Proof-of-concept for a non-invasive, portable, and wireless device for cardiovascular monitoring in pediatric patients

Measurement of cardiac function is vital for the health of pediatric patients with heart disease. Standard tools to measure function including echocardiogram and magnetic residence imaging are time intensive, costly, and have limited accessibility. The Vivio is a novel, non-invasive, handheld device...

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Bibliographic Details
Published in:PloS one 2020-01, Vol.15 (1), p.e0227145-e0227145
Main Authors: Miller, Jennifer C, Shepherd, Jennifer, Rinderknecht, Derek, Cheng, Andrew L, Pahlevan, Niema M
Format: Article
Language:English
Subjects:
Adolescent
Adult
Adults
Age
Biology and Life Sciences
Cardiac patients
Cardiology
Cardiovascular disease
Cardiovascular diseases
Carotid arteries
Carotid Arteries - physiology
Carotid artery
Cephalometry
Child
Child health
Child, Preschool
Children
Cohort Studies
Congenital diseases
Containers
Coronary artery disease
Echocardiography
Feasibility Studies
Female
Health
Heart
Heart diseases
Heart Rate Determination - instrumentation
Hemodynamic Monitoring - instrumentation
Hospitals
Humans
Infant
Infant, Newborn
Male
Medical care quality
Medicine
Medicine and Health Sciences
Methods
Middle Aged
Patient compliance
Patient monitoring equipment
Pediatric cardiology
Pediatrics
People and Places
Physical Sciences
Population
Portable equipment
Proof of Concept Study
Pulse
Research and Analysis Methods
Sensors
Stroke Volume - physiology
Studies
Ultrasonic imaging
Variance analysis
Veins & arteries
Ventricle
Ventricular Function, Left - physiology
Waveforms
Wireless Technology - instrumentation
Young Adult
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Description
Summary:Measurement of cardiac function is vital for the health of pediatric patients with heart disease. Standard tools to measure function including echocardiogram and magnetic residence imaging are time intensive, costly, and have limited accessibility. The Vivio is a novel, non-invasive, handheld device that screens for cardiac dysfunction by analyzing intrinsic frequencies (IF) ω1 and ω2 of carotid artery waveforms. Prior studies demonstrated that left ventricular ejection fraction can be derived from IFs in adults. This study 1) studies whether the Vivio can capture carotid arterial pulse waveform data in children ages 0-19 years old; 2) tests the performance of two sensor head geometries, one larger and smaller than the standard size used in adults, designed for the pediatric population; 3) compares the IFs between pediatric age groups and adults with normal function. The Vivio successfully measured a carotid artery waveform in all children over 5 years old and 28% of children under the age of five. The small head did not accurately measure a waveform in any age group. One-way analysis of variance (ANOVA) demonstrated a difference in the IF ω1 between the adult and pediatric cohorts (F = 7.3, Prob>F = 0.0001). Post host analysis demonstrated a difference between the adult cohort (ω1 = 99 +/- 5 bpm) and the cohorts ages 0-4 (ω1 = 111 +/- 2 bpm; p = 0.0006) and 15-19 years old (ω1 = 105 +/-5 bpm; p = 0.02). One-way ANOVA demonstrated a difference in the IF ω2 between the adult and pediatric cohorts (F = 4.8, Prob>F = 0.003), specifically between the adult (ω2 = 81 +/- 13 bpm) and age 0-4 cohorts (ω2 = 48 +/- 8 bpm; p = 0.002). These results suggest that the Vivio can be used to capture carotid pulse waveform data in pediatric populations and that the data produced can be used to measure intrinsic frequencies.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0227145