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<i>In Vivo</i> Single-Molecule Detection of Nanoparticles for Multiphoton Fluorescence Correlation Spectroscopy to Quantify Cerebral Blood Flow

Xu Fu, Pradoldej Sompol, J. Anthony Brandon, Christopher M. Norris, Thomas Wilkop, Lance A. Johnson, Christopher I. Richards

2020Nano Letters26 citationsDOIOpen Access PDF

Abstract

fluorescence correlation spectroscopy (FCS) of fluorescent nanoparticles for the measurement of cerebral blood flow with excellent spatial and temporal resolution. Through the detection of single nanoparticles within the complex vessel architecture of a live mouse, this new approach enables the quantification of nanoparticle dynamics occurring within the vasculature along with simultaneous measurements of blood flow properties in the brain. In addition to providing high resolution blood flow measurements, this approach enables real-time quantification of nanoparticle concentration, degradation, and transport. This method is capable of quantifying flow rates at each pixel with submicron resolution to enable monitoring of dynamic changes in flow rates in response to changes in the animal's physiological condition. Scanning the excitation beam using FCS provides pixel by pixel mapping of flow rates with subvessel resolution across capillaries 300 μm deep in the brains of mice.

Topics & Concepts

Fluorescence correlation spectroscopyNanoparticleTemporal resolutionFluorescenceImage resolutionMaterials scienceResolution (logic)SpectroscopyFluorescence spectroscopyAnalytical Chemistry (journal)Cerebral blood flowBlood flowChemistryBiological systemBiomedical engineeringNanotechnologyOpticsChromatographyPhysicsComputer scienceInternal medicineMedicineQuantum mechanicsArtificial intelligenceBiologyCardiologyAdvanced Fluorescence Microscopy TechniquesOptical Imaging and Spectroscopy TechniquesPhotoacoustic and Ultrasonic Imaging
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