A Facile Method Based on Faster R‑CNN for Cell Detection in Microfluidic Devices
Guillaume Aubry, Yanjun Zhao, Erin Shappell, Jacob M. Wheelock, Hang Lu

TL;DR
This paper introduces an easy-to-use cell detection method using Faster R-CNN for microfluidic devices, requiring minimal labeling and no coding skills.
Contribution
A user-friendly Faster R-CNN method for cell detection in microfluidic devices that requires minimal labeling and no coding.
Findings
A Faster R-CNN model achieved over 98% average precision with only a few hundred annotations.
The method avoids misidentifying microfluidic structures as cells.
The approach is demonstrated for the first time in microfluidic chips.
Abstract
Cell detection is ubiquitous in the analysis of microfluidic cell assays. In cell biology, immunology, oncology, and toxicology research, studying cellular response starts with identifying the cells on chip. The large amount of data generated in such assays requires automating image analysis. While multitudes of image processing tools exist, the microfluidic channel network and crowded cell environment make it difficult to identify and track cells by conventional image processing techniques. In contrast, machine learning-based techniques may overcome this challenge. Two important challenges in implementing these techniques are that it often requires tedious image labeling and coding expertise. Here, we present a facile method for cell detection in microfluidic arrays using Faster region-based convolutional neural network (R-CNN) that addresses both challenges. First, image labeling is…
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Taxonomy
TopicsMicrofluidic and Bio-sensing Technologies · Cell Image Analysis Techniques · Digital Imaging for Blood Diseases
