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Polarization sensitive optical coherence tomography with single input for imaging depth-resolved collagen organizations

Peijun Tang, Mitchell A. Kirby, Nhan Le, Yuandong Li, Nicole Zeinstra, G. Nina Lu, Charles E. Murry, Ying Zheng, Ruikang K. Wang

2021Light Science & Applications77 citationsDOIOpen Access PDF

Abstract

Collagen organization plays an important role in maintaining structural integrity and determining tissue function. Polarization-sensitive optical coherence tomography (PSOCT) is a promising noninvasive three-dimensional imaging tool for mapping collagen organization in vivo. While PSOCT systems with multiple polarization inputs have demonstrated the ability to visualize depth-resolved collagen organization, systems, which use a single input polarization state have not yet demonstrated sufficient reconstruction quality. Herein we describe a PSOCT based polarization state transmission model that reveals the depth-dependent polarization state evolution of light backscattered within a birefringent sample. Based on this model, we propose a polarization state tracing method that relies on a discrete differential geometric analysis of the evolution of the polarization state in depth along the Poincare sphere for depth-resolved birefringent imaging using only one single input polarization state. We demonstrate the ability of this method to visualize depth-resolved myocardial architecture in both healthy and infarcted rodent hearts (ex vivo) and collagen structures responsible for skin tension lines at various anatomical locations on the face of a healthy human volunteer (in vivo).

Topics & Concepts

Optical coherence tomographyBirefringencePolarization (electrochemistry)OpticsMaterials scienceIn vivoPolarization rotatorBiomedical engineeringPhysicsChemistryBiologyEngineeringBiotechnologyPhysical chemistryOptical Coherence Tomography ApplicationsAdvanced Fluorescence Microscopy TechniquesCoronary Interventions and Diagnostics
Polarization sensitive optical coherence tomography with single input for imaging depth-resolved collagen organizations | Litcius