Remote Monitoring System For Covid-19 Patients In Home Isolation And Pilot Study Results In A High Altitude Population

2021 IEEE International Humanitarian Technology Conference (IHTC) Pub Date : 2021-12-02 DOI:10.1109/IHTC53077.2021.9698891

Juan José Sánchez-Huamán, José Luis Flores-Vásquez, Paolo Cachi-Delgado Cioslab, Franklin Cardeñoso-Fernández, Jack Charalla-Cutipa, Luis Jimenez-Troncoso

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Abstract

A remote monitoring device for measuring oxygen saturation by finger pulse oximetry, axillary temperature and respiratory rate has been constructed. This device has been tested in a pilot study on patients with confirmed Covid-19, determined by antigen tests, who were undergoing home quarantine. The system uses a Raspberry pi CPU with a PiCamera attached to perform optical character recognition from the displays of low-cost finger pulse oximeters and digital axillary thermometers. The temperature of the finger being measured using pulse oximetry was also recorded, as an additional variable, using a thermistor in contact with the finger. In a pilot prototype validation study, undertaken in Peru with eleven patients, the average oxygen saturation of patients living at 3350 meters above sea level was 92.88%, with a standard deviation of 1.65%. A patient with moderate symptoms and a patient with a deteriorating condition had temporary saturation levels below 88%. Axillary temperature and respiratory rate did not vary considerably over the study period. Finger temperature data was used to determine correct human-computer interaction with respect to measurement errors, failed attempts and to control sampling efficiency, which can be affected by cold fingers.

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新冠肺炎家庭隔离患者远程监测系统及高原人群试点研究结果

构建了一种通过手指脉搏血氧仪、腋窝温度和呼吸频率测量血氧饱和度的远程监测装置。该装置已在一项针对正在接受家庭隔离的Covid-19确诊患者的试点研究中进行了测试，这些患者通过抗原检测确定。该系统使用树莓派CPU和pic摄像头，从低成本手指脉搏血氧仪和数字腋窝温度计的显示器上执行光学字符识别。使用脉搏血氧仪测量的手指的温度也被记录下来，作为一个额外的变量，使用与手指接触的热敏电阻。在秘鲁进行的11例患者的中试原型验证研究中，生活在海拔3350米的患者的平均血氧饱和度为92.88%，标准差为1.65%。中度症状患者和病情恶化患者的暂时饱和水平低于88%。在研究期间，腋窝温度和呼吸频率没有明显变化。手指温度数据用于确定正确的人机交互，包括测量误差、失败尝试和控制采样效率，这些都可能受到手指寒冷的影响。

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2021 IEEE International Humanitarian Technology Conference (IHTC)

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