{"title":"基于美国医疗数据集的日本遗传性血管性水肿早期诊断:算法开发与验证","authors":"Kouhei Yamashita, Yuji Nomoto, Tomoya Hirose, Akira Yutani, Akira Okada, Nayu Watanabe, Ken Suzuki, Munenori Senzaki, Tomohiro Kuroda","doi":"10.2196/59858","DOIUrl":null,"url":null,"abstract":"<strong>Background:</strong> Hereditary angioedema (HAE), a rare genetic disease, induces acute attacks of swelling in various regions of the body. Its prevalence is estimated to be 1 in 50,000 people, with no reported bias among different ethnic groups. However, considering the estimated prevalence, the number of patients in Japan diagnosed with HAE remains approximately 1 in 250,000, which means that only 20% of potential HAE cases are identified. <strong>Objective:</strong> This study aimed to develop an artificial intelligence (AI) model that can detect patients with suspected HAE using medical history data (medical claims, prescriptions, and electronic medical records [EMRs]) in the United States. We also aimed to validate the detection performance of the model for HAE cases using the Japanese dataset. <strong>Methods:</strong> The HAE patient and control groups were identified using the US claims and EMR datasets. We analyzed the characteristics of the diagnostic history of patients with HAE and developed an AI model to predict the probability of HAE based on a generalized linear model and bootstrap method. The model was then applied to the EMR data of the Kyoto University Hospital to verify its applicability to the Japanese dataset. <strong>Results:</strong> Precision and sensitivity were measured to validate the model performance. Using the comprehensive US dataset, the precision score was 2% in the initial model development step. Our model can screen out suspected patients, where 1 in 50 of these patients have HAE. In addition, in the validation step with Japanese EMR data, the precision score was 23.6%, which exceeded our expectations. We achieved a sensitivity score of 61.5% for the US dataset and 37.6% for the validation exercise using data from a single Japanese hospital. Overall, our model could predict patients with typical HAE symptoms. <strong>Conclusions:</strong> This study indicates that our AI model can detect HAE in patients with typical symptoms and is effective in Japanese data. However, further prospective clinical studies are required to investigate whether this model can be used to diagnose HAE.","PeriodicalId":56334,"journal":{"name":"JMIR Medical Informatics","volume":"17 1","pages":""},"PeriodicalIF":3.1000,"publicationDate":"2024-09-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Early Diagnosis of Hereditary Angioedema in Japan Based on a US Medical Dataset: Algorithm Development and Validation\",\"authors\":\"Kouhei Yamashita, Yuji Nomoto, Tomoya Hirose, Akira Yutani, Akira Okada, Nayu Watanabe, Ken Suzuki, Munenori Senzaki, Tomohiro Kuroda\",\"doi\":\"10.2196/59858\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<strong>Background:</strong> Hereditary angioedema (HAE), a rare genetic disease, induces acute attacks of swelling in various regions of the body. Its prevalence is estimated to be 1 in 50,000 people, with no reported bias among different ethnic groups. However, considering the estimated prevalence, the number of patients in Japan diagnosed with HAE remains approximately 1 in 250,000, which means that only 20% of potential HAE cases are identified. <strong>Objective:</strong> This study aimed to develop an artificial intelligence (AI) model that can detect patients with suspected HAE using medical history data (medical claims, prescriptions, and electronic medical records [EMRs]) in the United States. We also aimed to validate the detection performance of the model for HAE cases using the Japanese dataset. <strong>Methods:</strong> The HAE patient and control groups were identified using the US claims and EMR datasets. We analyzed the characteristics of the diagnostic history of patients with HAE and developed an AI model to predict the probability of HAE based on a generalized linear model and bootstrap method. The model was then applied to the EMR data of the Kyoto University Hospital to verify its applicability to the Japanese dataset. <strong>Results:</strong> Precision and sensitivity were measured to validate the model performance. Using the comprehensive US dataset, the precision score was 2% in the initial model development step. Our model can screen out suspected patients, where 1 in 50 of these patients have HAE. In addition, in the validation step with Japanese EMR data, the precision score was 23.6%, which exceeded our expectations. We achieved a sensitivity score of 61.5% for the US dataset and 37.6% for the validation exercise using data from a single Japanese hospital. Overall, our model could predict patients with typical HAE symptoms. <strong>Conclusions:</strong> This study indicates that our AI model can detect HAE in patients with typical symptoms and is effective in Japanese data. 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引用次数: 0
摘要
背景:遗传性血管性水肿(HAE遗传性血管性水肿(HAE)是一种罕见的遗传病,会诱发身体各部位的急性肿胀。据估计,该病的发病率为五万人中有一人,不同种族群体之间没有偏差。然而,考虑到估计的发病率,日本确诊的 HAE 患者人数仍约为二十五万分之一,这意味着只有 20% 的潜在 HAE 病例被发现。研究目的本研究旨在开发一种人工智能(AI)模型,利用美国的病史数据(医疗索赔、处方和电子病历 [EMR])检测疑似 HAE 患者。我们还旨在利用日本数据集验证该模型对 HAE 病例的检测性能。方法:利用美国的索赔和 EMR 数据集确定 HAE 患者组和对照组。我们分析了 HAE 患者的诊断史特征,并根据广义线性模型和引导法建立了一个人工智能模型来预测 HAE 的概率。然后将该模型应用于京都大学医院的 EMR 数据,以验证其是否适用于日本数据集。结果:对精确度和灵敏度进行了测量,以验证模型的性能。使用全面的美国数据集,初始模型开发步骤的精确度为 2%。我们的模型可以筛选出疑似患者,其中每 50 名患者中就有 1 人患有 HAE。此外,在使用日本 EMR 数据进行验证的步骤中,精确度达到了 23.6%,超出了我们的预期。我们使用美国数据集获得了 61.5% 的灵敏度分数,使用日本一家医院的数据进行验证时获得了 37.6% 的灵敏度分数。总体而言,我们的模型可以预测具有典型 HAE 症状的患者。结论:这项研究表明,我们的人工智能模型可以检测出具有典型症状的 HAE 患者,而且在日本数据中也很有效。不过,还需要进一步的前瞻性临床研究来探讨该模型是否可用于诊断 HAE。
Early Diagnosis of Hereditary Angioedema in Japan Based on a US Medical Dataset: Algorithm Development and Validation
Background: Hereditary angioedema (HAE), a rare genetic disease, induces acute attacks of swelling in various regions of the body. Its prevalence is estimated to be 1 in 50,000 people, with no reported bias among different ethnic groups. However, considering the estimated prevalence, the number of patients in Japan diagnosed with HAE remains approximately 1 in 250,000, which means that only 20% of potential HAE cases are identified. Objective: This study aimed to develop an artificial intelligence (AI) model that can detect patients with suspected HAE using medical history data (medical claims, prescriptions, and electronic medical records [EMRs]) in the United States. We also aimed to validate the detection performance of the model for HAE cases using the Japanese dataset. Methods: The HAE patient and control groups were identified using the US claims and EMR datasets. We analyzed the characteristics of the diagnostic history of patients with HAE and developed an AI model to predict the probability of HAE based on a generalized linear model and bootstrap method. The model was then applied to the EMR data of the Kyoto University Hospital to verify its applicability to the Japanese dataset. Results: Precision and sensitivity were measured to validate the model performance. Using the comprehensive US dataset, the precision score was 2% in the initial model development step. Our model can screen out suspected patients, where 1 in 50 of these patients have HAE. In addition, in the validation step with Japanese EMR data, the precision score was 23.6%, which exceeded our expectations. We achieved a sensitivity score of 61.5% for the US dataset and 37.6% for the validation exercise using data from a single Japanese hospital. Overall, our model could predict patients with typical HAE symptoms. Conclusions: This study indicates that our AI model can detect HAE in patients with typical symptoms and is effective in Japanese data. However, further prospective clinical studies are required to investigate whether this model can be used to diagnose HAE.
期刊介绍:
JMIR Medical Informatics (JMI, ISSN 2291-9694) is a top-rated, tier A journal which focuses on clinical informatics, big data in health and health care, decision support for health professionals, electronic health records, ehealth infrastructures and implementation. It has a focus on applied, translational research, with a broad readership including clinicians, CIOs, engineers, industry and health informatics professionals.
Published by JMIR Publications, publisher of the Journal of Medical Internet Research (JMIR), the leading eHealth/mHealth journal (Impact Factor 2016: 5.175), JMIR Med Inform has a slightly different scope (emphasizing more on applications for clinicians and health professionals rather than consumers/citizens, which is the focus of JMIR), publishes even faster, and also allows papers which are more technical or more formative than what would be published in the Journal of Medical Internet Research.