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Smart hybrid microscopy for cell-friendly detection of rare events

Willi L. Stepp, Giorgio Tortarolo, Juan C. Landoni, Efkan Durmuş, Santiago N. Rodriguez Alvarez, Kyle M. Douglass, Martin Weigert, Suliana Manley

2026Nature Communications6 citationsDOIOpen Access PDF

Abstract

Fluorescence microscopy offers unparalleled access to the spatial organization and dynamics of biological events in living samples, yet capturing rare processes over extended durations remains challenging due to trade-offs between exposure to excitation light and sample health. Here, we introduce hybrid-EDA, an event-driven acquisition (EDA) framework that combines the gentleness and contextual richness of phase-contrast with the functional specificity of fluorescence. We develop surveillance for events of interest in label-free microscopy using dynamics-informed neural networks that trigger smart fluorescence acquisitions upon detection. This allows us to dramatically reduce phototoxic damage while obtaining specific and functional information from fluorescence when beneficial. We demonstrate how hybrid-EDA enables improved imaging acquisitions of organelle contacts and mitochondrial divisions. We envision that hybrid-EDA will enable insights into a range of dynamic and rare biological processes, providing a powerful and general strategy for cell-friendly imaging.

Topics & Concepts

MicroscopyComputer scienceFluorescenceNanotechnologyFluorescence microscopeFluorescence-lifetime imaging microscopyLight sheet fluorescence microscopyMaterials scienceRare eventsPhotoactivated localization microscopyRange (aeronautics)Artificial intelligenceBiological systemMicroscopeBiologyFluorescent labellingAtomic force microscopyDigital Holography and MicroscopyAdvanced Fluorescence Microscopy TechniquesNeural Networks and Reservoir Computing
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