Abstract
Gastric endoscopy is a golden standard in the clinical process that enables medical practitioners to diagnose various lesions inside a patient’s stomach. If a lesion is found, a success in identifying the location of the found lesion relative to the global view of the stomach will lead to better decision making for the next clinical treatment. Our previous research showed that the lesion localization could be achieved by reconstructing the whole stomach shape from chromoendoscopic indigo carmine (IC) dye-sprayed images using a structure-from-motion (SfM) pipeline. However, spraying the IC dye to the whole stomach requires additional time, which is not desirable for both patients and practitioners. Our objective is to propose an alternative way to achieve whole stomach 3D reconstruction without the need of the IC dye. We generate virtual IC-sprayed (VIC) images based on image-to-image style translation trained on unpaired real no-IC and IC-sprayed images, where we have investigated the effect of input and output color channel selection for generating the VIC images. We validate our reconstruction results by comparing them with the results using real IC-sprayed images and confirm that the obtained stomach 3D structures are comparable to each other. We also propose a local reconstruction technique to obtain a more detailed surface and texture around an interesting region. The proposed method achieves the whole stomach reconstruction without the need of real IC dye using SfM. We have found that translating no-IC green-channel images to IC-sprayed red-channel images gives the best SfM reconstruction result. Clinical impact We offer a method of the frame localization and local 3D reconstruction of a found gastric lesion using standard endoscopy images, leading to better clinical decision.
Highlights
Gastric endoscopy is a well-applied clinical process that enables medical practitioners to find a gastric lesion, such as an ulcer and cancer, inside the patient’s stomach
We have presented a new approach to reconstruct a whole stomach 3D shape from a gastric endoscopy video without the need of indigo carmine (IC) dye spraying
We have found that input color channel selection for the style translation affects the feature matching performance of the virtual IC-sprayed (VIC) images
Summary
Gastric endoscopy is a well-applied clinical process that enables medical practitioners to find a gastric lesion, such as an ulcer and cancer, inside the patient’s stomach. The accurate localization of a found malignant lesion is very important to decide the clinical procedure. If laparoscopic gastroectomy for early cancer needs to be performed, the target cancer location relative to the global view of the stomach should be known to decide the operative procedure. The successful localization of a found malignant lesion leads to better and more effective decision making by the doctors. Accurately recognizing the lesion’s 3D location only from 2D endoscopic images is difficult for gastric surgeons, especially when the images are captured by another endoscopist. To address the difficulty of the lesion localization in gastric endoscopy, previous studies propose some 2D or 3D approaches. The examples of the 2D approach are X-ray barium radiography [1] which is able to reveal various characteristics
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