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Feasibility of Obtaining Quantitative 3-Dimensional Information Using Conventional Endoscope: A Pilot Study
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Jong Jin Hyun, Hoon Jai Chun, Bora Keum, Yeon Seok Seo, Yong Sik Kim, Yoon Tae Jeen, Hong Sik Lee, Soon Ho Um, Chang Duck Kim, Ho Sang Ryu, Jong-Wook Lim, Dong-Gi Woo, Young-Joong Kim, Myo-Taeg Lim
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Clin Endosc 2012;45(3):182-188. Published online August 22, 2012
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DOI: https://doi.org/10.5946/ce.2012.45.3.182
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Abstract
PDFPubReaderePub
- Background/Aims
Three-dimensional (3D) imaging is gaining popularity and has been partly adopted in laparoscopic surgery or robotic surgery but has not been applied to gastrointestinal endoscopy. As a first step, we conducted an experiment to evaluate whether images obtained by conventional gastrointestinal endoscopy could be used to acquire quantitative 3D information. MethodsTwo endoscopes (GIF-H260) were used in a Borrmann type I tumor model made of clay. The endoscopes were calibrated by correcting the barrel distortion and perspective distortion. Obtained images were converted to gray-level image, and the characteristics of the images were obtained by edge detection. Finally, data on 3D parameters were measured by using epipolar geometry, two view geometry, and pinhole camera model. ResultsThe focal length (f) of endoscope at 30 mm was 258.49 pixels. Two endoscopes were fixed at predetermined distance, 12 mm (d12). After matching and calculating disparity (v2-v1), which was 106 pixels, the calculated length between the camera and object (L) was 29.26 mm. The height of the object projected onto the image (h) was then applied to the pinhole camera model, and the result of H (height and width) was 38.21 mm and 41.72 mm, respectively. Measurements were conducted from 2 different locations. The measurement errors ranged from 2.98% to 7.00% with the current Borrmann type I tumor model. ConclusionsIt was feasible to obtain parameters necessary for 3D analysis and to apply the data to epipolar geometry with conventional gastrointestinal endoscope to calculate the size of an object.
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Citations
Citations to this article as recorded by
- Three-dimensional light-field microendoscopy with a GRIN lens array
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Changliang Guo, Tara Urner, Shu Jia Applied Physics Letters.2020;[Epub] CrossRef - Current and emerging robotic assisted intervention for Notes
Siyang Zuo, Shuxin Wang Expert Review of Medical Devices.2016; 13(12): 1095. CrossRef - Application of robotics in gastrointestinal endoscopy: A review
Baldwin Po Man Yeung World Journal of Gastroenterology.2016; 22(5): 1811. CrossRef - Quantitative analysis of velopharyngeal movement using a stereoendoscope: accuracy and reliability of range images
Asuka Nakano, Katsuaki Mishima, Ruriko Shiraishi, Yoshiya Ueyama Computer Aided Surgery.2015; 20(1): 29. CrossRef - The Evolution of the Conventional Endoscope in an Era of 3-Dimensional Technology
Geun Am Song Clinical Endoscopy.2012; 45(3): 181. CrossRef
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