部最小值的分水岭分割，以实现准确而稳健的细胞计数。与人工计数方法相比，CFUCounter支持基于颜色的CFU分类，允许对含有异源菌落的平板进行单独计数，并且具有整体性能(斜率0.996,SD 0.013, 95%CI: 0.97-1.02, p值)

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