Infant, Premature, Diseases Clinical Trial
Official title:
HeartLight: Heart Rate Monitoring for Newborn Resuscitation
This study will compare a newborn heart rate sensor (HeartLight) that is integrated into a hat with other common forms of heart rate monitoring such as electrocardiography (ECG), stethoscope and pulse oximetry (PO) in newborn babies. This will help to evaluate the new heart rate sensor's reliability and accuracy.
Up to 10% of newborns require some form of resuscitation at birth. Heart rate (HR) is the
most sensitive indicator of resuscitation efficacy. HR is most commonly estimated using a
stethoscope. However, in simulation studies it has been shown that newborn healthcare
providers estimate HR incorrectly in up to 1/3 of cases. Common techniques for monitoring
heart rate such as electrocardiography (ECG) and pulse oximetry (PO) were not developed for
resuscitation at birth.
ECG, an established and accurate method of monitoring HR, is rarely used in the delivery room
for a number of reasons including difficulty ensuring adhesion to the skin (the baby is
wet/covered in vernix) and skin damage in premature babies caused by stripping of the
electrodes. Current ECG systems also require 3 electrodes to be positioned which can delay
resuscitation further. The usual site for transmission PO is the foot or hand. However, in
newborn babies, and particularly those requiring resuscitation when the HR is low, blood flow
is reduced so physiological mechanisms preserve brain and heart blood flow at the expense of
other less important organs and limbs. As a consequence of this and the choice of
wavelengths, it can be more difficult to obtain a reliable HR from POs on the limbs, and they
typically obtain an HR after 1-2 minutes.
In the delivery room, ECG and PO systems have a requirement for cables to connect to the main
monitors. These can get in the way and it is now recommended for many babies to delay cutting
the umbilical cord (to ensure more blood enters the baby from the placenta) which often
requires the baby to be resuscitated very close to the mother and even between their legs.
The HeartLight system is a wireless optical sensor within a custom newborn hat to allow quick
and accurate HR monitoring. It will be compared to ECG, PO and electronic stethoscope to
determine the accuracy and reliability. The trial has 4 phases; Phase 1 evaluates the thermal
properties of the hat, Phase 2 evaluates the accuracy and reliability of the HeartLight
sensor on babies within the Neonatal Intensive Care Unit environment, Phase 3 evaluates the
HeartLight sensor in newborn babies born by cesarean section and Phase 4 evaluates the
performance of the HeartLight sensor in babies of all gestations requiring resuscitation and
stabilisation at birth.
The investigators anticipate the HeartLight sensor and hat will allow swift and effective
deployment, reduce delays in resuscitation (due to using a stethoscope) and improve HR
accuracy (as a result of avoiding errors in the usual manual mental calculations made in the
stressful environment of the delivery room) when it is needed most. However, an additional
benefit is that it will not require significant modification to the existing care pathway or
resuscitation protocols, and therefore a potential barrier to clinical uptake is removed.
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