High speed multi-plane super-resolution structured illumination microscopy of living cells using an image-splitting prism

High speed multi-plane super-resolution structured illumination microscopy of living cells using an image-splitting prism

Adrien Descloux, Marcel Müller, Vytautas Navikas, Andreas Markwirth, Robin Van den Eynde, Tomas Lukes, Wolfgang Hübner, Theo Lasser, Aleksandra Radenovic, Peter Dedecker, Thomas Huser

doi: https://doi.org/10.1101/773440

Super-resolution structured illumination microscopy (SR-SIM) can be conducted at video-rate acquisition speeds when combined with high-speed spatial light modulators and sCMOS cameras, rendering it particularly suitable for live cell imaging. If, however, three-dimensional (3D) information is desired, the sequential acquisition of vertical image stacks employed by current setups significantly slows down the acquisition process. In this work we present a multi-plane approach to SR-SIM that overcomes this slowdown via the simultaneous acquisition of multiple object planes, employing a recently introduced multi-plane image splitting prism combined with high-speed SR-SIM illumination. This strategy requires only the introduction of a single optical element and the addition of a second camera to acquire a laterally super-resolved three-dimensional image stack. We demonstrate the performance of multi-plane SR-SIM by applying this instrument to the dynamics of live mitochondrial network.