View clinical trials related to Apnea of Prematurity.
Filter by:Caffeine citrate, the first-line agent for apnea of prematurity, enhances diaphragmatic activity. EDI values of neurally adjusted ventilatory assist (NAVA) modes can be used to quantify the diaphragmatic activity triggered by electrical impulse from the respiratory center. This study aims to evaluate the EDI changes following caffeine citrate administration and cessation in preterm infants, and whether such changes are affected by different doses used variably in clinical settings.
Caffeine, a typical representative of methylxanthine, is world-widely used to manage apnea of prematurity (AOP) in neonatology. However, an appropriate medication regimen of caffeine has not been well defined until now. For example, in terms of the duration of caffeine, AAP guideline for AOP (2016) and British NICE guideline for neonatal respiratory care (2019) all recommended discontinuing caffeine when the infants reached a postmenstrual age (PMA) ≥33weeks and had a stable respiratory status, commonly manifested by weaning from non-invasive ventilation and free of apneic episodes for at least five consecutive days. Interestingly, the actual clinical settings seem to be not strictly following this recommendation. A survey of the neonatologist in North America revealed that a substantial variability existed among sites in the timing of caffeine discontinuation before discharge and the respiratory support at the time of caffeine discontinuation [1]. Another survey in Saudi Arabia also had a similar finding [2]. The optimal timing of discontinuing caffeine is still a conundrum in the field of neonatology. Ideally, the optimal timing of discontinuing caffeine should be individual-specific. Published work has indicated that AOP and intermittent hypoxemia (IH) were frequently observed beyond 36 weeks' PMA in all gestational age groups, particularly in the 24- to 27-week infants [3, 4]. In the clinical settings, intermittent hypoxic and AOP episodes is a predominant cause of oxygen supplement in premature infants and commonly prolong the hospital stay. Optimizing arterial saturation by oxygen supplement is essential to achieve a stable cardiorespiratory status because hypoxemia could induce hypoxic sensitivity of the carotid bodies in neonates, resulting in more pronounced ventilatory depression and more frequent apneic episodes. Some RCTs have shown that continuing caffeine administration beyond PMA 34 weeks could reduce the frequency of IH episodes in premature infants [4, 5]. Therefore, theoretically, a prolonged caffeine administration over the usual duration could shorten the duration of oxygen supplements in those infants at high risk of frequent late AOP or IH. Target weaning oxygen could be an opportunistic indicator of discontinuing caffeine. In light of the above considerations, a multicenter, retrospective, partially blinded, controlled trials will be conducted to verify the hypothesis that a novel caffeine regimen that weaning oxygen as the indicator of discontinuing caffeine could improve respiratory outcomes of very premature infants.
This study evaluates the effect of non-invasive high frequency oscillations applied via a highflow nasal cannula ('Osciflow') compared to highflow nasal cannula without oscillations (HF) on desaturations and bradycardia in premature infants. It uses a crossover design. Infants are randomized to begin the study with either Osciflow or HF. Both modes are applied for 4 hours. Infants are monitored with an oximetry sensor to measure peripheral oxygen saturation (SpO2) and pulse rate, and with a transcutaneous CO2-transducer. Further measurements include respiratory rate and 'Bernese pain scale' evaluated by nursing staff and Electrical Impedance Tomography (EIT) in a subset of patients.
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.
This is a prospective crossover study to compare the within-subject effect of the two target ranges of arterial oxygen saturation (SpO2), both within the clinically recommended range of 90- 95%. The specific objective of this study to evaluate the impact of targeting SpO2 within 93-95% compared to the 90-92% range on ventilatory stability in premature infants of 23-29 weeks gestational age (GA).
A health care initiative will be implemented December 4, 2017 in the Newborn Intensive Care (NICU) setting in an attempt to reduce the length of stay (LOS) for premature infants after standardizing the definition and approach to a clinically significant cardiopulmonary event (CSCPE). We would like to compare LOS in infants born < 30 weeks gestation before and after standardization to see if LOS is reduced.
The purpose of this study is to determine whether nasal intermittent positive pressure ventilation (NIPPV) reduces the need for endotracheal intubation in very low birth weight infants with persistent apnea who fail nasal continuous positive airway pressure (NCPAP).
The purpose of this study is to determine if among infants <30 weeks gestational age on nasal continuous positive airway pressure (NCPAP), whether discontinuing CPAP after gradual reduction in continuous positive airway pressure (CPAP) pressure leads to successful weaning off CPAP when compared to discontinuing CPAP without weaning pressure.
The primary objective was to determine whether caffeine therapy is associated with decreases bone mineral content using dual energy x-ray absorptiometry. Secondary objectives were to determine whether caffeine therapy is associated with increased incidence of nephrocalcinosis or bone fracture.