Litcius/Paper detail

Next-generation endoscopic probe for detection of esophageal dysplasia using combined OCT and angle-resolved low-coherence interferometry

Evan T. Jelly, Zachary A. Steelman, Haoran Zhang, Kengyeh K. Chu, Cary C. Cotton, Swathi Eluri, Nicholas J. Shaheen, Adam Wax

2024Biomedical Optics Express12 citationsDOIOpen Access PDF

Abstract

Angle-resolved low-coherence interferometry (a/LCI) is an optical technique that enables depth-specific measurements of nuclear morphology, with applications to detecting epithelial cancers in various organs. Previous a/LCI setups have been limited by costly fiber-optic components and large footprints. Here, we present a novel a/LCI instrument incorporating a channel for optical coherence tomography (OCT) to provide real-time image guidance. We showcase the system's capabilities by acquiring imaging data from in vivo Barrett's esophagus patients. The main innovation in this geometry lies in implementing a pathlength-matched single-mode fiber array, offering substantial cost savings while preserving signal fidelity. A further innovation is the introduction of a specialized side-viewing probe tailored for esophageal imaging, featuring miniature optics housed in a custom 3D-printed enclosure attached to the tip of the endoscope. The integration of OCT guidance enhances the precision of tissue targeting by providing real-time morphology imaging. This novel device represents a significant advancement in clinical translation of an enhanced screening approach for esophageal precancer, paving the way for more effective early-stage detection and intervention strategies.

Topics & Concepts

Optical coherence tomographyInterferometryCoherence (philosophical gambling strategy)OpticsOptical fiberOptical tomographyComputer sciencePhysicsQuantum mechanicsOptical Coherence Tomography ApplicationsPhotoacoustic and Ultrasonic ImagingAdvanced Fluorescence Microscopy Techniques
Next-generation endoscopic probe for detection of esophageal dysplasia using combined OCT and angle-resolved low-coherence interferometry | Litcius