Developed wearable miniature sensor to diagnose initial perturbations of cardiorespiratory system

Developed wearable miniature sensor to diagnose initial perturbations of cardiorespiratory system

The progress of microelectromechanical systems tends to fabricate miniature motion sensors that can be used for various purposes of biomedical systems, particularly on-body applications. A miniature wireless sensor is developed that not only monitors heartbeat and respiration rate based on chest mov...

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Bibliographic Details
Main Authors: Reza Abbasi-Kesbi, Alireza Nikfarjam, Ardalan Akhavan Hezaveh
Format: Article
Language:English
Published: Wiley 2018-11-01
Series:Healthcare Technology Letters
Subjects:
patient monitoring
cardiovascular system
electrocardiography
pneumodynamics
bioMEMS
microsensors
biomedical equipment
microfabrication
patient diagnosis
biomedical systems
miniature wireless sensor
respiration rate
cardiorespiratory system
electrocardiogram sensor
belt sensor
cardiovascular system problems
initial perturbations
microelectromechanical systems
miniature motion sensors
heartbeat
wearable miniature sensor
chest movements
gold standard
root-mean-square errors
standard deviation
in-home health monitoring
Online Access:https://digital-library.theiet.org/content/journals/10.1049/htl.2018.5027
Description
Summary:The progress of microelectromechanical systems tends to fabricate miniature motion sensors that can be used for various purposes of biomedical systems, particularly on-body applications. A miniature wireless sensor is developed that not only monitors heartbeat and respiration rate based on chest movements but also identifies initial problems in the cardiorespiratory system, presenting a healthy measure defined based on height and length of the normal distribution of respiration rate and heartbeat. The obtained results of various tests are compared with two commercial sensors consisting of electrocardiogram sensor as well as belt sensor of respiration rate as a reference (gold standard), showing that the root-mean-square errors obtain <2.27 beats/min for a heartbeat and 0.93 breaths/min for respiration rate. In addition, the standard deviation of the errors reaches <1.26 and 0.63 for heartbeat and respiration rates, separately. According to the outcome results, the sensor can be considered an appropriate candidate for in-home health monitoring, particularly early detection of cardiovascular system problems.
ISSN:2053-3713

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