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Injectable Fluorescent Neural Interfaces for Cell-Specific Stimulating and Imaging

Shumao Xu, Xiao Xiao, Farid Manshaii, Jun Chen

2024Nano Letters12 citationsDOI

Abstract

Building on current explorations in chronic optical neural interfaces, it is essential to address the risk of photothermal damage in traditional optogenetics. By focusing on calcium fluorescence for imaging rather than stimulation, injectable fluorescent neural interfaces significantly minimize photothermal damage and improve the accuracy of neuronal imaging. Key advancements including the use of injectable microelectronics for targeted electrical stimulation and their integration with cell-specific genetically encoded calcium indicators have been discussed. These injectable electronics that allow for post-treatment retrieval offer a minimally invasive solution, enhancing both usability and reliability. Furthermore, the integration of genetically encoded fluorescent calcium indicators with injectable bioelectronics enables precise neuronal recording and imaging of individual neurons. This shift not only minimizes risks such as photothermal conversion but also boosts safety, specificity, and effectiveness of neural imaging. Embracing these advancements represents a significant leap forward in biomedical engineering and neuroscience, paving the way for advanced brain-machine interfaces.

Topics & Concepts

OptogeneticsPhotothermal therapyCalcium imagingNanotechnologyComputer scienceMicroelectronicsNeuroscienceFluorescenceNeuroimagingBioelectronicsMaterials scienceCalciumBiologyBiosensorMetallurgyPhysicsQuantum mechanicsNeuroscience and Neural EngineeringPhotoreceptor and optogenetics researchNeural dynamics and brain function
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