In Vivo Size and Shape Measurement of the Human Upper Airway Using Endoscopic Longrange Optical Coherence Tomography

Overview

Journal Opt Express

Specialties Biophysics
Ophthalmology

Date 2009 May 26

PMID 19466064

Citations 26

Authors

Julian Armstrong

Matthew Leigh

Ian Walton

Andrei Zvyagin

Sergey Alexandrov

Stefan Schwer

David Sampson

David Hillman

Peter Eastwood

Affiliations

Soon will be listed here.

Abstract

We describe a long-range optical coherence tomography system for size and shape measurement of large hollow organs in the human body. The system employs a frequency-domain optical delay line of a configuration that enables the combination of high-speed operation with long scan range. We compare the achievable maximum delay of several delay line configurations, and identify the configurations with the greatest delay range. We demonstrate the use of one such long-range delay line in a catheter-based optical coherence tomography system and present profiles of the human upper airway and esophagus in vivo with a radial scan range of 26 millimeters. Such quantitative upper airway profiling should prove valuable in investigating the pathophysiology of airway collapse during sleep (obstructive sleep apnea).

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Sensing Inhalation Injury-Associated Changes in Airway Wall Compliance by Anatomic Optical Coherence Elastography.

Bu R, Balakrishnan S, Iftimia N, Price H, Zdanski C, Mitran S IEEE Trans Biomed Eng. 2020; 68(8):2360-2367.

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Upper airway reconstruction using long-range optical coherence tomography: Effects of airway curvature on airflow resistance.

Kimbell J, Basu S, Garcia G, Frank-Ito D, Lazarow F, Su E Lasers Surg Med. 2018; 51(2):150-160.

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