Akademik Veri Yönetim Sistemi
PEDIATRIC PULMONOLOGY, cilt.2024, ss.1-6, 2024 (SCI-Expanded)
Purpose: This study aimed to develop and assess the performance of an artificial
intelligence (AI)‐driven decision support system, XRAInet, in accurately identifying
pediatric patients with pleural effusion or pneumothorax and determining whether
tube thoracostomy intervention is warranted.
Methods: In this diagnostic accuracy study, we retrospectively analyzed a data set
containing 510 X‐ray images from 170 pediatric patients admitted between 2005
and 2022. Patients were categorized into two groups: Tube (requiring tube
thoracostomy) and Conservative (managed conservatively). XRAInet, a deep
learning‐based algorithm, was trained using this data set. We evaluated its
performance using various metrics, including mean Average Precision (mAP), recall,
precision, and F1 score.
Results: XRAInet, achieved a mAP score of 0.918. This result underscores its ability
to accurately identify and localize regions necessitating tube thoracostomy for
pediatric patients with pneumothorax and pleural effusion. In an independent testing
data set, the model exhibited a sensitivity of 64.00% and specificity of 96.15%.
Conclusion: In conclusion, XRAInet presents a promising solution for improving the
detection and decision‐making process for cases of pneumothorax and pleural
effusion in pediatric patients using X‐ray images. These findings contribute to the
expanding field of AI‐driven medical imaging, with potential applications for
enhancing patient outcomes. Future research endeavors should explore hybrid
models, enhance interpretability, address data quality issues, and align with
regulatory requirements to ensure the safe and effective deployment of XRAInet
in healthcare settings.
KEYWORDS
decision support systems, deep learning, diagnostic imaging, pleural effusion, pneumothorax.