De-scattering with excitation patterning enables rapid wide-field imaging through scattering media

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Abstract

Nonlinear optical microscopy has enabled in vivo deep tissue imaging on the millimeter scale. A key unmet challenge is its limited throughput especially compared to rapid wide-field modalities that are used ubiquitously in thin specimens. Wide-field imaging methods in tissue specimens have found successes in optically cleared tissues and at shallower depths, but the scattering of emission photons in thick turbid samples severely degrades image quality at the camera. To address this challenge, we introduce a novel technique called De-scattering with Excitation Patterning or “DEEP,” which uses patterned nonlinear excitation followed by computational imaging–assisted wide-field detection. Multiphoton temporal focusing allows high-resolution excitation patterns to be projected deep inside specimen at multiple scattering lengths due to the use of long wavelength light. Computational reconstruction allows high-resolution structural features to be reconstructed from tens to hundreds of DEEP images instead of millions of point-scanning measurements.

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Zheng, C., Park, J. K., Yildirim, M., Boivin, J. R., Xue, Y., Sur, M., … Wadduwage, D. N. (2021). De-scattering with excitation patterning enables rapid wide-field imaging through scattering media. Science Advances, 7(28). https://doi.org/10.1126/sciadv.aay5496

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