Tethered capsule en face optical coherence tomography for imaging Barrett's esophagus in unsedated patients

TL;DR

This study demonstrates that ultrahigh-speed tethered capsule optical coherence tomography can rapidly and non-invasively image the esophageal mucosa in unsedated patients, aiding detection of Barrett's esophagus with improved device design and procedural techniques.

Contribution

The paper introduces an optimized ultrahigh-speed tethered capsule SS-OCT system capable of wide-area esophageal imaging in unsedated patients, enhancing detection of Barrett's esophagus.

Findings

Rapid imaging of ~40cm² esophageal area in 10 seconds

Capsule tolerated well by unsedated patients

BE identified in cross-sectional and en face OCT images

Abstract

Detection of Barrett's esophagus (BE) at points of care outside the endoscopy suite may improve screening access and reduce esophageal adenocarcinoma mortality. Tethered capsule optical coherence tomography (OCT) can volumetrically image esophageal mucosa and detect BE in unsedated patients. We investigated ultrahigh-speed tethered capsule, swept-source OCT (SS-OCT) in unsedated patients, improved device design, developed procedural techniques, measured how capsule contact and longitudinal pullback non-uniformity affect coverage, and assessed patient toleration. OCT was performed in 16 patients prior to endoscopic surveillance/treatment. Unsedated patients swallowed the capsule with small sips of water and the esophagus imaged by retracting the tether. Ultrahigh-speed SS-OCT at 1,000,000 A-scans/second imaged ~40cm$^2$ esophageal areas in 10 seconds with 30um transverse and 8um axial resolution. Nine patients had non-dysplastic BE, 3 had ablative treatment-naive neoplasia, and 4 had prior ablation for history of dysplasia. The capsule procedure was well tolerated. Ultrahigh-speed SS-OCT enabled the generation of cross-sectional and sub-surface en face images. BE could be rapidly identified in cross-sectional and en face images, while assessment of the gastro-esophageal junction (GEJ) required subsurface en face views. Capsule esophageal contact was worse in long-segment BE and sliding hiatal hernia, and longitudinal image coverage was worse in short-segment BE. OCT candidate features of dysplasia are reported. Ultrahigh-speed tethered capsule SS-OCT enabled en face and cross-sectional imaging of mucosal features over wide areas. Device and procedure optimization led to improved imaging performance. Areas of BE could be readily identified, but limited capsule contact and longitudinal image coverage can yield sampling errors.