Literature DB >> 21445119

Brain refractive index measured in vivo with high-NA defocus-corrected full-field OCT and consequences for two-photon microscopy.

Jonas Binding1, Juliette Ben Arous, Jean-François Léger, Sylvain Gigan, Claude Boccara, Laurent Bourdieu.   

Abstract

Two-photon laser scanning microscopy (2PLSM) is an important tool for in vivo tissue imaging with sub-cellular resolution, but the penetration depth of current systems is potentially limited by sample-induced optical aberrations. To quantify these, we measured the refractive index n' in the somatosensory cortex of 7 rats in vivo using defocus optimization in full-field optical coherence tomography (ff-OCT). We found n' to be independent of imaging depth or rat age. From these measurements, we calculated that two-photon imaging beyond 200 µm into the cortex is limited by spherical aberration, indicating that adaptive optics will improve imaging depth.

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Year:  2011        PMID: 21445119     DOI: 10.1364/OE.19.004833

Source DB:  PubMed          Journal:  Opt Express        ISSN: 1094-4087            Impact factor:   3.894


  53 in total

1.  Diode probes for spatiotemporal optical control of multiple neurons in freely moving animals.

Authors:  Eran Stark; Tibor Koos; György Buzsáki
Journal:  J Neurophysiol       Date:  2012-04-11       Impact factor: 2.714

2.  Label-free near-infrared reflectance microscopy as a complimentary tool for two-photon fluorescence brain imaging.

Authors:  Anna Letizia Allegra Mascaro; Irene Costantini; Emilia Margoni; Giulio Iannello; Alessandro Bria; Leonardo Sacconi; Francesco S Pavone
Journal:  Biomed Opt Express       Date:  2015-10-21       Impact factor: 3.732

3.  In vivo label-free confocal imaging of the deep mouse brain with long-wavelength illumination.

Authors:  Fei Xia; Chunyan Wu; David Sinefeld; Bo Li; Yifan Qin; Chris Xu
Journal:  Biomed Opt Express       Date:  2018-11-29       Impact factor: 3.732

Review 4.  En face coherence microscopy [Invited].

Authors:  Olivier Thouvenin; Kate Grieve; Peng Xiao; Clement Apelian; A Claude Boccara
Journal:  Biomed Opt Express       Date:  2017-01-06       Impact factor: 3.732

5.  Optical alignment device for two-photon microscopy.

Authors:  Gregorio L Galiñanes; Paul J Marchand; Raphaël Turcotte; Sebastien Pellat; Na Ji; Daniel Huber
Journal:  Biomed Opt Express       Date:  2018-07-09       Impact factor: 3.732

6.  Optical inhibition of motor nerve and muscle activity in vivo.

Authors:  Holly Liske; Chris Towne; Polina Anikeeva; Shengli Zhao; Guoping Feng; Karl Deisseroth; Scott Delp
Journal:  Muscle Nerve       Date:  2013-04-30       Impact factor: 3.217

7.  Monitoring Acute Stroke Progression: Multi-Parametric OCT Imaging of Cortical Perfusion, Flow, and Tissue Scattering in a Mouse Model of Permanent Focal Ischemia.

Authors:  Woo June Choi; Yuandong Li; Ruikang K Wang
Journal:  IEEE Trans Med Imaging       Date:  2019-01-31       Impact factor: 10.048

8.  Predictors and Limitations of the Penetration Depth of Photodynamic Effects in the Rodent Brain.

Authors:  Collin T Inglut; Brandon Gaitan; Daniel Najafali; Irati Abad Lopez; Nina P Connolly; Seppo Orsila; Robert Perttilä; Graeme F Woodworth; Yu Chen; Huang-Chiao Huang
Journal:  Photochem Photobiol       Date:  2019-10-13       Impact factor: 3.421

9.  Functional optical coherence tomography of rat olfactory bulb with periodic odor stimulation.

Authors:  Hideyuki Watanabe; Uma Maheswari Rajagopalan; Yu Nakamichi; Kei M Igarashi; Hirofumi Kadono; Manabu Tanifuji
Journal:  Biomed Opt Express       Date:  2016-02-10       Impact factor: 3.732

10.  Characterizing the optical properties of human brain tissue with high numerical aperture optical coherence tomography.

Authors:  Hui Wang; Caroline Magnain; Sava Sakadžić; Bruce Fischl; David A Boas
Journal:  Biomed Opt Express       Date:  2017-11-14       Impact factor: 3.732
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