Sungho Son scite author profile

Super-resolution Optical Fluctuation Imaging (SOFI) offers a simple and affordable alternative to other super-resolution (SR) imaging techniques. The theoretical resolution enhancement of SOFI scales linearly with the order of cumulants, while the imaging conditions exhibits less photo-toxicity to the living samples as compared to other SR methods. High order SOFI could, therefore, be a method of choice for dynamic live cell imaging. However, due to the cusp-artifacts and dynamic range expansion of pixel intensities, this promise has not been materialized as of yet. Here we investigated and compared high order moments vs. high order cumulants SOFI reconstructions. We demonstrate that even-order moments reconstructions are intrinsically free of cusp artifacts, allowing for a subsequent deconvolution operation to be performed, hence enhancing the resolution even further. High order moments reconstructions performance was examined for various (simulated) conditions and applied to (experimental) imaging of QD labeled microtubules in fixed cells, and actin stress fiber dynamics in live cells.

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Fast Super Resolved Imaging of Live Cells Using Superresolution Optical Fluctuation Imaging 2.0 (SOFI-2.0)

Son

Weiss

2018

Biophysical Journal

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Sungho Son

Moments reconstruction and local dynamic range compression of high order superresolution optical fluctuation imaging

Moments reconstruction and local dynamic range compression of high order Superresolution Optical Fluctuation Imaging

Fast Super Resolved Imaging of Live Cells Using Superresolution Optical Fluctuation Imaging 2.0 (SOFI-2.0)

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