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. 2009 Sep;56(9):2190-6.
doi: 10.1109/TBME.2008.2006035. Epub 2008 Oct 7.

Measuring objective quality of colonoscopy

JungHwan Oh  1 Sae HwangYu CaoWallapak TavanapongDanyu LiuJohnny WongPiet C de Groen
Affiliations

Measuring objective quality of colonoscopy

JungHwan Oh et al. IEEE Trans Biomed Eng. 2009 Sep.

Abstract

Advances in video technology are being incorporated into today's healthcare practices. Colonoscopy is regarded as one of the most important diagnostic tools for colorectal cancer. Indeed, colonoscopy has contributed to a decline in the number of colorectal-cancer-related deaths. Although colonoscopy has become the preferred screening modality for prevention of colorectal cancer, recent data suggest that there is a significant miss rate for the detection of large polyps and cancers, and methods to investigate why this occurs are needed. To address this problem, we present a new computer-based method that analyzes a digitized video file of a colonoscopic procedure and produces a number of metrics that likely reflect the quality of the procedure. The method consists of a set of novel image-processing algorithms designed to address new technical challenges due to uncommon characteristics of videos captured during colonoscopy. As these measurements can be obtained automatically, our method enables future quality control in large-scale day-to-day medical practice, which is currently not feasible. In addition, our method can be adapted to other endoscopic procedures such as upper gastrointestinal endoscopy, enteroscopy, and bronchoscopy. Last but not least, our method may be useful to assess progress during colonoscopy training.

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Figures

Fig. 1
Fig. 1
Process for computing quality metrics.
Fig. 2
Fig. 2
Example of (left) noninformative frames and (right) informative frames.
Fig. 3
Fig. 3
Classification algorithm of informative and noninformative frames. (a) Original noninformative frame. (b) Frequency spectrum of (a). (c) Original informative frame. (d) Frequency spectrum of (c).
Fig. 4
Fig. 4
Patterns for outlier motion vector removal. (a) Smoothing change and (b) neighborhood indicating the number of motion vectors within the tolerance angle from the motion vector of the center macroblock.
Fig. 5
Fig. 5
3-D camera motion model.
Fig. 6
Fig. 6
Procedure of video segmentation.
See this image and copyright information in PMC

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References

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