Litcius/Paper detail

Hybrid multimode - multicore fibre based holographic endoscope for deep-tissue neurophotonics

Yang Du, Sergey Turtaev, Ivo T. Leite, Adrian Lorenz, Jens Kobelke, Katrin Wondraczek, Tomáš Čižmár

2022Light Advanced Manufacturing24 citationsDOIOpen Access PDF

Abstract

In-vivo microendoscopy in animal models became a groundbreaking technique in neuroscience that rapidly expands our understanding of the brain. Emerging hair-thin endoscopes based on multimode fibres are now opening up the prospect of ultra-minimally invasive neuroimaging of deeply located brain structures. Complementing these advancements with methods of functional imaging and optogenetics, as well as extending its applicability to awake and motile animals constitute the most pressing challenges for this technology. Here we demonstrate a novel fibre design capable of both, high-resolution imaging in immobilised animals and bending-resilient optical addressing of neurons in motile animals. The optimised refractive index profile and the probe structure allowed reaching a spatial resolution of 2 μm across a 230 μm field of view for the initial layout of the fibre. Simultaneously, the fibre exhibits negligible cross-talk between individual inner-cores during fibre deformation. This work provides a technological solution for imaging-assisted spatially selective photo-activation and activity monitoring in awake and freely moving animal models.

Topics & Concepts

OptogeneticsHolographyMulti-mode optical fiberNeuroimagingComputer scienceOptical fiberMaterials scienceNeuroscienceBiomedical engineeringOpticsBiologyPhysicsTelecommunicationsMedicineRandom lasers and scattering mediaPhotoreceptor and optogenetics researchNeural dynamics and brain function