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Through the looking glass: A review of cranial window technology for optical access to the brain

Samuel W. Cramer, Russell E. Carter, Justin D. Aronson, Suhasa B. Kodandaramaiah, Timothy J. Ebner, Clark C. Chen

2021Journal of Neuroscience Methods88 citationsDOIOpen Access PDF

Abstract

Deciphering neurologic function is a daunting task, requiring understanding the neuronal networks and emergent properties that arise from the interactions among single neurons. Mechanistic insights into neuronal networks require tools that simultaneously assess both single neuron activity and the consequent mesoscale output. The development of cranial window technologies, in which the skull is thinned or replaced with a synthetic optical interface, has enabled monitoring neuronal activity from subcellular to mesoscale resolution in awake, behaving animals when coupled with advanced microscopy techniques. Here we review recent achievements in cranial window technologies, appraise the relative merits of each design and discuss the future research in cranial window design.

Topics & Concepts

Window (computing)NeuroscienceComputer scienceBrain functionHigh resolutionMesoscale meteorologyInterface (matter)Human–computer interactionBiologyGeologyRemote sensingBubbleMaximum bubble pressure methodOperating systemParallel computingClimatologyPhotoreceptor and optogenetics researchNeuroscience and Neural EngineeringNeural dynamics and brain function
Through the looking glass: A review of cranial window technology for optical access to the brain | Litcius