Machine learning in action: Revolutionizing intracranial hematoma detection and patient transport decision-making

IF 0.8 Q4 CLINICAL NEUROLOGY

Journal of Neurosciences in Rural Practice Pub Date : 2023-12-16 DOI:10.25259/jnrp_93_2023

E. El Refaee, Taher M. Ali, A. Al Menabbawy, Mahmoud Elfiky, A. El Fiki, Shady Mashhour, Ahmed Harouni

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Abstract

Traumatic intracranial hematomas represent a critical clinical situation where early detection and management are of utmost importance. Machine learning has been recently used in the detection of neuroradiological findings. Hence, it can be used in the detection of intracranial hematomas and furtherly initiate a management cascade of patient transfer, diagnostics, admission, and emergency intervention. We aim, here, to develop a diagnostic tool based on artificial intelligence to detect hematomas instantaneously, and automatically start a cascade of actions that support the management protocol depending on the early diagnosis. A plot was designed as a staged model: The first stage of initiating and training the machine with the provisional evaluation of its accuracy and the second stage of supervised use in a tertiary care hospital and a third stage of its generalization in primary and secondary care hospitals. Two datasets were used: CQ500, a public dataset, and our dataset collected retrospectively from our tertiary hospital. A mean dice score of 0.83 was achieved on the validation set of CQ500. Moreover, the detection of intracranial hemorrhage was successful in 94% of cases for the CQ500 test set and 93% for our local institute cases. Poor detection was present in only 6–7% of the total test set. Moderate false-positive results were encountered in 18% and major false positives reached 5% for the total test set. The proposed approach for the early detection of acute intracranial hematomas provides a reliable outset for generating an automatically initiated management cascade in high-flow hospitals.

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机器学习在行动：颅内血肿检测和患者转运决策的革命性变革

外伤性颅内血肿是一种严重的临床症状，早期发现和处理至关重要。机器学习最近被用于神经放射学结果的检测。因此，它可用于检测颅内血肿，并进一步启动患者转运、诊断、入院和紧急干预等一系列管理流程。在此，我们的目标是开发一种基于人工智能的诊断工具，用于即时检测血肿，并根据早期诊断结果自动启动一连串行动，以支持管理方案：第一阶段是启动和训练机器，并对其准确性进行临时评估；第二阶段是在三级医院监督使用；第三阶段是在一级和二级医院推广。使用了两个数据集：CQ500 是一个公共数据集，而我们的数据集是从我们的三级医院回顾性收集的。此外，在 CQ500 测试集中，94% 的病例能成功检测出颅内出血，而在我们本地医院的病例中，93% 的病例能成功检测出颅内出血。在全部测试集中，只有 6%-7% 的检测结果不佳。所提出的早期检测急性颅内血肿的方法为高流量医院自动启动级联管理提供了一个可靠的起点。

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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