DeepFoci: Deep Learning-Based Algorithm for Fast Automatic Analysis of DNA Double Strand Break Ionizing Radiation-Induced Foci

Abstract: DNA double-strand breaks, marked by Ionizing Radiation-Induced (Repair) Foci (IRIF), are the most serious DNA lesions, dangerous to human health. IRIF quantification based on confocal microscopy represents the most sensitive and gold standard method in radiation biodosimetry and allows research of DSB induction and repair at the molecular and a single cell level. In this study, we introduce DeepFoci - a deep learning-based fully-automatic method for IRIF counting and its morphometric analysis. DeepFoci is desi… Show more

“…Many architectures have been proposed for various tasks, with CNNs being commonly used. DeepFoci (Vicar et al, 2020) utilizes U-Net, a specific CNN architecture to detect and segment foci and nuclei with promising accuracy in a fully unsupervised manner. A combined approach in (Hohmann et al, 2020) uses classical techniques to detect regions of interest, extracts an over abundant set of features using filters and feeds these results into a classifier.…”

“…First, excluding manual classification (e.g., in Fiji) or generic approaches (e.g., CellProfiler), the identification of SGs, or other cytoplasmic foci with significant cytoplasmic background signal has seen very few tailored automated approaches. Second, as reported in an exhaustive study on bioimaging informatics tools (Schneider et al, 2019), overall usability is a significant hurdle for the use of automated methods, making CellProfiler one of most popular, yet not optimal (Vicar et al, 2020) methods. Finally, in biological publications the issue of human variability and error is often not addressed.…”

HARLEY: A Semi-Automated detection of foci in fluorescence images of yeast

“…Many architectures have been proposed for various tasks, with CNNs being commonly used. DeepFoci (Vicar et al, 2020) utilizes U-Net, a specific CNN architecture to detect and segment foci and nuclei with promising accuracy in a fully unsupervised manner. A combined approach in (Hohmann et al, 2020) uses classical techniques to detect regions of interest, extracts an over abundant set of features using filters and feeds these results into a classifier.…”

“…First, excluding manual classification (e.g., in Fiji) or generic approaches (e.g., CellProfiler), the identification of SGs, or other cytoplasmic foci with significant cytoplasmic background signal has seen very few tailored automated approaches. Second, as reported in an exhaustive study on bioimaging informatics tools (Schneider et al, 2019), overall usability is a significant hurdle for the use of automated methods, making CellProfiler one of most popular, yet not optimal (Vicar et al, 2020) methods. Finally, in biological publications the issue of human variability and error is often not addressed.…”

HARLEY: A Semi-Automated detection of foci in fluorescence images of yeast