Automated CT image prescription of the gallbladder using deep learning: Development, evaluation, and health promotion

IF 1.5 Q2 MEDICINE, GENERAL & INTERNAL

Acute Medicine & Surgery Pub Date : 2025-02-27 DOI:10.1002/ams2.70049

Chien-Yi Yang, Hao-Lun Kao, Yu Cheng Chen, Chung-Feng Kuo, Chieh Hsing Liu, Shao-Cheng Liu

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引用次数: 0

Abstract

Aim

Most previous research on AI-based image diagnosis of acute cholecystitis (AC) has utilized ultrasound images. While these studies have shown promising outcomes, the results were based on still images captured by physicians, introducing inevitable selection bias. This study aims to develop a fully automated system for precise gallbladder detection among various abdominal structures, aiding clinicians in the rapid assessment of AC requiring cholecystectomy.

Methods

The dataset comprised images from 250 AC patients and 270 control participants. The VGG-16 architecture was employed for gallbladder recognition. Post-processing techniques such as the flood fill algorithm and centroid calculation were integrated into the model. U-Net was utilized for segmentation and features extraction. All models were combined to develop a fully automated AC detection system.

Results

The gallbladder identification accuracy among various abdominal organs was 95.3%, with the model effectively filtering out CT images lacking a gallbladder. In diagnosing AC, the model was tested on 120 cases, achieving an accuracy of 92.5%, sensitivity of 90.4%, and specificity of 94.1%. After integrating all components, the ensemble model achieved an overall accuracy of 86.7%. The automated process required 0.029 seconds of computation time per CT slice and 3.59 seconds per complete CT set.

Conclusions

The proposed system achieves promising performance in the automatic detection and diagnosis of gallbladder conditions in patients requiring cholecystectomy, with robust accuracy and computational efficiency. With further clinical validation, this computer-assisted system could serve as an auxiliary tool in identifying patients requiring emergency surgery.

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使用深度学习的胆囊自动CT图像处方：发展，评估和健康促进

目的以往基于人工智能的急性胆囊炎图像诊断研究多采用超声图像。虽然这些研究显示出有希望的结果，但结果是基于医生拍摄的静态图像，引入了不可避免的选择偏差。本研究旨在开发一种全自动系统，用于在各种腹部结构中精确检测胆囊，帮助临床医生快速评估需要胆囊切除术的AC。方法数据集包括250例AC患者和270例对照受试者的图像。采用VGG-16结构进行胆囊识别。将洪水填充算法和质心计算等后处理技术集成到模型中。利用U-Net进行分割和特征提取。将所有模型结合起来，形成一个全自动交流检测系统。结果胆囊在腹部各脏器中的识别准确率为95.3%，该模型能有效滤除缺乏胆囊的CT图像。在诊断AC时，该模型对120例进行了测试，准确率为92.5%，灵敏度为90.4%，特异性为94.1%。综合各分量后，集成模型总体精度达到86.7%。每个CT切片的自动计算时间为0.029秒，每个完整CT集的计算时间为3.59秒。结论该系统在胆囊切除术患者胆囊疾病的自动检测和诊断中具有良好的性能，具有较好的准确性和计算效率。通过进一步的临床验证，这种计算机辅助系统可以作为识别需要紧急手术的患者的辅助工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acute Medicine & Surgery MEDICINE, GENERAL & INTERNAL-

自引率

12.50%

发文量

审稿时长

53 weeks