A cortex-wide multimodal microscope for simultaneous Ca2+ and hemodynamic imaging in awake mice.
Wei Qin, Tingting Li, Linyang Li, Tian Jin, Baochen Li, Weizhi Qi, Yifan Chen, Haoyang Li, Shijie Ruan, Heng Guo, Xiao Liang, Lei Xi
Abstract
Open AccessDevelopments in optical imaging techniques have advanced the study of neurovascular coupling across the whole cortex. Unfortunately, each cortex-wide optical imaging modality is specialized in revealing limited neural or hemodynamic actions. Here, we develop a cortex-wide multimodal microscope (multiScope) integrating widefield Ca2+ fluorescence microscopy, optical resolution photoacoustic microscopy, and laser speckle contrast imaging to simultaneously observe neuron firing, total hemoglobin and blood flow velocity with endogenous biomarkers. The multiScope features a cortex-wide field-of-view of Ø 8.6 mm, a maximum imaging speed of 4 Hz, and the average spatial resolutions of 10.7 ± 3.1 μm and 7.1 ± 0.8 μm respectively for widefield imaging and photoacoustic microscopy after model-based restoration. We demonstrate the multi-parametric imaging capability of the multiScope using animal models, observe fast neural and hemodynamic activities across the entire cortex, and carry out both global and local neural vascular coupling analyses for different brain stimulations.