1Wyss Ctr. For Bio And Neuroengineering (Switzerland) 2Wyss Ctr. for Bio And Neuroengineering (Switzerland) 3Wyss Ctr. for Bio and Neuro Engineering (Switzerland)
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Many neurological and digestive diseases have been linked to dysfunctions of the Enteric Nervous System (ENS) or gut microbiome imbalances. However, to this day, no tool allows a comprehensive in-vivo interrogation of the ENS. To address this lack of such technology, we performed a complete characterization and monitoring of the ENS to design an optogenetic endomicroscope based on Optical Coherence Tomography, capable of in-vivo mapping the ENS's morphology and functionality as well as in-situ microbiota sampling. We anticipate that researchers and clinicians would benefit from such a device to gain new insights into the microbiota-gut-brain axis and improve standards of care.
Arielle Planchette,Jules Scholler,Yoseline Rosales Cabara,Ivana Gantar, andMichalina Gora
"Three-dimensional imaging of the enteric nervous system for the design of a multimodal optogenetic endomicroscope ", Proc. SPIE PC12356, Endoscopic Microscopy XVIII, PC123560L (17 March 2023); https://doi.org/10.1117/12.2649380
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Arielle Planchette, Jules Scholler, Yoseline Rosales Cabara, Ivana Gantar, Michalina Gora, "Three-dimensional imaging of the enteric nervous system for the design of a multimodal optogenetic endomicroscope ," Proc. SPIE PC12356, Endoscopic Microscopy XVIII, PC123560L (17 March 2023); https://doi.org/10.1117/12.2649380