ECFCs are low at extremely low gestational ages and increase during gestation; extremely preterm infants who display lower numbers at birth have an increased risk of developing BPD. Our findings suggest that decreased ECFCs following extremely preterm birth may be associated with the risk for developing lung vascular immaturity characteristic of new BPD.
ObjectiveTo use cardiac MRI techniques to assess ventricular function and systemic perfusion in preterm and term newborns, to compare techniques to echocardiographic methods, and to obtain initial reference data.DesignObservational magnetic resonance and echocardiographic imaging study.SettingNeonatal Unit, Queen Charlotte's and Chelsea Hospital, London, UK.Patients108 newborn infants with median birth weight 1627 (580–4140) g, gestation 32 (25–42) weeks.ResultsMean (SD) flow volumes assessed by phase contrast (PC) imaging in 28 stable infants were left ventricular output (LVO) 222 (46), right ventricular output (RVO) 219 (47), superior vena cava (SVC) 95 (27) and descending aorta (DAo) 126 (32) ml/kg/min, with flow being higher at lower gestational age. Limits of agreement for repeated PC assessment of flow were LVO ±50.2, RVO ±55.5, SVC ±20.9 and DAo ±26.2 ml/kg/min. Mean (SD) LVO in 75 stable infants from three-dimensional models were 245 (47) ml/kg/min, with limits of agreement ±58.3 ml/kg/min. Limits of agreement for repeated echocardiographic assessment of LVO were ±108.9 ml/kg/min.ConclusionsDetailed magnetic resonance assessments of cardiac function and systemic perfusion are feasible in newborn infants, and provide more complete data with greater reproducibility than existing echocardiographic methods. Functional cardiac MRI could prove to be a useful research technique to study small numbers of newborn infants in specialist centres; providing insights into the pathophysiology of circulatory failure; acting as an outcome measure in clinical trials of inotropic intervention and so guiding clinical practice in the wider neonatal community.
Objective Electrical cardiometry is an impedance-based monitoring technique that provides data on several hemodynamic parameters in a noninvasive way. There is limited information on clinical utility of the application of this technique in neonates.
Study Design In this study, we describe the case of a preterm neonate born at 302/7 weeks of gestational age who developed severe systemic infection with fluid refractory septic shock on day 2 of life.
Discussion Electrical cardiometry was used and proved very helpful in real-time guiding the choice and the dosing of the most appropriate inotrope drugs in this patient. In addition, it promptly underlined an abrupt drop of systemic vascular resistances occurring after administration of the first dose of antibiotic, thus warning the attending neonatologist to institute appropriate treatment before the clinical conditions could further worsen.
Conclusion This case report suggests that electrical cardiometry could be a useful tool in assessing, monitoring, and guiding care of neonates who develop severe septic shock. We suggest that electrical cardiometry is a promising approach in the management strategies of such patients that warrants informative clinical trials.
Key Points
Objective This study aimed to describe the first two cases of electrical cardiometry applied to newborn with hypoplastic left heart syndrome for hemodynamical assessment in the first days of life before surgical correction and see if this can help decision making process in these patients.
Study Design We describe two case series of two full-term newborn with hypoplastic left heart syndrome in the Neonatal Intensive Care Unit, ASST Grande Ospedale Metropolitano Niguarda, between December 2019 and January 2020.
Results Case 1 was persistently hemodynamically stable with prostaglandin E1 infusion at 0.01 mcg/kg/min, showing good capillary refill time, good diuresis, no difference between pre- and postductal values of oxygen saturation or blood pressure. Electrical cardiometry monitoring constantly showed cardiac output values higher than 300 mL/kg/min. Case 2 showed poor clinical condition needing prostaglandin E1 infusion up to 0.05 mcg/kg/min, intubation and septostomy associated with low cardiac output around 190 mL/kg/min. Once cardiac output has begun to rise and reached values constantly over 300 mL/kg/min, clinical condition improved with amelioration in oxygen saturation, diuresis, blood pressure, and blood gas analysis values. She was then extubated and finally clinically stable until surgery with minimal infusion of prostaglandin E1 at 0.01 mcg/kg/min.
Conclusion This case highlights how hemodynamic information provided by electrical cardiometry can be used to supplement the combined data from all monitors and the clinical situation to guide therapy in these newborns waiting surgery.
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