We have constructed a fast structured illumination microscope that can acquire volume information (3D images) at very high speeds. By using a novel optical element, multiple different slices of a sample can be projected onto two scientific cameras, and imaged at the same time, without the need to refocus the sample. This speeds up data acquisition without degrading image quality.
We have also completed an on-the-fly data processing system for SIM microscopes. Typically, the data processing is performed off-line after the experiment is completed. With our systems, researches now have access to reconstructed, super-resolved image data while the experiment is still running. This allows to adjust experimental conditions or react to the biological dynamics observed without waiting for a time-consuming post-processing step.
Both microscope system were demonstrated by imaging mitochondrial dynamics, a prime target for this high-speed imaging approach. We also demonstrated their use for other imaging tasks, for example the fast readout of DNA barcoding samples.
The systems developed have been made available to the scientific community in open-access publications, their blue-prints and software components are freely available under open licenses. A new device developed as part of the research is currently being prepared for a patent application.