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Main Authors: Kligvasser, Idan, Leifman, George, Goldenberg, Roman, Rivlin, Ehud, Elad, Michael
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2305.10090
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author Kligvasser, Idan
Leifman, George
Goldenberg, Roman
Rivlin, Ehud
Elad, Michael
author_facet Kligvasser, Idan
Leifman, George
Goldenberg, Roman
Rivlin, Ehud
Elad, Michael
contents Colonoscopy is the standard of care technique for detecting and removing polyps for the prevention of colorectal cancer. Nevertheless, gastroenterologists (GI) routinely miss approximately 25% of polyps during colonoscopies. These misses are highly operator dependent, influenced by the physician skills, experience, vigilance, and fatigue. Standard quality metrics, such as Withdrawal Time or Cecal Intubation Rate, have been shown to be well correlated with Adenoma Detection Rate (ADR). However, those metrics are limited in their ability to assess the quality of a specific procedure, and they do not address quality aspects related to the style or technique of the examination. In this work we design novel online and offline quality metrics, based on visual appearance quality criteria learned by an ML model in an unsupervised way. Furthermore, we evaluate the likelihood of detecting an existing polyp as a function of quality and use it to demonstrate high correlation of the proposed metric to polyp detection sensitivity. The proposed online quality metric can be used to provide real time quality feedback to the performing GI. By integrating the local metric over the withdrawal phase, we build a global, offline quality metric, which is shown to be highly correlated to the standard Polyp Per Colonoscopy (PPC) quality metric.
format Preprint
id arxiv_https___arxiv_org_abs_2305_10090
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Semi-supervised Quality Evaluation of Colonoscopy Procedures
Kligvasser, Idan
Leifman, George
Goldenberg, Roman
Rivlin, Ehud
Elad, Michael
Computer Vision and Pattern Recognition
Colonoscopy is the standard of care technique for detecting and removing polyps for the prevention of colorectal cancer. Nevertheless, gastroenterologists (GI) routinely miss approximately 25% of polyps during colonoscopies. These misses are highly operator dependent, influenced by the physician skills, experience, vigilance, and fatigue. Standard quality metrics, such as Withdrawal Time or Cecal Intubation Rate, have been shown to be well correlated with Adenoma Detection Rate (ADR). However, those metrics are limited in their ability to assess the quality of a specific procedure, and they do not address quality aspects related to the style or technique of the examination. In this work we design novel online and offline quality metrics, based on visual appearance quality criteria learned by an ML model in an unsupervised way. Furthermore, we evaluate the likelihood of detecting an existing polyp as a function of quality and use it to demonstrate high correlation of the proposed metric to polyp detection sensitivity. The proposed online quality metric can be used to provide real time quality feedback to the performing GI. By integrating the local metric over the withdrawal phase, we build a global, offline quality metric, which is shown to be highly correlated to the standard Polyp Per Colonoscopy (PPC) quality metric.
title Semi-supervised Quality Evaluation of Colonoscopy Procedures
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2305.10090