Universal autofocus for quantitative volumetric microscopy of whole mouse brains

RAPID (rapid autofocusing via pupil-split image phase detection) is a sample-agnostic real-time autofocus method for widefield microscopy. RAPID removes most image degradation in large, cleared samples for enhanced quantitative analyses. Unbiased quantitative analysis of macroscopic biological samples demands fast imaging systems capable of maintaining high resolution across large volumes. Here we introduce RAPID (rapid autofocusing via pupil-split image phase detection), a real-time autofocus method applicable in every widefield-based microscope. RAPID-enabled light-sheet microscopy reliably reconstructs intact, cleared mouse brains with subcellular resolution, and allowed us to characterize the three-dimensional (3D) spatial clustering of somatostatin-positive neurons in the whole encephalon, including densely labeled areas. Furthermore, it enabled 3D morphological analysis of microglia across the entire brain. Beyond light-sheet microscopy, we demonstrate that RAPID maintains high image quality in various settings, from in vivo fluorescence imaging to 3D tracking of fast-moving organisms. RAPID thus provides a flexible autofocus solution that is suitable for traditional automated microscopy tasks as well as for quantitative analysis of large biological specimens.

Automated summary

RAPID is a real-time autofocus method for widefield microscopy that removes image degradation in large, cleared samples for enhanced quantitative analyses. It enables high-resolution imaging of macroscopic biological samples and allows for 3D spatial clustering analysis of neurons and morphological analysis of microglia. Beyond light-sheet microscopy, RAPID also maintains high image quality in various settings, making it suitable for traditional automated microscopy tasks and quantitative analysis of large biological specimens.