Sun Yinan, Kargarandehkordi Ali, Slade Christopher, Jaiswal Aditi, Busch Gerald, Guerrero Anthony, Phillips Kristina T, Washington Peter
Department of Information and Computer Sciences, University of Hawaii at Manoa, Honolulu, HI, United States.
Department of Psychiatry, University of Hawaii at Manoa, Honolulu, HI, United States.
JMIR Res Protoc. 2024 Feb 7;13:e46493. doi: 10.2196/46493.
Artificial intelligence (AI)-powered digital therapies that detect methamphetamine cravings via consumer devices have the potential to reduce health care disparities by providing remote and accessible care solutions to communities with limited care solutions, such as Native Hawaiian, Filipino, and Pacific Islander communities. However, Native Hawaiian, Filipino, and Pacific Islander communities are understudied with respect to digital therapeutics and AI health sensing despite using technology at the same rates as other racial groups.
In this study, we aimed to understand the feasibility of continuous remote digital monitoring and ecological momentary assessments in Native Hawaiian, Filipino, and Pacific Islander communities in Hawaii by curating a novel data set of longitudinal Fitbit (Fitbit Inc) biosignals with the corresponding craving and substance use labels. We also aimed to develop personalized AI models that predict methamphetamine craving events in real time using wearable sensor data.
We will develop personalized AI and machine learning models for methamphetamine use and craving prediction in 40 individuals from Native Hawaiian, Filipino, and Pacific Islander communities by curating a novel data set of real-time Fitbit biosensor readings and the corresponding participant annotations (ie, raw self-reported substance use data) of their methamphetamine use and cravings. In the process of collecting this data set, we will gain insights into cultural and other human factors that can challenge the proper acquisition of precise annotations. With the resulting data set, we will use self-supervised learning AI approaches, which are a new family of machine learning methods that allows a neural network to be trained without labels by being optimized to make predictions about the data. The inputs to the proposed AI models are Fitbit biosensor readings, and the outputs are predictions of methamphetamine use or craving. This paradigm is gaining increased attention in AI for health care.
To date, more than 40 individuals have expressed interest in participating in the study, and we have successfully recruited our first 5 participants with minimal logistical challenges and proper compliance. Several logistical challenges that the research team has encountered so far and the related implications are discussed.
We expect to develop models that significantly outperform traditional supervised methods by finetuning according to the data of a participant. Such methods will enable AI solutions that work with the limited data available from Native Hawaiian, Filipino, and Pacific Islander populations and that are inherently unbiased owing to their personalized nature. Such models can support future AI-powered digital therapeutics for substance abuse.
INTERNATIONAL REGISTERED REPORT IDENTIFIER (IRRID): DERR1-10.2196/46493.
通过消费设备检测甲基苯丙胺渴望的人工智能驱动的数字疗法,有潜力通过为医疗保健解决方案有限的社区(如夏威夷原住民、菲律宾人和太平洋岛民社区)提供远程且可及的护理方案,来减少医疗保健差距。然而,尽管夏威夷原住民、菲律宾人和太平洋岛民社区使用技术的比例与其他种族群体相同,但在数字疗法和人工智能健康传感方面的研究却很少。
在本研究中,我们旨在通过整理一个包含纵向Fitbit(Fitbit公司)生物信号以及相应渴望和物质使用标签的新数据集,了解在夏威夷的夏威夷原住民、菲律宾人和太平洋岛民社区进行持续远程数字监测和生态瞬时评估的可行性。我们还旨在开发个性化的人工智能模型,利用可穿戴传感器数据实时预测甲基苯丙胺渴望事件。
我们将通过整理一个包含实时Fitbit生物传感器读数以及相应参与者关于甲基苯丙胺使用和渴望的注释(即原始自我报告的物质使用数据)的新数据集,为来自夏威夷原住民、菲律宾人和太平洋岛民社区的40个人开发用于甲基苯丙胺使用和渴望预测的个性化人工智能和机器学习模型。在收集这个数据集的过程中,我们将深入了解可能挑战准确注释正确获取的文化和其他人为因素。利用得到的数据集,我们将使用自监督学习人工智能方法,这是一类新的机器学习方法,通过优化对数据进行预测,使神经网络在无标签的情况下得到训练。所提出的人工智能模型的输入是Fitbit生物传感器读数,输出是甲基苯丙胺使用或渴望的预测。这种范式在人工智能医疗保健领域越来越受到关注。
迄今为止,已有40多人表示有兴趣参与该研究,我们已成功招募了首批5名参与者,后勤挑战最小且合规情况良好。讨论了研究团队迄今遇到的一些后勤挑战及其相关影响。
我们期望通过根据参与者的数据进行微调,开发出显著优于传统监督方法的模型。此类方法将实现适用于夏威夷原住民、菲律宾人和太平洋岛民群体有限可用数据的人工智能解决方案,并且由于其个性化性质而具有内在的无偏性。这样的模型可以支持未来用于药物滥用的人工智能驱动的数字疗法。
国际注册报告标识符(IRRID):DERR1-10.2196/46493。
