Challenges and advances in optical 3D mesoscale imaging
Optical mesoscale imaging is a rapidly developing field that allows the visualisation of larger
samples than is possible with standard light microscopy, and fills a gap between cell and …
samples than is possible with standard light microscopy, and fills a gap between cell and …
Imaging approaches for monitoring three‐dimensional cell and tissue culture systems
G Hilzenrat, ET Gill, SL McArthur - Journal of Biophotonics, 2022 - Wiley Online Library
The past decade has seen an increasing demand for more complex, reproducible and
physiologically relevant tissue cultures that can mimic the structural and biological features …
physiologically relevant tissue cultures that can mimic the structural and biological features …
Fast in vivo multiphoton light-sheet microscopy with optimal pulse frequency
Improving the imaging speed of multiphoton microscopy is an active research field. Among
recent strategies, light-sheet illumination holds distinctive advantages for achieving fast …
recent strategies, light-sheet illumination holds distinctive advantages for achieving fast …
Shining Light in Mechanobiology: Optical Tweezers, Scissors, and Beyond
AB Stilgoe, IA Favre-Bulle, ML Watson… - ACS …, 2024 - ACS Publications
Mechanobiology helps us to decipher cell and tissue functions by looking at changes in their
mechanical properties that contribute to development, cell differentiation, physiology, and …
mechanical properties that contribute to development, cell differentiation, physiology, and …
Simplified non-diffracting beam propagation calculation for axial distribution using ray tracing and energy conservation
J Guénette, M Quémener, J Borne… - Optical …, 2021 - spiedigitallibrary.org
We propose a method to compute the axial distribution of non-diffracting beams. The
approach stands on simple ray tracing and energy conservation principles. The proposed …
approach stands on simple ray tracing and energy conservation principles. The proposed …