Development of convolutional neural network models that recognize normal anatomic structures during real-time radial-array and linear-array EUS (with videos)
Carlos Robles-Medranda, Jorge Baquerizo-Burgos, Miguel Puga-Tejada, Raquel Del Valle, Juan C Mendez, Maria Egas-Izquierdo, Martha Arevalo-Mora, Domenica Cunto, Juan Alcívar-Vasquez, Hannah Pitanga-Lukashok, Daniela Tabacelia, Carlos Robles-Medranda, Jorge Baquerizo-Burgos, Miguel Puga-Tejada, Raquel Del Valle, Juan C Mendez, Maria Egas-Izquierdo, Martha Arevalo-Mora, Domenica Cunto, Juan Alcívar-Vasquez, Hannah Pitanga-Lukashok, Daniela Tabacelia
Abstract
Background and aims: EUS is a high-skill technique that requires numerous procedures to achieve competence. However, training facilities are limited worldwide. Convolutional neural network (CNN) models have been previously implemented for object detection. We developed 2 EUS-based CNN models for normal anatomic structure recognition during real-time linear- and radial-array EUS evaluations.
Methods: The study was performed from February 2020 to June 2022. Consecutive patient videos of linear- and radial-array EUS videos were recorded. Expert endosonographers identified and labeled 20 normal anatomic structures within the videos for training and validation of the CNN models. Initial CNN models (CNNv1) were developed from 45 videos and the improved models (CNNv2) from an additional 102 videos. CNN model performance was compared with that of 2 expert endosonographers.
Results: CNNv1 used 45,034 linear-array EUS frames and 21,063 radial-array EUS frames. CNNv2 used 148,980 linear-array EUS frames and 128,871 radial-array EUS frames. Linear-array CNNv1 and radial-array CNNv1 achieved a 75.65% and 71.36% mean average precision (mAP) with a total loss of .19 and .18, respectively. Linear-array CNNv2 obtained an 88.7% mAP with a .06 total loss, whereas radial-array CNNv2 achieved an 83.5% mAP with a .07 total loss. CNNv2 accurately detected all studied normal anatomic structures with a >98% observed agreement during clinical validation.
Conclusions: The proposed CNN models accurately recognize the normal anatomic structures in prerecorded videos and real-time EUS. Prospective trials are needed to evaluate the impact of these models on the learning curves of EUS trainees.
Conflict of interest statement
Disclosure The following author disclosed financial relationships: C. Robles-Medranda: Consultant and key opinion leader for Pentax Medical, Boston Scientific, Steris, Medtronic, Motus, Micro-tech, G-Tech Medical Supply, CREO Medical, EndoSound, and mdconsgroup. All other authors disclosed no financial relationships.
Copyright © 2024 American Society for Gastrointestinal Endoscopy. Published by Elsevier Inc. All rights reserved.
Source: PubMed