OnePetri: Accelerating Common Bacteriophage Petri Dish Assays with Computer Vision.

PHAGE (New Rochelle, N.Y.) Pub Date : 2021-12-01 Epub Date: 2021-12-16 DOI:10.1089/phage.2021.0012

Michael Shamash, Corinne F Maurice

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Abstract

Introduction: Bacteriophage plaque enumeration is a critical step in a wide array of protocols. The current gold standard for plaque enumeration on Petri dishes is through manual counting. However, this approach is not only time-consuming and prone to human error but also limited to Petri dishes with countable number of plaques resulting in low throughput. Materials and Methods: We present OnePetri, a collection of trained machine learning models and open-source mobile application for the rapid enumeration of bacteriophage plaques on circular Petri dishes. Results: When compared against the current gold standard of manual counting, OnePetri was ∼30 × faster. Compared against other similar tools, OnePetri had lower relative error (∼13%) than Plaque Size Tool (PST) (∼86%) and CFU.AI (∼19%), while also having significantly reduced detection times over PST (1.7 × faster). Conclusions: The OnePetri application is a user-friendly platform that can rapidly enumerate phage plaques on circular Petri dishes with high precision and recall.

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OnePetri:用计算机视觉加速常见噬菌体培养皿检测。

简介:噬菌体斑块计数是一个关键的步骤，在广泛的协议。目前在培养皿上菌斑计数的金标准是通过人工计数。然而，这种方法不仅耗时且容易出现人为错误，而且仅限于具有可计数斑块的培养皿，导致低通量。材料和方法:我们展示了OnePetri，这是一个训练有素的机器学习模型和开源移动应用程序的集合，用于快速枚举圆形培养皿上的噬菌体斑块。结果:与目前手工计数的金标准相比，OnePetri快了~ 30倍。与其他类似工具相比，OnePetri的相对误差(~ 13%)低于斑块大小工具(PST)(~ 86%)和CFU。AI(约19%)，同时也比PST显著减少了检测时间(快1.7倍)。结论:OnePetri应用程序是一个用户友好的平台，可以快速枚举圆形培养皿上的噬菌体斑块，具有较高的精密度和召回率。

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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PHAGE (New Rochelle, N.Y.)

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