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A neurovascular high-frequency optical coherence tomography system enables in situ cerebrovascular volumetric microscopy

Giovanni J. Ughi, Miklós Marosföi, R King, Jildaz Caroff, Lindsy M. Peterson, Benjamin H Duncan, Erin Langan, Amanda Collins, Anita Leporati, Serge Rousselle, Demetrius K. Lopes, Matthew J. Gounis, Ajit S Puri

2020Nature Communications84 citationsDOIOpen Access PDF

Abstract

Intravascular imaging has emerged as a valuable tool for the treatment of coronary and peripheral artery disease; however, no solution is available for safe and reliable use in the tortuous vascular anatomy of the brain. Endovascular treatment of stroke is delivered under image guidance with insufficient resolution to adequately assess underlying arterial pathology and therapeutic devices. High-resolution imaging, enabling surgeons to visualize cerebral arteries' microstructure and micron-level features of neurovascular devices, would have a profound impact in the research, diagnosis, and treatment of cerebrovascular diseases. Here, we present a neurovascular high-frequency optical coherence tomography (HF-OCT) system, including an imaging console and an endoscopic probe designed to rapidly acquire volumetric microscopy data at a resolution approaching 10 microns in tortuous cerebrovascular anatomies. Using a combination of in vitro, ex vivo, and in vivo models, the feasibility of HF-OCT for cerebrovascular imaging was demonstrated.

Topics & Concepts

Optical coherence tomographyNeurovascular bundleIn situMicroscopyTomographyCoherence (philosophical gambling strategy)Biomedical engineeringOpticsMaterials scienceMedicineAnatomyPhysicsMeteorologyQuantum mechanicsOptical Coherence Tomography ApplicationsCerebrovascular and Carotid Artery DiseasesCoronary Interventions and Diagnostics
A neurovascular high-frequency optical coherence tomography system enables in situ cerebrovascular volumetric microscopy | Litcius