waveOrder: generalist framework for label-agnostic computational microscopy
Correlative computational microscopy is accelerating the mapping of dynamic biological systems by integrating morphological and molecular measurements across spatial scales, from organelles to entire organisms. Visualization, measurement, and prediction of interactions among the components of biolog...
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Zusammenfassung: | Correlative computational microscopy is accelerating the mapping of dynamic
biological systems by integrating morphological and molecular measurements
across spatial scales, from organelles to entire organisms. Visualization,
measurement, and prediction of interactions among the components of biological
systems can be accelerated by generalist computational imaging frameworks that
relax the trade-offs imposed by multiplex dynamic imaging. This work reports a
generalist framework for wave optical imaging of the architectural order
(waveOrder) among biomolecules for encoding and decoding multiple specimen
properties from a minimal set of acquired channels, with or without fluorescent
labels. waveOrder expresses material properties in terms of elegant physically
motivated basis vectors directly interpretable as phase, absorption,
birefringence, diattenuation, and fluorophore density; and it expresses image
data in terms of directly measurable Stokes parameters. We report a
corresponding multi-channel reconstruction algorithm to recover specimen
properties in multiple contrast modes. With this framework, we implement
multiple 3D computational microscopy methods, including quantitative phase
imaging, quantitative label-free imaging with phase and polarization, and
fluorescence deconvolution imaging, across scales ranging from organelles to
whole zebrafish. These advances are available via an extensible open-source
computational imaging library, waveOrder, and a napari plugin, recOrder. |
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DOI: | 10.48550/arxiv.2412.09775 |