Extended Field-of-View Deep Brain Imaging using Aberration Correction in GRIN Microendoscopes through 3D Printed Polymer Microlenses

Andrea Sattin; Andrea Antonini; Andrea Antonini; Serena Bovetti; Claudio Moretti; Angelo Forli; Francesca Succol; Vijayakumar P. Rajamanickam; Vijayakumar P. Rajamanickam; Vijayakumar P. Rajamanickam; Andrea Bertoncini; Carlo Liberale; Tommaso Fellin

doi:10.1364/BRAIN.2020.BTu2C.6

Biophotonics Congress: Biomedical Optics 2020 (Translational, Microscopy, OCT, OTS, BRAIN)
OSA Technical Digest (Optica Publishing Group, 2020),
paper BTu2C.6
•https://doi.org/10.1364/BRAIN.2020.BTu2C.6

Extended Field-of-View Deep Brain Imaging using Aberration Correction in GRIN Microendoscopes through 3D Printed Polymer Microlenses

Andrea Sattin, Andrea Antonini, Serena Bovetti, Claudio Moretti, Angelo Forli, Francesca Succol, Vijayakumar P. Rajamanickam, Andrea Bertoncini, Carlo Liberale, and Tommaso Fellin

Optics and the Brain 2020

Washington, DC United States
20–23 April 2020
ISBN: 978-1-943580-74-3

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Light Fields and Sculpted Light (BTu2C)

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A. Sattin, A. Antonini, S. Bovetti, C. Moretti, A. Forli, F. Succol, V. P. Rajamanickam, A. Bertoncini, C. Liberale, and T. Fellin, "Extended Field-of-View Deep Brain Imaging using Aberration Correction in GRIN Microendoscopes through 3D Printed Polymer Microlenses," in Biophotonics Congress: Biomedical Optics 2020 (Translational, Microscopy, OCT, OTS, BRAIN), OSA Technical Digest (Optica Publishing Group, 2020), paper BTu2C.6.

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Abstract

We report the development and application of a new approach to correct aberrations in GRIN microendoscopes using 3D printed polymer microlenses. Corrected microendoscopes are validated performing functional imaging experiments in the mouse brain in vivo.

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