Normative Echocardiographic Values for Right and Left Ventricular Function in Extremely Premature Neonates.

OBJECTIVE: To identify the measures of biventricular function and surrogates of pulmonary vascular resistance that can be expected in relatively stable extremely premature neonates, and evaluate maturational changes in myocardial performance in this patient population. STUDY DESIGN: This was a prospective observational study. Clinically stable extremely preterm newborns were divided into 3 cohorts based on gestational age: cohort 1 (240/7-256/7 weeks), cohort 2 (260/7-276/7 weeks), and cohort 3 (280/7-296/7 weeks). Serial echocardiograms were obtained on day of life 3-5, 7-10, and just prior to discharge. RESULTS: In total, 46 subjects met the criteria aimed at capturing only the most clinically healthy and stable newborns less than 296/7 weeks of gestational age. Myocardial performance was reliably assessed by echocardiography with high inter-reader correlation. Normative values were identified for right ventricular function, left ventricular function, and surrogates of pulmonary vascular resistance. CONCLUSIONS: Biventricular systolic performance is significantly different in the clinically stable extremely premature neonate when compared with healthy full-term newborns. All participants had evidence of poor biventricular compliance at birth which improved with maturation. Extreme prematurity does not appear to adversely affect myocardial functional maturation at the time of term corrected age and/or discharge.

The Next Frontier in Pediatric Cardiology: Artificial Intelligence.

Artificial intelligence (AI) in the last decade centered primarily around digitizing and incorporating the large volumes of patient data from electronic health records. AI is now poised to make the next step in health care integration, with precision medicine, imaging support, and development of individual health trends with the popularization of wearable devices. Future clinical pediatric cardiologists will use AI as an adjunct in delivering optimum patient care, with the help of accurate predictive risk calculators, continual health monitoring from wearables, and precision medicine. Physicians must also protect their patients' health information from monetization or exploitation.

A primer on artificial intelligence for the paediatric cardiologist.

The combination of pediatric cardiology being both a perceptual and a cognitive subspecialty demands a complex decision-making model which makes artificial intelligence a particularly attractive technology with great potential. The prototypical artificial intelligence system would autonomously impute patient data into a collaborative database that stores, syncs, interprets and ultimately classifies the patient's profile to specific disease phenotypes to compare against a large aggregate of shared peer health data and outcomes, the current medical body of literature and ongoing trials to offer morbidity and mortality prediction, drug therapy options targeted to each patient's genetic profile, tailored surgical plans and recommendations for timing of sequential imaging. The focus of this review paper is to offer a primer on artificial intelligence and paediatric cardiology by briefly discussing the history of artificial intelligence in medicine, modern and future applications in adult and paediatric cardiology across selected concentrations, and current barriers to implementation of these technologies.

Left ventricular cardiac output is a reliable predictor of extracorporeal life support in neonates with congenital diaphragmatic hernia.

OBJECTIVE: Congenital diaphragmatic hernia (CDH) is a treatable condition but despite optimal management, some patients require extracorporeal life support (ECLS). This study evaluates the association of left ventricular (LV) cardiac output and the need for ECLS. STUDY DESIGN: Single center, retrospective chart review from 1/1/2012 through 7/1/2018. Twenty-seven patients met criteria for evaluation with six patients (22%) requiring ECLS. Echocardiography was used to assess ventricular function. RESULTS: There was a statistically significant decrease in LV cardiac index of 1.33 L /min/m2 vs 1.80 L /min/m2 (p = 0.04) for patients requiring ECLS and non-ECLS, respectively. There was no difference between the 2 groups with regards to vasoactive medication use, surfactant use, iNO use, severity of pulmonary hypertension, or right ventricular (RV) function. CONCLUSION: In newborns with CDH, decreased LV cardiac output is more strongly associated with need for ECLS than severity of pulmonary hypertension or RV dysfunction.

A case of central diabetes insipidus after ketamine infusion during an external to internal carotid artery bypass.

STUDY OBJECTIVE: We report the first teenage case of ketamine-induced transient central diabetes insipidus. CASE SUMMARY: The patient was an 18-year-old woman with moyamoya disease undergoing an external carotid to internal carotid bypass and given a low-dose ketamine infusion. After approximately 2 hours in the supine position, with 0.5 Minimum Alveolar Concentration (MAC) of sevoflurane, a propofol infusion at 50 µg/kg/min, a remifentanil infusion at 0.5 µg/kg/min, and a ketamine infusion at a dose of 10 µg/kg/min, this patient had an excessive urine output. Initially, the Foley catheter contained 50 mL of urine. She was given 1500 mL of crystalloid during the case but produced 2700 mL of urine output. Increasing urine output was noted 1 hour into the procedure around the time that the patient experienced a 2-minute Cushing-like response characterized by bradycardia and hypertension. Several I-Stat samples revealed a worsening hypernatremia. The decision was made to check the urine osmolality and treat the patient with 4 µg of desmopressin (DDAVP). Urine output began to slow down to a normal rate of 2 mg/kg/h, as the patient was transferred from the operating room to the computed tomographic (CT) scanning room for a CT and CT angiogram; both were unremarkable. The neurosurgery team waited until the next day to complete the procedure. The procedure was completed successfully and uneventfully the next day without a ketamine infusion as part of the general anesthetic plan. DISCUSSION: The Naranjo Adverse Drug Reaction score of 4 suggested a possible relationship between the patient's ketamine infusion and subsequent central diabetes insipidus. The 2 previous cases on this topic have suggested that ketamine, as an N-methyl-d-aspartate receptor antagonist, inhibits vasopressin release in the neurohypophysis. CONCLUSION: Urine output, urine osmolarity, and serum osmolarity should be monitored in patients given ketamine anesthetic; desmopressin should be present to prevent dangerous long-term sequela.