View clinical trials related to Bradycardia Neonatal.
Filter by:Purpose of Study: Apnoea of Prematurity (AOP) is common, affecting the majority of infants born <34 weeks gestational age (GA). Apnea is accompanied by intermittent hypoxia (IH), which contributes to multiple pathologies, including retinopathy of prematurity (ROP), sympathetic ganglia injury, impaired pancreatic islet cell and bone development, and neurodevelopmental disabilities. Standard of care for AOP/IH includes prone positioning, positive pressure ventilation, and caffeine therapy. The objective of this device is to provide an adjunct to current AoP treatment to support breathing in premature infants by using a simple, non-invasive vibratory device placed over limb proprioceptor fibers, an intervention using the principle that limb movements facilitate breathing. Methods Used: Premature infants (27+6 - 34+6 weeks GA) with clinical confirmed weeks with diagnosis of Apnoea of Prematurity. Caffeine therapy was not a reason for exclusion. Small vibration devices were placed on one hand and one foot and activated in a 6 hour ON/OFF sequence for a total of 24 hours. Heart rate, respiratory rate, oxygen saturation (SpO2), and breathing pauses were continuously collected.
Intermittent episodes of hypoxemia and/or bradycardia, also defined as cardio-respiratory events (CRE) are very frequent in preterm infants and may result in transient hypoxia and hypoperfusion of target organs, with possible clinical implications. The hemodynamic instability that characterizes the first 72 hours of life, also called as transitional period, place preterm infants at high risk of complications and may contribute to enhance fluctuations in end-organ perfusion and oxygenation induced by CRE. In this study we aimed to explore cardiovascular and cerebrovascular changes determined by different CRE types in preterm infants during the transitional period.
Cardio-respiratory events (CRE), defined as intermittent episodes of hypoxemia and/or bradycardia, are particularly common among preterm infants. It has been previously shown that CRE result in transient brain hypoxia and hypoperfusion and may represent a possible risk factor for neurodevelopmental impairment and retinopathy of prematurity. The high cardio-respiratory instability typically seen in preterm infants during the first 72 hours of life may influence CRE occurrence, with possible clinical implications. This study aims to characterize CRE features in this transitional period and to evaluate whether specific neonatal and clinical characteristics are associated with different CRE types. Newborn infants with gestational age (GA) <32 weeks or birth weight (BW) <1500 g are enrolled. Congenital malformations and mechanical ventilation are exclusion criteria. During the first 72 hours, heart rate (HR) and peripheral oxygen saturation (SpO2) are continuously monitored, and an echocardiogram is performed to assess the status of the ductus arteriosus. CRE are clustered into isolated desaturation (ID, SpO2<85%), isolated bradycardia (IB, HR<100 bpm or <70% baseline), combined desaturation and bradycardia (DB, occurrence of the two events within a 60-sec window). According to their duration and SpO2 and/or HR nadir values, CRE are also classified as mild (SpO2 80-84% and HR 80-100 bpm and duration <60 sec), moderate (SpO2 70-79% or HR 80-60 bpm or duration 61-120 sec) or severe (SpO2 <70% or HR <60 bpm or duration >120 sec). A generalized estimating equation (GEE) will be used to examine the impact of relevant variables on CRE type and severity.
When newborn babies are born without a heartbeat the clinical team has to provide breathing and chest compressions (what is call cardiopulmonary resuscitation) to the newborn baby. Cardiopulmonary resuscitation is an infrequent event in newborn babies (~1% of all deliveries), approximately one million newborn babies die annually due to lack of oxygen at birth causing being born without a heartbeat. Outcome studies of newborn babies receiving cardiopulmonary resuscitation in the delivery room have reported high rates of death and neurological impairment. This puts a heavy burden on health resources since these infants require frequent hospital re-admission and long-term care. The poor prognosis raises questions as improve cardiopulmonary resuscitation methods and specifically adapt them to newborn babies to improve outcomes. Currently a 3:1 ratio, which equals 3 chest compressions to one rescue breath to resuscitate a newborn baby. This means that chest compressions are stopped after every 3rd compression to give one rescue breath. The investigators believe that this interruption of chest compressions is bad for the newborn baby and that chest compressions should be continued without interruption while rescue breaths are given continuously. The investigators believe that this approach will allow us to reduce death and long-term burdens in newborn babies born without a heartbeat. Furthermore, it is not known if rescue breaths given with 100% oxygen or 21% oxygen (room air) is better for newborn babies. Using continuous chest compressions and rescue breaths without interruptions, this study will compare 21% with 100% oxygen.