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Super-wide-field two-photon imaging with a micro-optical device moving in post-objective space

Author

Listed:
  • Shin-Ichiro Terada

    (The University of Tokyo
    National Institute for Basic Biology
    Kyoto University)

  • Kenta Kobayashi

    (National Institute for Physiological Sciences)

  • Masamichi Ohkura

    (Saitama University)

  • Junichi Nakai

    (Saitama University)

  • Masanori Matsuzaki

    (The University of Tokyo
    National Institute for Basic Biology
    Japan Science and Technology Agency
    The University of Tokyo Institutes for Advanced Study)

Abstract

Wide-field imaging of neural activity at a cellular resolution is a current challenge in neuroscience. To address this issue, wide-field two-photon microscopy has been developed; however, the field size is limited by the objective size. Here, we develop a micro-opto-mechanical device that rotates within the post-objective space between the objective and brain tissue. Two-photon microscopy with this device enables sub-second sequential calcium imaging of left and right mouse sensory forelimb areas 6 mm apart. When imaging the rostral and caudal motor forelimb areas (RFA and CFA) 2 mm apart, we found high pairwise correlations in spontaneous activity between RFA and CFA neurons and between an RFA neuron and its putative axons in CFA. While mice performed a sound-triggered forelimb-movement task, the population activity between RFA and CFA covaried across trials, although the field-averaged activity was similar across trials. The micro-opto-mechanical device in the post-objective space provides a novel and flexible design to clarify the correlation structure between distant brain areas at subcellular and population levels.

Suggested Citation

  • Shin-Ichiro Terada & Kenta Kobayashi & Masamichi Ohkura & Junichi Nakai & Masanori Matsuzaki, 2018. "Super-wide-field two-photon imaging with a micro-optical device moving in post-objective space," Nature Communications, Nature, vol. 9(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06058-8
    DOI: 10.1038/s41467-018-06058-8
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