Hassan Ayman, Benlamri Rachid, Diner Trina, Cristofaro Keli, Dillistone Lucas, Khallouki Hajar, Ahghari Mahvareh, Littlefield Shalyn, Siddiqui Rabail, MacDonald Russell, Savage David W
Thunder Bay Regional Health Sciences Centre, Thunder Bay, ON, Canada.
Thunder Bay Regional Health Research Institute, Thunder Bay, ON, Canada.
JMIR Form Res. 2024 Aug 1;8:e54009. doi: 10.2196/54009.
A coordinated care system helps provide timely access to treatment for suspected acute stroke. In Northwestern Ontario (NWO), Canada, communities are widespread with several hospitals offering various diagnostic equipment and services. Thus, resources are limited, and health care providers must often transfer patients with stroke to different hospital locations to ensure the most appropriate care access within recommended time frames. However, health care providers frequently situated temporarily (locum) in NWO or providing care remotely from other areas of Ontario may lack sufficient information and experience in the region to access care for a patient with a time-sensitive condition. Suboptimal decision-making may lead to multiple transfers before definitive stroke care is obtained, resulting in poor outcomes and additional health care system costs.
We aimed to develop a tool to inform and assist NWO health care providers in determining the best transfer options for patients with stroke to provide the most efficient care access. We aimed to develop an app using a comprehensive geomapping navigation and estimation system based on machine learning algorithms. This app uses key stroke-related timelines including the last time the patient was known to be well, patient location, treatment options, and imaging availability at different health care facilities.
Using historical data (2008-2020), an accurate prediction model using machine learning methods was developed and incorporated into a mobile app. These data contained parameters regarding air (Ornge) and land medical transport (3 services), which were preprocessed and cleaned. For cases in which Ornge air services and land ambulance medical transport were both involved in a patient transport process, data were merged and time intervals of the transport journey were determined. The data were distributed for training (35%), testing (35%), and validation (30%) of the prediction model.
In total, 70,623 records were collected in the data set from Ornge and land medical transport services to develop a prediction model. Various learning models were analyzed; all learning models perform better than the simple average of all points in predicting output variables. The decision tree model provided more accurate results than the other models. The decision tree model performed remarkably well, with the values from testing, validation, and the model within a close range. This model was used to develop the "NWO Navigate Stroke" system. The system provides accurate results and demonstrates that a mobile app can be a significant tool for health care providers navigating stroke care in NWO, potentially impacting patient care and outcomes.
The NWO Navigate Stroke system uses a data-driven, reliable, accurate prediction model while considering all variations and is simultaneously linked to all required acute stroke management pathways and tools. It was tested using historical data, and the next step will to involve usability testing with end users.
协调护理系统有助于为疑似急性中风患者及时提供治疗。在加拿大安大略省西北部(NWO),社区分布广泛,多家医院提供各种诊断设备和服务。因此,资源有限,医疗保健提供者常常必须将中风患者转至不同的医院地点,以确保在推荐的时间范围内获得最合适的护理。然而,经常临时在NWO工作(临时代班)或从安大略省其他地区远程提供护理的医疗保健提供者可能缺乏该地区的足够信息和经验,无法为患有时间敏感疾病的患者提供护理。决策欠佳可能导致在获得确定性中风护理之前进行多次转运,从而导致不良后果和医疗保健系统成本增加。
我们旨在开发一种工具,为NWO的医疗保健提供者提供信息并协助他们确定中风患者的最佳转运方案,以实现最有效的护理。我们旨在使用基于机器学习算法的综合地理映射导航和估计系统开发一款应用程序。该应用程序使用与中风相关的关键时间线,包括患者最后一次状态良好的时间、患者位置、治疗方案以及不同医疗保健机构的影像可用性。
利用历史数据(2008 - 2020年),开发了一种使用机器学习方法的准确预测模型,并将其纳入一款移动应用程序。这些数据包含有关空中(Ornge)和陆地医疗运输(3项服务)的参数,对其进行了预处理和清理。对于Ornge空中服务和陆地救护车医疗运输均参与患者转运过程的情况,合并数据并确定转运行程的时间间隔。这些数据被分配用于预测模型的训练(35%)、测试(35%)和验证(30%)。
从Ornge和陆地医疗运输服务的数据集中总共收集了70623条记录,以开发预测模型。分析了各种学习模型;所有学习模型在预测输出变量方面的表现均优于所有点的简单平均值。决策树模型提供的结果比其他模型更准确。决策树模型表现出色,测试、验证和模型的值在相近范围内。该模型用于开发“NWO中风导航”系统。该系统提供了准确的结果,并表明移动应用程序可以成为NWO中风护理导航中医疗保健提供者的重要工具,可能会影响患者护理和治疗结果。
NWO中风导航系统使用数据驱动、可靠、准确的预测模型,同时考虑所有变化因素,并与所有必需的急性中风管理途径和工具相链接。它使用历史数据进行了测试,下一步将进行终端用户的可用性测试。
