Schneidereit D, Schürmann S, Friedrich O (2018)
Publication Language: English
Publication Status: Published
Publication Type: Journal article, Original article
Publication year: 2018
Publisher: John Wiley and Sons Inc.
Article Number: 1801453
A high‐pressure optical chamber, PiezoGRIN, that facilitates
label‐free 3D high‐resolution live‐cell multiphoton microscopy in thick
tissue samples is presented. A set of two Gradient Index (GRIN) rod
lenses is integrated into the chamber as an optical guide and allows for
the adjustment of the focal plane through the sample providing a field
of view volume of 450 × 450 × 500 µm (x, y, z). An
optical lateral resolution of 0.8 µm is achieved by using two‐photon
excitation with 150 fs pulses of a 810 nm titanium–sapphire laser at
hydrostatic pressures up to 200 MPa. With the PiezoGRIN setup, it
is possible to follow pressure‐induced changes in subcellular structure
of unstained vital mouse skeletal muscle tissue up to 200 µm below the
tissue surface.
APA:
Schneidereit, D., Schürmann, S., & Friedrich, O. (2018). PiezoGRIN: A High-Pressure Chamber Incorporating GRIN Lenses for High-Resolution 3D-Microscopy of living Cells and Tissues. Advanced Science. https://doi.org/10.1002/advs.201801453
MLA:
Schneidereit, Dominik, Sebastian Schürmann, and Oliver Friedrich. "PiezoGRIN: A High-Pressure Chamber Incorporating GRIN Lenses for High-Resolution 3D-Microscopy of living Cells and Tissues." Advanced Science (2018).
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