Utilizing artificial intelligence for the detection of hemarthrosis in hemophilia using point-of-care ultrasonography

IF 3.4 3区医学 Q2 HEMATOLOGY Research and Practice in Thrombosis and Haemostasis Pub Date : 2024-11-01 DOI:10.1016/j.rpth.2024.102602

Pascal N. Tyrrell , María Teresa Alvarez-Román , Nihal Bakeer , Brigitte Brand-Staufer , Victor Jiménez-Yuste , Susan Kras , Carlo Martinoli , Mauro Mendez , Azusa Nagao , Margareth Ozelo , Janaina B.S. Ricciardi , Marek Zak , Johannes Roth

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Abstract

Background

Recurrent hemarthrosis and resultant hemophilic arthropathy are significant causes of morbidity in persons with hemophilia, despite the marked evolution of hemophilia care. Prevention, timely diagnosis, and treatment of bleeding episodes are key. However, a physical examination or a patient’s assessment of musculoskeletal pain may not accurately identify a joint bleed. This difficulty is compounded as hemophilic arthropathy progresses.

Objectives

Our system aims to utilize artificial intelligence and ultrasonography (US; point-of-care and handheld) to enable providers, and ultimately patients, to detect joint bleeds at the bedside and at home. We aimed to develop and assess the reliability of artificial intelligence algorithms in detecting and segmenting synovial recess distension (SRD; an indicator of disease activity) on US images of adult and pediatric knee, elbow, and ankle joints.

Methods

A total of 12,145 joint exams, comprising 61,501 US images from 7 international healthcare centers, were collected. The dataset included healthy participants and adult and pediatric persons with hemophilia, with and without SRD. Images were manually labeled by 2 experts and used to train binary convolutional neural network classifiers and segmentation models. Metrics to evaluate performance included accuracy, sensitivity, specificity, and area under the curve.

Results

The algorithms exhibited high performance across all joints and all cohorts. Specifically, the knee model showed an accuracy of 97%, sensitivity of 96%, specificity of 97%, and an area under the curve of 0.97 in SRD. High Dice coefficients (80%-85%) were achieved in segmentation tasks across all joints.

Conclusion

This technology could assist with the early detection and management of hemarthrosis in hemophilia.

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利用人工智能通过护理点超声波成像检测血友病患者的血红蛋白症

背景尽管血友病护理有了明显的发展，但复发性血栓形成和由此导致的血友病关节病仍是血友病患者发病的重要原因。预防、及时诊断和治疗出血是关键。然而，体格检查或患者对肌肉骨骼疼痛的评估可能无法准确识别关节出血。我们的系统旨在利用人工智能和超声波成像技术（US；护理点和手持式），使医疗服务提供者以及最终患者能够在床边和家中检测到关节出血。我们的目标是开发和评估人工智能算法在成人和儿童膝关节、肘关节和踝关节的 US 图像上检测和分割滑膜凹胀（SRD，疾病活动的指标）的可靠性。数据集包括健康参与者、成人和儿童血友病患者，以及有和没有 SRD 的患者。图像由两位专家手动标注，并用于训练二元卷积神经网络分类器和分割模型。评估性能的指标包括准确性、灵敏度、特异性和曲线下面积。具体来说，膝关节模型的准确率为 97%，灵敏度为 96%，特异性为 97%，SRD 的曲线下面积为 0.97。在所有关节的分割任务中都达到了较高的 Dice 系数（80%-85%）。

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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