BACKGROUND: Multiple computer-aided systems for polyp detection (CADe) have been introduced into clinical practice, with an unclear effect on examiner behavior. This study aimed to measure the influence of a CADe system on reaction time, mucosa misinterpretation, and changes in visual gaze pattern. METHODS: Participants with variable levels of colonoscopy experience viewed video sequences (n = 29) while eye movement was tracked. Using a crossover design, videos were presented in two assessments, with and without CADe support. Reaction time for polyp detection and eye-tracking metrics were evaluated. RESULTS: 21 participants performed 1218 experiments. CADe was significantly faster in detecting polyps compared with participants (median 1.16 seconds 99 \%CI 0.40-3.43 vs. 2.97 seconds 99 \%CI 2.53-3.77, respectively). However, the reaction time of participants when using CADe (median 2.90 seconds 99 \%CI 2.55-3.38) was similar to that without CADe. CADe increased misinterpretation of normal mucosa and reduced the eye travel distance. CONCLUSIONS: Results confirm that CADe systems detect polyps faster than humans. However, use of CADe did not improve human reaction times. It increased misinterpretation of normal mucosa and decreased the eye travel distance. Possible consequences of these findings might be prolonged examination time and deskilling.
%0 Journal Article
%1 Troya2022-qe
%A Troya, Joel
%A Fitting, Daniel
%A Brand, Markus
%A Sudarevic, Boban
%A Kather, Jakob Nikolas
%A Meining, Alexander
%A Hann, Alexander
%D 2022
%I Georg Thieme Verlag KG
%J Endoscopy
%K topic_lifescience
%N 10
%P 1009--1014
%T The influence of computer-aided polyp detection systems on reaction time for polyp detection and eye gaze
%V 54
%X BACKGROUND: Multiple computer-aided systems for polyp detection (CADe) have been introduced into clinical practice, with an unclear effect on examiner behavior. This study aimed to measure the influence of a CADe system on reaction time, mucosa misinterpretation, and changes in visual gaze pattern. METHODS: Participants with variable levels of colonoscopy experience viewed video sequences (n = 29) while eye movement was tracked. Using a crossover design, videos were presented in two assessments, with and without CADe support. Reaction time for polyp detection and eye-tracking metrics were evaluated. RESULTS: 21 participants performed 1218 experiments. CADe was significantly faster in detecting polyps compared with participants (median 1.16 seconds 99 \%CI 0.40-3.43 vs. 2.97 seconds 99 \%CI 2.53-3.77, respectively). However, the reaction time of participants when using CADe (median 2.90 seconds 99 \%CI 2.55-3.38) was similar to that without CADe. CADe increased misinterpretation of normal mucosa and reduced the eye travel distance. CONCLUSIONS: Results confirm that CADe systems detect polyps faster than humans. However, use of CADe did not improve human reaction times. It increased misinterpretation of normal mucosa and decreased the eye travel distance. Possible consequences of these findings might be prolonged examination time and deskilling.
@article{Troya2022-qe,
abstract = {BACKGROUND: Multiple computer-aided systems for polyp detection (CADe) have been introduced into clinical practice, with an unclear effect on examiner behavior. This study aimed to measure the influence of a CADe system on reaction time, mucosa misinterpretation, and changes in visual gaze pattern. METHODS: Participants with variable levels of colonoscopy experience viewed video sequences (n = 29) while eye movement was tracked. Using a crossover design, videos were presented in two assessments, with and without CADe support. Reaction time for polyp detection and eye-tracking metrics were evaluated. RESULTS: 21 participants performed 1218 experiments. CADe was significantly faster in detecting polyps compared with participants (median 1.16 seconds [99 \%CI 0.40-3.43] vs. 2.97 seconds [99 \%CI 2.53-3.77], respectively). However, the reaction time of participants when using CADe (median 2.90 seconds [99 \%CI 2.55-3.38]) was similar to that without CADe. CADe increased misinterpretation of normal mucosa and reduced the eye travel distance. CONCLUSIONS: Results confirm that CADe systems detect polyps faster than humans. However, use of CADe did not improve human reaction times. It increased misinterpretation of normal mucosa and decreased the eye travel distance. Possible consequences of these findings might be prolonged examination time and deskilling.},
added-at = {2024-09-10T11:56:37.000+0200},
author = {Troya, Joel and Fitting, Daniel and Brand, Markus and Sudarevic, Boban and Kather, Jakob Nikolas and Meining, Alexander and Hann, Alexander},
biburl = {https://puma.scadsai.uni-leipzig.de/bibtex/22ee58cadd1deb99b16a6199ab148d425/scadsfct},
copyright = {https://creativecommons.org/licenses/by-nc-nd/4.0/},
interhash = {7ac7d9e00a88e46bdd58a86b5e2c49a2},
intrahash = {2ee58cadd1deb99b16a6199ab148d425},
journal = {Endoscopy},
keywords = {topic_lifescience},
language = {en},
month = oct,
number = 10,
pages = {1009--1014},
publisher = {Georg Thieme Verlag KG},
timestamp = {2024-11-22T15:48:48.000+0100},
title = {The influence of computer-aided polyp detection systems on reaction time for polyp detection and eye gaze},
volume = 54,
year = 2022
}