Use of Hyperspectral Imaging Technology to Develop a Diagnostic Support System for Gastric Cancer

Overview

Journal J Biomed Opt

Specialties Biomedical Engineering
Ophthalmology

Date 2015 Jan 22

PMID 25604546

Citations 19

Authors

Atsushi Goto

Jun Nishikawa

Shu Kiyotoki

Munetaka Nakamura

Junichi Nishimura

Takeshi Okamoto

Hiroyuki Ogihara

Yusuke Fujita

Yoshihiko Hamamoto

Isao Sakaida

Affiliations

Soon will be listed here.

Abstract

Hyperspectral imaging (HSI) is a new technology that obtains spectroscopic information and renders it in image form. This study examined the difference in the spectral reflectance (SR) of gastric tumors and normal mucosa recorded with a hyperspectral camera equipped with HSI technology and attempted to determine the specific wavelength that is useful for the diagnosis of gastric cancer. A total of 104 gastric tumors removed by endoscopic submucosal dissection from 96 patients at Yamaguchi University Hospital were recorded using a hyperspectral camera. We determined the optimal wavelength and the cut-off value for differentiating tumors from normal mucosa to establish a diagnostic algorithm. We also attempted to highlight tumors by image processing using the hyperspectral camera's analysis software. A wavelength of 770 nm and a cut-off value of 1/4 the corrected SR were selected as the respective optimal wavelength and cut-off values. The rates of sensitivity, specificity, and accuracy of the algorithm's diagnostic capability were 71%, 98%, and 85%, respectively. It was possible to enhance tumors by image processing at the 770-nm wavelength. HSI can be used to measure the SR in gastric tumors and to differentiate between tumorous and normal mucosa.

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