AI Article Synopsis
- A structured illumination microscopy system using a hexagonal pattern from three coherent beams improves light-sheet imaging resolution by over 2 times the diffraction limit.
- Images captured during lateral shifts of the illumination pattern can be processed using three different methods based on the data's availability, ensuring clear results despite potential artifacts from moving samples.
- The system’s Python-based reconstruction algorithms utilize optimizations for GPU processing, achieving high frame rates and demonstrating efficacy on both static and simulated moving objects.
Article Abstract
We present a structured illumination microscopy system that projects a hexagonal pattern by the interference among three coherent beams, suitable for implementation in a light-sheet geometry. Seven images acquired as the illumination pattern is shifted laterally can be processed to produce a super-resolved image that surpasses the diffraction-limited resolution by a factor of over 2 in an exemplar light-sheet arrangement. Three methods of processing data are discussed depending on whether the raw images are available in groups of seven, individually in a stream or as a larger batch representing a three-dimensional stack. We show that imaging axially moving samples can introduce artefacts, visible as fine structures in the processed images. However, these artefacts are easily removed by a filtering operation carried out as part of the batch processing algorithm for three-dimensional stacks. The reconstruction algorithms implemented in Python include specific optimizations for calculation on a graphics processing unit and we demonstrate its operation on experimental data of static objects and on simulated data of moving objects. We show that the software can process over 239 input raw frames per second at 512 × 512 pixels, generating over 34 super-resolved frames per second at 1024 × 1024 pixels. This article is part of the Theo Murphy meeting issue 'Super-resolution structured illumination microscopy (part 1)'.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8072201 | PMC |
| http://dx.doi.org/10.1098/rsta.2020.0162 | DOI Listing |
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