%0 Journal Article %1 mahecic2022 %A Mahecic, Dora %A Stepp, Willi L. %A Zhang, Chen %A Griffié, Juliette %A Weigert, Martin %A Manley, Suliana %D 2022 %K ML_Spatial_Understanding Zno %N 10 %P 1262--1267 %R 10.1038/s41592-022-01589-x %T Event-driven acquisition for content-enriched microscopy %U https://doi.org/10.1038/s41592-022-01589-x %V 19 %X A common goal of fluorescence microscopy is to collect data on specific biological events. Yet, the event-specific content that can be collected from a sample is limited, especially for rare or stochastic processes. This is due in part to photobleaching and phototoxicity, which constrain imaging speed and duration. We developed an event-driven acquisition framework, in which neural-network-based recognition of specific biological events triggers real-time control in an instant structured illumination microscope. Our setup adapts acquisitions on-the-fly by switching between a slow imaging rate while detecting the onset of events, and a fast imaging rate during their progression. Thus, we capture mitochondrial and bacterial divisions at imaging rates that match their dynamic timescales, while extending overall imaging durations. Because event-driven acquisition allows the microscope to respond specifically to complex biological events, it acquires data enriched in relevant content.

@article{mahecic2022, abstract = {A common goal of fluorescence microscopy is to collect data on specific biological events. Yet, the event-specific content that can be collected from a sample is limited, especially for rare or stochastic processes. This is due in part to photobleaching and phototoxicity, which constrain imaging speed and duration. We developed an event-driven acquisition framework, in which neural-network-based recognition of specific biological events triggers real-time control in an instant structured illumination microscope. Our setup adapts acquisitions on-the-fly by switching between a slow imaging rate while detecting the onset of events, and a fast imaging rate during their progression. Thus, we capture mitochondrial and bacterial divisions at imaging rates that match their dynamic timescales, while extending overall imaging durations. Because event-driven acquisition allows the microscope to respond specifically to complex biological events, it acquires data enriched in relevant content.}, added-at = {2025-02-03T15:33:31.000+0100}, author = {Mahecic, Dora and Stepp, Willi L. and Zhang, Chen and Griffié, Juliette and Weigert, Martin and Manley, Suliana}, biburl = {https://puma.scadsai.uni-leipzig.de/bibtex/235ccea7214c5cc88df62460d2aa1836d/scadsfct}, doi = {10.1038/s41592-022-01589-x}, interhash = {c5374b1f5db5cb17c25e692abd4d4594}, intrahash = {35ccea7214c5cc88df62460d2aa1836d}, issn = {1548-7105}, journaltitle = {Nature Methods}, keywords = {ML_Spatial_Understanding Zno}, number = 10, pages = {1262--1267}, shortjournal = {Nature Methods}, timestamp = {2025-02-03T15:50:22.000+0100}, title = {Event-driven acquisition for content-enriched microscopy}, url = {https://doi.org/10.1038/s41592-022-01589-x}, volume = 19, year = 2022 }