Towards Detecting Pneumonia Progression in COVID-19 Patients by Monitoring Sleep Disturbance Using Data Streams of Non-Invasive Sensor Networks

Dimitrievski, Ace; Zdravevski, Eftim; Lameski, Petre; Villasana, María Vanessa; Pires, Ivan Miguel; García, Nuno M.; Flórez-Revuelta, Francisco; Trajkovik, Vladimir

doi:10.3390/s21093030

Cited by 9 publications

(5 citation statements)

References 55 publications

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“…Only a few studies have experimented with the use of multiple noncontact sensors. Sleep or agitation was monitored using (infrared) cameras, acoustic sensors, and pressure mats in healthy adults, people with COVID-19, community-dwelling older adults, and people with dementia [ 146 – 148 ].…”

Section: Resultsmentioning

confidence: 99%

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Noninvasive monitoring technologies to identify discomfort and distressing symptoms in persons with limited communication at the end of life: a scoping review

Xu,

Smaling,

Schoones

et al. 2024

BMC Palliat Care

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Background Discomfort and distressing symptoms are common at the end of life, while people in this stage are often no longer able to express themselves. Technologies may aid clinicians in detecting and treating these symptoms to improve end-of-life care. This review provides an overview of noninvasive monitoring technologies that may be applied to persons with limited communication at the end of life to identify discomfort. Methods A systematic search was performed in nine databases, and experts were consulted. Manuscripts were included if they were written in English, Dutch, German, French, Japanese or Chinese, if the monitoring technology measured discomfort or distressing symptoms, was noninvasive, could be continuously administered for 4 hours and was potentially applicable for bed-ridden people. The screening was performed by two researchers independently. Information about the technology, its clinimetrics (validity, reliability, sensitivity, specificity, responsiveness), acceptability, and feasibility were extracted. Results Of the 3,414 identified manuscripts, 229 met the eligibility criteria. A variety of monitoring technologies were identified, including actigraphy, brain activity monitoring, electrocardiography, electrodermal activity monitoring, surface electromyography, incontinence sensors, multimodal systems, and noncontact monitoring systems. The main indicators of discomfort monitored by these technologies were sleep, level of consciousness, risk of pressure ulcers, urinary incontinence, agitation, and pain. For the end-of-life phase, brain activity monitors could be helpful and acceptable to monitor the level of consciousness during palliative sedation. However, no manuscripts have reported on the clinimetrics, feasibility, and acceptability of the other technologies for the end-of-life phase. Conclusions Noninvasive monitoring technologies are available to measure common symptoms at the end of life. Future research should evaluate the quality of evidence provided by existing studies and investigate the feasibility, acceptability, and usefulness of these technologies in the end-of-life setting. Guidelines for studies on healthcare technologies should be better implemented and further developed.

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Section: Resultsmentioning

confidence: 99%

“…The reliability of the measurements of heart rate and respiration rate of healthy adults and people with dementia differed depending on the setting [ 146 ]. Infrared cameras and a pressure mat complimented each other in their registration of movement of patients with COVID-19 [ 148 ].…”

Section: Resultsmentioning

confidence: 99%

Noninvasive monitoring technologies to identify discomfort and distressing symptoms in persons with limited communication at the end of life: a scoping review

Xu,

Smaling,

Schoones

et al. 2024

BMC Palliat Care

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“…More precisely, we consider how sleep monitoring of a person can be used to indicate underlying health conditions. In our previous work, we have elaborated that a combination of piezoelectric and PIR sensors that measure different physical properties, thus minimizing the possibility of noise signal contamination, show a strong correlation, and can be used to detect the person’s movement in bed during sleep [ 35 ]. For the data collection, the microcontroller can operate in the ESP32 Deep Sleep state.…”

Section: System Architecturementioning

confidence: 99%

Rural Healthcare IoT Architecture Based on Low-Energy LoRa

Dimitrievski

Filiposka

Melero

et al. 2021

IJERPH

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Connected health is expected to introduce an improvement in providing healthcare and doctor-patient communication while at the same time reducing cost. Connected health would introduce an even more significant gap between healthcare quality for urban areas with physical proximity and better communication to providers and the portion of rural areas with numerous connectivity issues. We identify these challenges using user scenarios and propose LoRa based architecture for addressing these challenges. We focus on the energy management of battery-powered, affordable IoT devices for long-term operation, providing important information about the care receivers’ well-being. Using an external ultra-low-power timer, we extended the battery life in the order of tens of times, compared to relying on low power modes of the microcontroller.

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“…Some research with the purpose to create pulse oximetry, detecting fatigue levels, and developing the application system of physical distancing has been done. Iswanto and Megantoro [29] created a device to detect hypoxia early symptoms using the non-invasive method with MAX30100, while Ace et al [30] use piezoelectric and a passive infrared sensor (PIR) sensors to detect pneumonia through sleep disturbance. Patel et al [31] create heart rate monitoring based on IoT to detect a heart attack.…”

Section: Introductionmentioning

confidence: 99%

Caring jacket: health monitoring jacket integrated with the internet of things for COVID-19 patients

Maghfiroh,

Kusumastuti,

Siswandina Sari

et al. 2023

Comput. Sci. Inf. Technol.

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One of the policies that have been made by the World Health Organization (WHO) and the Indonesian government during this COVID-19 pandemic, is to use an oximeter for self-isolation patients. The oximeter is used to monitor the patient if happy hypoxia which is a silent killer, happens to the patient. To maintain body endurance, exercise is needed by COVID-19 patients, but doing too much exercise can also cause decreased immunity. That’s why fatigue level and exercise intensity need to be monitored. When exercising, social distancing protocol should be also reminded because can lower COVID-19 spreading up to 13.6%. To solve this issue, the Caring Jacket is proposed which is a health monitoring jacket integrated with an IoT system. This jacket is equipped with some sensors and the global positioning system (GPS) for tracking. The data from the test showed the temperature reading accuracy is up to 99.38%, the oxygen rate up to 97.31%, the beats per minute (BPM) sensor up to 97.82%, and the precision of all sensors is 97.00% compared with a calibrated device.

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Towards Detecting Pneumonia Progression in COVID-19 Patients by Monitoring Sleep Disturbance Using Data Streams of Non-Invasive Sensor Networks

Cited by 9 publications

References 55 publications

Noninvasive monitoring technologies to identify discomfort and distressing symptoms in persons with limited communication at the end of life: a scoping review

Noninvasive monitoring technologies to identify discomfort and distressing symptoms in persons with limited communication at the end of life: a scoping review

Rural Healthcare IoT Architecture Based on Low-Energy LoRa

Caring jacket: health monitoring jacket integrated with the internet of things for COVID-19 patients

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