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Literature DB >> 29675297

Minimally invasive multimode optical fiber microendoscope for deep brain fluorescence imaging.

Shay Ohayon^1,2, Antonio Caravaca-Aguirre³, Rafael Piestun³, James J DiCarlo^1,2.

Abstract

A major open challenge in neuroscience is the ability to measure and perturb neural activity in vivo from well defined neural sub-populations at cellular resolution anywhere in the brain. However, limitations posed by scattering and absorption prohibit non-invasive multi-photon approaches for deep (>2mm) structures, while gradient refractive index (GRIN) endoscopes are relatively thick and can cause significant damage upon insertion. Here, we present a novel micro-endoscope design to image neural activity at arbitrary depths via an ultra-thin multi-mode optical fiber (MMF) probe that has 5-10X thinner diameter than commercially available micro-endoscopes. We demonstrate micron-scale resolution, multi-spectral and volumetric imaging. In contrast to previous approaches, we show that this method has an improved acquisition speed that is sufficient to capture rapid neuronal dynamics in-vivo in rodents expressing a genetically encoded calcium indicator (GCaMP). Our results emphasize the potential of this technology in neuroscience applications and open up possibilities for cellular resolution imaging in previously unreachable brain regions.

Entities: Chemical

Keywords: (060.2350) Fiber optics imaging; (170.2520) Fluorescence microscopy

Year: 2018 PMID： 29675297 PMCID： PMC5905901 DOI： 10.1364/BOE.9.001492

Source DB: PubMed Journal: Biomed Opt Express ISSN： 2156-7085 Impact factor: 3.732

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