2019
DOI: 10.1101/2019.12.12.873877
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Multi-photon attenuation-compensated light-sheet fluorescence microscopy

Abstract: Attenuation of optical fields owing to scattering and absorption limits the penetration depth for imaging. Whilst aberration correction may be used, this is difficult to implement over a large field-of-view in heterogeneous tissue. Attenuation-compensation allows tailoring of the maximum lobe of a propagation-invariant light field and promises an increase in depth penetration for imaging. Here we show this promising approach may be implemented in multi-photon (twophoton) light-sheet fluorescence microscopy and… Show more

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“…In light-sheet microscopy, both the illumination light path as well as the detection light path can be affected by scattering and absorption, with penetration of the light-sheet being a concern for the illumination, and the imaging depth relative to the detection lens affecting the emitted light traveling through the sample. Although much effort has been spent in obtaining a greater degree of penetration for light-sheet microscopy, 86,87 to date, this effort has been focused on obtaining a signal via 'attenuation compensation' rather than correcting for inhomogeneity in the sample per se. The presence of differentially attenuating/scattering structures in a mesoscale sample casts 'shadows', leading to concealed regions in the sample or distortion of the expected signal strength at the detector.…”
Section: Compensation In Light-sheet Microscopymentioning
confidence: 99%
“…In light-sheet microscopy, both the illumination light path as well as the detection light path can be affected by scattering and absorption, with penetration of the light-sheet being a concern for the illumination, and the imaging depth relative to the detection lens affecting the emitted light traveling through the sample. Although much effort has been spent in obtaining a greater degree of penetration for light-sheet microscopy, 86,87 to date, this effort has been focused on obtaining a signal via 'attenuation compensation' rather than correcting for inhomogeneity in the sample per se. The presence of differentially attenuating/scattering structures in a mesoscale sample casts 'shadows', leading to concealed regions in the sample or distortion of the expected signal strength at the detector.…”
Section: Compensation In Light-sheet Microscopymentioning
confidence: 99%