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Clinical Trial Summary

The Eko CORE and DUO stethoscopes are FDA approved electronic devices which have the capacity to record heart sounds. This study will utilize these devices to see if they can differentiate between pathologic and innocent heart murmurs in children.


Clinical Trial Description

It is estimated that 50-70% of all children will have had a detectable heart murmur at some point in early life, but fortunately, the vast majority of these murmurs are benign asymptomatic "innocent" murmurs and not indicative of heart disease. However, there is concern about the ability of front-line pediatricians and family providers to distinguish between an innocent and pathological murmur. Thus, it is of no surprise that the largest number of new patient referrals to pediatric cardiologists is due to the detection of a murmur. Of those referred, 20-30% are typically diagnosed with trivial to significant heart disease based on auscultation and confirmatory echocardiography follow-up when necessary. Having a child referred for a heart murmur evaluation causes significant anxiety for parents, even if the murmur is suggested to be innocent by the pediatrician and in some cases, clinical diagnostic testing is done unnecessarily. Interestingly, studies have shown that performing diagnostic electrocardiography, chest radiography, or echocardiography prior to clinical assessment by pediatric cardiologists did not offer additional assistance in differentiating murmurs. Unnecessary echocardiograms or other diagnostic tests for innocent murmur evaluation add unnecessary cost to the healthcare system. Unfortunately, the unnecessary use of echocardiography for the diagnosis of innocent murmurs is also high among pediatric cardiologists. Thus, with the rising cost of health care, it is essential that we identify and target areas of practice that will enable us to increase efficiency and reduce unnecessary costs. Specific characteristics of the sound of the murmur may help differentiate innocent from other murmurs, so improving auscultation skills and diagnosis based on auscultation and electrocardiography is very important in accurate diagnosis and reducing cost associated with the diagnosis of innocent and pathologic heart murmurs in children. The use of new technologies to improve auscultation and auscultation-based diagnosis could lead to improved diagnoses with decreased cost. New systems that used telemedicine techniques to transfer phonocardiogram (PCG) recordings to a cloud server have shown benefit in differentiating innocent versus pathologic murmurs, but cannot be used large scale, and are based on cardiology involvement. The FDA-cleared Eko CORE device (Eko, Berkeley, California, USA) is a digital stethoscope that allows recording of the audio to produce a PCG. The FDA-cleared Eko DUO device is a digital stethoscope that allows recording of the audio to produce a PCG combined with a single lead electrocardiograph. The CORE and DUO both feature sound amplification and audio transmission to a smart phone, laptop or tablet via Bluetooth® that allows the user to open and playback sounds using an iOS, Android, or Microsoft Windows compatible application. The App provides the ability to save sounds within select Electronic Health Record (EHR) systems, share patient recordings with other practitioners, and annotate notes on recorded audio. Eko is intended for use on pediatric and adult patients. These features uniquely situate this device to accumulate large sets of auscultatory data on patients both with and without congenital heart disease (CHD). In this study, we seek to use auscultatory audio recordings and phonocardiograms collected from pediatric patients using Eko CORE and DUO digital stethoscopes to develop a clinically significant algorithm that differentiates innocent from pathologic heart murmurs. As the Eko CORE and DUO devices are similar to a traditional stethoscope, an iconic tool widely accepted by patients and providers alike, its use to drive an automated detection algorithm is both feasible and attractive as a substitute for traditional auscultation. Furthermore, by providing an algorithmic analysis that can supplement clinical acumen, we hypothesize that we will improve overall diagnostic accuracy and show a decreased need for referral echocardiograms for innocent murmurs. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04317521
Study type Observational
Source Nemours Children's Clinic
Contact
Status Completed
Phase
Start date October 24, 2020
Completion date March 11, 2022

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