Projects per year
Abstract
Significance: Current super-resolution imaging techniques allow for a greater understanding of cellular structures however they are often complex or only have the ability to image a few cells at once. This small field of view may not represent the behavior across the entire sample, and manual selection of ROIs may introduce bias. It is possible to stitch and tile many small ROI, however this can result in artefacts across an image.
Aim: To achieve accurate super-resolved images across a large field of view (4.4 mm x 3.0 mm).
Approach: We have applied Super-Resolution Radial Fluctuations processing in conjunction with the Mesolens, which has the unusual combination of a low-magnification and high numerical aperture, to obtain super-resolved images.
Results: We demonstrate it is possible to achieve images with a resolution of 446.3 ± 10.9 nm, providing a ~1.6-fold improvement in spatial resolution, over a field of view of 4.4 mm x 3.0 mm, with minimal error, and consistent structural agreement.
Conclusions: This work provides a simple method for obtaining accurate super-resolution images over a large FOV, allowing for a simultaneous understanding of both subcellular structures and their large-scale interactions.
Aim: To achieve accurate super-resolved images across a large field of view (4.4 mm x 3.0 mm).
Approach: We have applied Super-Resolution Radial Fluctuations processing in conjunction with the Mesolens, which has the unusual combination of a low-magnification and high numerical aperture, to obtain super-resolved images.
Results: We demonstrate it is possible to achieve images with a resolution of 446.3 ± 10.9 nm, providing a ~1.6-fold improvement in spatial resolution, over a field of view of 4.4 mm x 3.0 mm, with minimal error, and consistent structural agreement.
Conclusions: This work provides a simple method for obtaining accurate super-resolution images over a large FOV, allowing for a simultaneous understanding of both subcellular structures and their large-scale interactions.
| Original language | English |
|---|---|
| Article number | 126502 |
| Number of pages | 14 |
| Journal | Journal of Biomedical Optics |
| Volume | 29 |
| Issue number | 12 |
| DOIs | |
| Publication status | Published - 24 Dec 2024 |
Funding
M.B. is supported by a Research Excellence Award Studentship from the Engineering & Physical Sciences Research Council. S.F., G.W.G and G.M. were funded by the Biotechnology and Biological Sciences Research Council, BB/X005178/1. L.M.R. was funded by the Leverhulme Trust. G.M. was funded by The Medical Research Council, MR/K015583/1, and the Biotechnology and Biological Sciences Research Council, BB/P02565X/1, and BB/T011602/1.
Keywords
- super-resolution
- Mesolens
- microscopy
- diffraction-limited
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How does EFR3 control insulin-stimulated plasma membrane dispersal of GLUT4?
Gould, G. (Principal Investigator), Li, D. (Co-investigator), McConnell, G. (Co-investigator) & Van de Linde, S. (Co-investigator)
BBSRC (Biotech & Biological Sciences Research Council)
15/05/23 → 14/05/26
Project: Research
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FASPRI:a new method for increased spatial resolution in surface plasmon imaging of unlabelled living cells.
McConnell, G. (Principal Investigator)
BBSRC (Biotech & Biological Sciences Research Council)
1/01/21 → 31/03/22
Project: Research
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TartanSW: a new method for spectrally-resolved standing wave cell microscopy and mesoscopy
McConnell, G. (Principal Investigator) & Bushell, T. (Co-investigator)
BBSRC (Biotech & Biological Sciences Research Council)
1/08/17 → 6/02/20
Project: Research
Datasets
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Data for "Obtaining super-resolved images at the mesoscale through Super-Resolution Radial Fluctuations"
Brown, M. (Creator), Foylan, S. (Creator), Rooney, L. (Creator), Gould, G. (Creator) & McConnell, G. (Creator), University of Strathclyde, 30 Oct 2024
DOI: 10.15129/1897cdca-4dae-4ab4-8a21-aec16c8820d5
Dataset
Activities
- 1 Invited talk
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5th Swedish Diabetes Summit
Gould, G. (Speaker)
21 May 2025 → 23 May 2025Activity: Talk or presentation types › Invited talk