Clear optically matched panoramic access channel technique (COMPACT) for large-volume deep brain imaging

Abstract

To understand neural circuit mechanisms underlying behavior, it is crucial to observe the dynamics of neuronal structure and function in different parts of the brain. Current imaging technologies allow cellular resolution imaging of neurons within ~1 millimeter below the cortical surface. Even for mice, the majority of brain tissue remains inaccessible. Although miniature optical imaging probes allow the access of deep brain regions, the cellular-resolution imaging is restricted to a small tissue volume. To drastically increase the tissue access volume and enable a high-throughput neurophotonic interface, we developed a clear optically matched panoramic access channel technique (COMPACT). With comparable probe dimension, COMPACT enables a two to three orders of magnitude greater tissue access volume for structural and function imaging. Leveraging the large-volume imaging capability of COMPACT, we demonstrated multiregional calcium imaging of deep brain functions associated with sleep for the first time. The compatibility of COMPACT for longitudinal large-volume in vivo imaging will be highly valuable to a variety of deep tissue imaging applications.