Abstract
Introduction In the ongoing COVID-19 pandemic, the development of a system that would prevent the infection of healthcare providers is in urgent demand. We sought to investigate the feasibility and validity of a telemedicine-based system in which healthcare providers remotely check the vital signs measured by patients with COVID-19. Methods Patients hospitalized with confirmed or suspected COVID-19 measured and uploaded their vital signs to secure cloud storage. Additionally, the respiratory rates were monitored using a mat-type sensor placed under the bed. We assessed the time until the values became available on the Cloud and the agreements between the patient-measured vital signs and simultaneous healthcare provider measurements. Results Between 26 May–23 September 2020, 3835 vital signs were measured and uploaded to the cloud storage by the patients (n=16, median 72 years old, 31% women). All patients successfully learned how to use these devices with a 10-minute lecture. The median time until the measurements were available on the cloud system was only 0.35 min, and 95.2% of the vital signs were available within 5 min of the measurement. The agreement between the patients’ and healthcare providers’ measurements was excellent for all parameters. Interclass coefficient correlations were as follows: systolic (0.92, p<0.001), diastolic blood pressure (0.86, p<0.001), heart rate (0.89, p<0.001), peripheral oxygen saturation (0.92, p<0.001), body temperature (0.83, p<0.001), and respiratory rates (0.90, p<0.001). Conclusions Telemedicine-based self-assessment of vital signs in patients with COVID-19 was feasible and reliable. The system will be a useful alternative to traditional vital sign measurements by healthcare providers during the COVID-19 pandemic.
Highlights
In the ongoing COVID-19 pandemic, the development of a system that would prevent the infection of healthcare providers is in urgent demand
Some medical institutes have adopted the methodology of self-assessment of vital signs using telemedicine technologies for patients with relatively mild symptoms in order to reduce the physical contact between the healthcare providers and patients
Using a commercially available digital manometer (UA-651BLE: A&D Medical, Tokyo, Japan), a digital thermometer (C217: TERUMO, Tokyo, Japan), and a pulse oximeter (SP2; TERUMO, Tokyo, Japan), patients measured their vital signs and uploaded the data through the LAVITA gateway (Nihon Kohden, Tokyo, Japan). This system semi-automatically uploads the data to secured cloud storage; the digital manometer automatically transfers the data to the gateway via Bluetooth; and the other parameters, body temperature, and peripheral oxygen saturation (SpO2) are manually transferred to the gateway by holding the thermometer and pulse oximeter on the gateway
Summary
In the ongoing COVID-19 pandemic, the development of a system that would prevent the infection of healthcare providers is in urgent demand. We sought to investigate the feasibility and validity of a telemedicine-based system in which healthcare providers remotely check the vital signs measured by patients with COVID-19. Coronavirus disease (COVID-19) is the most important topic in the world This disease, first identified in late December 2019, had already infected more than 70 m people, and more than 1.5 m people had died of this disease by the end of 2020.1 This highly infectious virus spreads through respiratory droplets, contact routes and, possibly, aerosol particles,[2,3,4] causing fatal pneumonia in elderly and frail patients and in young and healthy people.[5,6,7] Healthcare providers are not an exception; notably, a number of doctors and medical staff have contracted and passed away due to COVID-19.8 Another fatal characteristic of the disease. The aim of the present study was to elucidate the feasibility and validity of a telemedicine-based system in which patients hospitalised with acute COVID-19 measure and upload their vital signs to a cloud system
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