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Psychometric properties of The COVID-19 Fears Questionnaire for Chronic Medical Conditions in patients with pre-existing medical conditions.针对患有既往疾病的患者的《慢性病患者新冠恐惧问卷》的心理测量学特性。
Health Soc Care Community. 2022 Sep;30(5):e2866-e2873. doi: 10.1111/hsc.13730. Epub 2022 Jan 27.
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Safety and immunogenicity of one versus two doses of the COVID-19 vaccine BNT162b2 for patients with cancer: interim analysis of a prospective observational study.癌症患者接种一剂与两剂新冠疫苗BNT162b2的安全性和免疫原性:一项前瞻性观察研究的中期分析
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Delays and Disruptions in Cancer Health Care Due to COVID-19 Pandemic: Systematic Review.由于 COVID-19 大流行导致的癌症医疗保健延误和中断:系统评价。
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用于监测癌症患者及预测疾病轨迹的数字表型分析:一项前瞻性观察性队列研究方案

Digital Phenotyping for Monitoring and Disease Trajectory Prediction of Patients With Cancer: Protocol for a Prospective Observational Cohort Study.

作者信息

Jenciūtė Gabrielė, Kasputytė Gabrielė, Bunevičienė Inesa, Korobeinikova Erika, Vaitiekus Domas, Inčiūra Arturas, Jaruševičius Laimonas, Bunevičius Romas, Krikštolaitis Ričardas, Krilavičius Tomas, Juozaitytė Elona, Bunevičius Adomas

机构信息

Faculty of Informatics, Vytautas Magnus University, Kaunas, Lithuania.

Faculty of Political Science and Diplomacy, Vytautas Magnus University, Kaunas, Lithuania.

出版信息

JMIR Res Protoc. 2023 Oct 10;12:e49096. doi: 10.2196/49096.

DOI:10.2196/49096
PMID:37815850
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10599285/
Abstract

BACKGROUND

Timely recognition of cancer progression and treatment complications is important for treatment guidance. Digital phenotyping is a promising method for precise and remote monitoring of patients in their natural environments by using passively generated data from sensors of personal wearable devices. Further studies are needed to better understand the potential clinical benefits of digital phenotyping approaches to optimize care of patients with cancer.

OBJECTIVE

We aim to evaluate whether passively generated data from smartphone sensors are feasible for remote monitoring of patients with cancer to predict their disease trajectories and patient-centered health outcomes.

METHODS

We will recruit 200 patients undergoing treatment for cancer. Patients will be followed up for 6 months. Passively generated data by sensors of personal smartphone devices (eg, accelerometer, gyroscope, GPS) will be continuously collected using the developed LAIMA smartphone app during follow-up. We will evaluate (1) mobility data by using an accelerometer (mean time of active period, mean time of exertional physical activity, distance covered per day, duration of inactive period), GPS (places of interest visited daily, hospital visits), and gyroscope sensors and (2) sociability indices (frequency of duration of phone calls, frequency and length of text messages, and internet browsing time). Every 2 weeks, patients will be asked to complete questionnaires pertaining to quality of life (European Organization for Research and Treatment of Cancer Core Quality of Life Questionnaire [EORTC QLQ-C30]), depression symptoms (Patient Health Questionnaire-9 [PHQ-9]), and anxiety symptoms (General Anxiety Disorder-7 [GAD-7]) that will be deployed via the LAIMA app. Clinic visits will take place at 1-3 months and 3-6 months of the study. Patients will be evaluated for disease progression, cancer and treatment complications, and functional status (Eastern Cooperative Oncology Group) by the study oncologist and will complete the questionnaire for evaluating quality of life (EORTC QLQ-C30), depression symptoms (PHQ-9), and anxiety symptoms (GAD-7). We will examine the associations among digital, clinical, and patient-reported health outcomes to develop prediction models with clinically meaningful outcomes.

RESULTS

As of July 2023, we have reached the planned recruitment target, and patients are undergoing follow-up. Data collection is expected to be completed by September 2023. The final results should be available within 6 months after study completion.

CONCLUSIONS

This study will provide in-depth insight into temporally and spatially precise trajectories of patients with cancer that will provide a novel digital health approach and will inform the design of future interventional clinical trials in oncology. Our findings will allow a better understanding of the potential clinical value of passively generated smartphone sensor data (digital phenotyping) for continuous and real-time monitoring of patients with cancer for treatment side effects, cancer complications, functional status, and patient-reported outcomes as well as prediction of disease progression or trajectories.

INTERNATIONAL REGISTERED REPORT IDENTIFIER (IRRID): PRR1-10.2196/49096.

摘要

背景

及时识别癌症进展和治疗并发症对治疗指导至关重要。数字表型分析是一种很有前景的方法,可通过使用个人可穿戴设备传感器被动生成的数据,在自然环境中对患者进行精确和远程监测。需要进一步研究以更好地理解数字表型分析方法的潜在临床益处,从而优化癌症患者的护理。

目的

我们旨在评估来自智能手机传感器的被动生成数据是否可用于远程监测癌症患者,以预测其疾病轨迹和以患者为中心的健康结果。

方法

我们将招募200名正在接受癌症治疗的患者。对患者进行6个月的随访。在随访期间,将使用开发的LAIMA智能手机应用程序持续收集个人智能手机设备传感器(如加速度计、陀螺仪、全球定位系统)被动生成的数据。我们将评估:(1)使用加速度计(活跃期平均时间、运动性体力活动平均时间、每日覆盖距离、非活跃期持续时间)、全球定位系统(每日访问的感兴趣地点、医院就诊情况)和陀螺仪传感器的移动性数据;(2)社交指数(通话时长频率、短信频率和长度以及互联网浏览时间)。每2周,将要求患者通过LAIMA应用程序完成与生活质量(欧洲癌症研究与治疗组织核心生活质量问卷 [EORTC QLQ-C30])、抑郁症状(患者健康问卷-9 [PHQ-9])和焦虑症状(广泛性焦虑障碍-7 [GAD-7])相关的问卷。在研究的1至3个月和3至6个月时将进行门诊就诊。研究肿瘤学家将评估患者的疾病进展、癌症和治疗并发症以及功能状态(东部肿瘤协作组),患者将完成用于评估生活质量(EORTC QLQ-C30)、抑郁症状(PHQ-9)和焦虑症状(GAD-7)的问卷。我们将研究数字、临床和患者报告的健康结果之间的关联,以开发具有临床意义结果的预测模型。

结果

截至2023年7月,我们已达到计划的招募目标,患者正在接受随访。预计数据收集将于2023年9月完成。最终结果应在研究完成后6个月内可得。

结论

本研究将深入洞察癌症患者在时间和空间上的精确轨迹,这将提供一种新颖的数字健康方法,并为未来肿瘤学干预性临床试验的设计提供信息。我们的研究结果将有助于更好地理解被动生成的智能手机传感器数据(数字表型分析)对于持续实时监测癌症患者的治疗副作用、癌症并发症、功能状态和患者报告结果以及预测疾病进展或轨迹的潜在临床价值。

国际注册报告识别码(IRRID):PRR1-10.2196/49096。