Whole Stomach 3D Reconstruction and Frame Localization From Monocular Endoscope Video

Gastric endoscopy is a common clinical practice that enables medical doctors to diagnose various lesions inside a stomach. In order to identify the location of a gastric lesion such as early cancer and a peptic ulcer within the stomach, this work addresses to reconstruct the color-textured 3D model...

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Published in	IEEE journal of translational engineering in health and medicine Vol. 7; pp. 1 - 10
Main Authors	Widya, Aji Resindra, Monno, Yusuke, Okutomi, Masatoshi, Suzuki, Sho, Gotoda, Takuji, Miki, Kenji
Format	Journal Article
Language	English
Published	United States IEEE 01.01.2019 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	3D reconstruction Algorithms Cameras Color Endoscopes Endoscopy Gastric endoscopy Image color analysis Image reconstruction Indigo Lesions Localization Medical imaging monocular endoscope Physicians Stomach structure-from-motion Surface layers Three dimensional models Three-dimensional displays Gastric endoscopy monocular endoscope stomach 3D reconstruction structure-from-motion
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Abstract	Gastric endoscopy is a common clinical practice that enables medical doctors to diagnose various lesions inside a stomach. In order to identify the location of a gastric lesion such as early cancer and a peptic ulcer within the stomach, this work addresses to reconstruct the color-textured 3D model of a whole stomach from a standard monocular endoscope video and localize any selected video frame to the 3D model. We examine how to enable structure-from-motion (SfM) to reconstruct the whole shape of a stomach from endoscope images, which is a challenging task due to the texture-less nature of the stomach surface. We specifically investigate the combined effect of chromo-endoscopy and color channel selection on SfM to increase the number of feature points. We also design a plane fitting-based algorithm for 3D point outliers removal to improve the 3D model quality. We show that whole stomach 3D reconstruction can be achieved (more than 90% of the frames can be reconstructed) by using red channel images captured under chromo-endoscopy by spreading indigo carmine (IC) dye on the stomach surface. In experimental results, we demonstrate the reconstructed 3D models for seven subjects and the application of lesion localization and reconstruction. The methodology and results presented in this paper could offer some valuable reference to other researchers and also could be an excellent tool for gastric surgeons in various computer-aided diagnosis applications.
AbstractList	Gastric endoscopy is a common clinical practice that enables medical doctors to diagnose various lesions inside a stomach. In order to identify the location of a gastric lesion such as early cancer and a peptic ulcer within the stomach, this work addresses to reconstruct the color-textured 3D model of a whole stomach from a standard monocular endoscope video and localize any selected video frame to the 3D model. We examine how to enable structure-from-motion (SfM) to reconstruct the whole shape of a stomach from endoscope images, which is a challenging task due to the texture-less nature of the stomach surface. We specifically investigate the combined effect of chromo-endoscopy and color channel selection on SfM to increase the number of feature points. We also design a plane fitting-based algorithm for 3D point outliers removal to improve the 3D model quality. We show that whole stomach 3D reconstruction can be achieved (more than 90% of the frames can be reconstructed) by using red channel images captured under chromo-endoscopy by spreading indigo carmine (IC) dye on the stomach surface. In experimental results, we demonstrate the reconstructed 3D models for seven subjects and the application of lesion localization and reconstruction. The methodology and results presented in this paper could offer some valuable reference to other researchers and also could be an excellent tool for gastric surgeons in various computer-aided diagnosis applications. Gastric endoscopy is a common clinical practice that enables medical doctors to diagnose various lesions inside a stomach. In order to identify the location of a gastric lesion such as early cancer and a peptic ulcer within the stomach, this work addresses to reconstruct the color-textured 3D model of a whole stomach from a standard monocular endoscope video and localize any selected video frame to the 3D model. We examine how to enable structure-from-motion (SfM) to reconstruct the whole shape of a stomach from endoscope images, which is a challenging task due to the texture-less nature of the stomach surface. We specifically investigate the combined effect of chromo-endoscopy and color channel selection on SfM to increase the number of feature points. We also design a plane fitting-based algorithm for 3D point outliers removal to improve the 3D model quality. We show that whole stomach 3D reconstruction can be achieved (more than 90% of the frames can be reconstructed) by using red channel images captured under chromo-endoscopy by spreading indigo carmine (IC) dye on the stomach surface. In experimental results, we demonstrate the reconstructed 3D models for seven subjects and the application of lesion localization and reconstruction. The methodology and results presented in this paper could offer some valuable reference to other researchers and also could be an excellent tool for gastric surgeons in various computer-aided diagnosis applications.Gastric endoscopy is a common clinical practice that enables medical doctors to diagnose various lesions inside a stomach. In order to identify the location of a gastric lesion such as early cancer and a peptic ulcer within the stomach, this work addresses to reconstruct the color-textured 3D model of a whole stomach from a standard monocular endoscope video and localize any selected video frame to the 3D model. We examine how to enable structure-from-motion (SfM) to reconstruct the whole shape of a stomach from endoscope images, which is a challenging task due to the texture-less nature of the stomach surface. We specifically investigate the combined effect of chromo-endoscopy and color channel selection on SfM to increase the number of feature points. We also design a plane fitting-based algorithm for 3D point outliers removal to improve the 3D model quality. We show that whole stomach 3D reconstruction can be achieved (more than 90% of the frames can be reconstructed) by using red channel images captured under chromo-endoscopy by spreading indigo carmine (IC) dye on the stomach surface. In experimental results, we demonstrate the reconstructed 3D models for seven subjects and the application of lesion localization and reconstruction. The methodology and results presented in this paper could offer some valuable reference to other researchers and also could be an excellent tool for gastric surgeons in various computer-aided diagnosis applications.
Author	Widya, Aji Resindra Monno, Yusuke Miki, Kenji Okutomi, Masatoshi Suzuki, Sho Gotoda, Takuji
AuthorAffiliation	2 Division of Gastroenterology and Hepatology Department of Medicine Nihon University School of Medicine Tokyo 101-8309 Japan 1 Department of Systems and Control Engineering School of Engineering Tokyo Institute of Technology 13290 Tokyo 152-8550 Japan 3 Department of Internal Medicine Tsujinaka Hospital Kashiwanoha Kashiwa 277-0871 Japan
AuthorAffiliation_xml	– name: 2 Division of Gastroenterology and Hepatology Department of Medicine Nihon University School of Medicine Tokyo 101-8309 Japan – name: 3 Department of Internal Medicine Tsujinaka Hospital Kashiwanoha Kashiwa 277-0871 Japan – name: 1 Department of Systems and Control Engineering School of Engineering Tokyo Institute of Technology 13290 Tokyo 152-8550 Japan
Author_xml	– sequence: 1 givenname: Aji Resindra orcidid: 0000-0002-3472-4555 surname: Widya fullname: Widya, Aji Resindra email: aresindra@ok.ctrl.titech.ac.jp organization: Department of Systems and Control Engineering, School of Engineering, Tokyo Institute of Technology, Tokyo, Japan – sequence: 2 givenname: Yusuke orcidid: 0000-0001-6733-3406 surname: Monno fullname: Monno, Yusuke organization: Department of Systems and Control Engineering, School of Engineering, Tokyo Institute of Technology, Tokyo, Japan – sequence: 3 givenname: Masatoshi orcidid: 0000-0001-5787-0742 surname: Okutomi fullname: Okutomi, Masatoshi organization: Department of Systems and Control Engineering, School of Engineering, Tokyo Institute of Technology, Tokyo, Japan – sequence: 4 givenname: Sho orcidid: 0000-0003-4831-1409 surname: Suzuki fullname: Suzuki, Sho organization: Department of Medicine, Division of Gastroenterology and Hepatology, Nihon University School of Medicine, Tokyo, Japan – sequence: 5 givenname: Takuji surname: Gotoda fullname: Gotoda, Takuji organization: Department of Medicine, Division of Gastroenterology and Hepatology, Nihon University School of Medicine, Tokyo, Japan – sequence: 6 givenname: Kenji surname: Miki fullname: Miki, Kenji organization: Department of Internal Medicine, Tsujinaka Hospital Kashiwanoha, Kashiwa, Japan
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Snippet	Gastric endoscopy is a common clinical practice that enables medical doctors to diagnose various lesions inside a stomach. In order to identify the location of...
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SubjectTerms	3D reconstruction Algorithms Cameras Color Endoscopes Endoscopy Gastric endoscopy Image color analysis Image reconstruction Indigo Lesions Localization Medical imaging monocular endoscope Physicians Stomach structure-from-motion Surface layers Three dimensional models Three-dimensional displays
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Title	Whole Stomach 3D Reconstruction and Frame Localization From Monocular Endoscope Video
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