Litcius/Paper detail

High-speed volumetric two-photon fluorescence imaging of neurovascular dynamics

Jiang Lan Fan, José A. Rivera, Wei Sun, John C. Peterson, Henry Haeberle, Sam Rubin, Na Ji

2020Nature Communications132 citationsDOIOpen Access PDF

Abstract

Understanding the structure and function of vasculature in the brain requires us to monitor distributed hemodynamics at high spatial and temporal resolution in three-dimensional (3D) volumes in vivo. Currently, a volumetric vasculature imaging method with sub-capillary spatial resolution and blood flow-resolving speed is lacking. Here, using two-photon laser scanning microscopy (TPLSM) with an axially extended Bessel focus, we capture volumetric hemodynamics in the awake mouse brain at a spatiotemporal resolution sufficient for measuring capillary size and blood flow. With Bessel TPLSM, the fluorescence signal of a vessel becomes proportional to its size, which enables convenient intensity-based analysis of vessel dilation and constriction dynamics in large volumes. We observe entrainment of vasodilation and vasoconstriction with pupil diameter and measure 3D blood flow at 99 volumes/second. Demonstrating high-throughput monitoring of hemodynamics in the awake brain, we expect Bessel TPLSM to make broad impacts on neurovasculature research.

Topics & Concepts

Biomedical engineeringHemodynamicsTwo-photon excitation microscopyBlood flowImage resolutionTemporal resolutionOpticsMaterials sciencePhysicsFluorescenceMedicineInternal medicineAdvanced Fluorescence Microscopy TechniquesOptical Imaging and Spectroscopy TechniquesOptical Coherence Tomography Applications