Cervical inlet patch-optical coherence tomography imaging and clinical significance

doi:10.3748/wjg.v18.i20.2502

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May 28, 2012 (publication date) through Apr 26, 2024

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World Journal of Gastroenterology

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1007-9327

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Baishideng Publishing Group Inc, 7041 Koll Center Parkway, Suite 160, Pleasanton, CA 94566, USA

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World J Gastroenterol. May 28, 2012; 18(20): 2502-2510
Published online May 28, 2012. doi: 10.3748/wjg.v18.i20.2502

Cervical inlet patch-optical coherence tomography imaging and clinical significance

Chao Zhou, Tejas Kirtane, Tsung-Han Tsai, Hsiang-Chieh Lee, Desmond C Adler, Joseph M Schmitt, Qin Huang, James G Fujimoto, Hiroshi Mashimo

Chao Zhou, Tsung-Han Tsai, Hsiang-Chieh Lee, James G Fujimoto, Department of Electrical Engineering and Computer Science, Research Laboratory of Electronics, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, MA 02139-4307, United States

Tejas Kirtane, Qin Huang, Hiroshi Mashimo, Gastroenterology Section, VA Boston Healthcare System/Harvard School of Medicine, 150 S. Huntington Avenue, Boston, MA 02131, United States

Desmond C Adler, Joseph M Schmitt, Light Lab Imaging-St Jude Medical, Inc., Westford, MN 55117-9983, United States

Author contributions: Zhou C, Kirtane T and Mashimo H designed the study; Zhou C, Tsai TH, Lee HC, Adler DC and Schmitt JM developed the optical coherence tomography imaging system; Zhou C, Tsai TH, Lee HC and Mashimo H collected the data; Zhou C, Kirtane T, Tsai TH, Huang Q and Mashimo H analyzed the data; Fujimoto JG and Mashimo H obtained funding for the study; Zhou C, Kirtane T, Fujimoto JG and Mashimo H wrote the manuscript; Fujimoto JG and Mashimo H are principal investigators for this study.

Supported by The VA Boston Healthcare System and NIH grants R01-CA75289-14, to Fujimoto JG and Mashimo H; and K99-EB010071-01A1, to Zhou C; Air Force Office of Scientific Research contract FA9550-10-1-0063, to Fujimoto JG; Medical Free Electron Laser Program contract FA9550-10-1-0551, to Fujimoto JG; and the MIT/CIMIT Medical Engineering Fellowship, to Tsai TH

Correspondence to: Hiroshi Mashimo, MD, PhD, Gastroenterology Section, VA Boston Healthcare System/Harvard School of Medicine, 150 S. Huntington Avenue, Boston, MA 02131, United States. hmashimo@hms.harvard.edu

Telephone: +1-857-2035640 Fax: +1-857-2035666

Received: June 24, 2011
Revised: January 9, 2012
Accepted: February 8, 2012
Published online: May 28, 2012

Abstract

AIM: To demonstrate the feasibility of optical coherence tomography (OCT) imaging in differentiating cervical inlet patch (CIP) from normal esophagus, Barrett’s esophagus (BE), normal stomach and duodenum.

METHODS: This study was conducted at the Veterans Affairs Boston Healthcare System (VABHS). Patients undergoing standard esophagogastroduodenoscopy at VABHS, including one patient with CIP, one representative patient with BE and three representative normal subjects were included. White light video endoscopy was performed and endoscopic 3D-OCT images were obtained in each patient using a prototype OCT system. The OCT imaging probe passes through the working channel of the endoscope to enable simultaneous video endoscopy and 3D-OCT examination of the human gastrointestinal (GI) tract. Standard hematoxylin and eosin (H and E) histology was performed on biopsy or endoscopic mucosal resection specimens in order to compare and validate the 3D-OCT data.

RESULTS: CIP was observed from a 68-year old male with gastroesophageal reflux disease. The CIP region appeared as a pink circular lesion in the upper esophagus under white light endoscopy. OCT imaging over the CIP region showed columnar epithelium structure, which clearly contrasted the squamous epithelium structure from adjacent normal esophagus. 3D-OCT images obtained from other representative patients demonstrated distinctive patterns of the normal esophagus, BE, normal stomach, and normal duodenum bulb. Microstructures, such as squamous epithelium, lamina propria, muscularis mucosa, muscularis propria, esophageal glands, Barrett’s glands, gastric mucosa, gastric glands, and intestinal mucosal villi were clearly observed with OCT and matched with H and E histology. These results demonstrated the feasibility of using OCT to evaluate GI tissue morphology in situ and in real-time.

CONCLUSION: We demonstrate in situ evaluation of CIP microstructures using 3D-OCT, which may be a useful tool for future diagnosis and follow-up of patients with CIP.

Keywords: Cervical inlet patch, Heterotopic gastric mucosa, Optical coherence tomography, Optical biopsy, Barrett’s esophagus