Use of Sodium Bicarbonate During Pediatric Cardiac Admissions with Cardiac Arrest: Who Gets It and What Does It Do?

The objectives of this study were to characterize the use of sodium bicarbonate in pediatric cardiac admissions that experience cardiac arrest, to determine sodium bicarbonate use over the years, and to determine the impact of sodium bicarbonate on length of admissions, billed charges, and inpatient mortality. A cross-sectional study was conducted utilizing the Pediatric Health Information System database. Characteristics of admissions with and without sodium bicarbonate were initially compared by univariate analyses. The frequency by which sodium bicarbonate was used was compared by year. Regression analyses were conducted to determine the impact of sodium bicarbonate on length of stay, billed charges, and inpatient mortality. A total of 3987 (50.3%) of pediatric cardiac intensive care admissions with cardiac arrest utilized sodium bicarbonate; however, frequency changed from 62.1% in 2004 to 43.7% in 2015. Linear regression analysis demonstrated a decrease in length of stay (−27.5 days, p < 0.01) and billed charges (−$470,906, p < 0.01). Logistic regression analysis demonstrated an increase in mortality (odds ratio 1.77, 95% confidence interval 1.56–2.01). In conclusion, sodium bicarbonate is being used with less frequency over the last years in pediatric cardiac admissions with cardiac arrest. After adjustment for cardiac diagnoses, comorbidities, vasoactive medications, and other resuscitation medications, sodium bicarbonate is independently associated with increased mortality

Impact of surfactant when utilized during pediatric cardiac surgery admissions: analysis of a nationwide database

OBJECTIVE: Surfactant has been routinely used in the neonatal population, particularly in the setting of prematurity and neonatal respiratory distress syndrome. Current evidence, however, does not delineate the effect of surfactant use in neonates and older children during cardiac surgery admissions. This study aimed to characterize the impact of surfactant on pediatric cardiac surgery admissions. METHODS: Admissions of those under 18 years of age with cardiac surgery were identified from the Pediatric Health Information System (PHIS) database between 2004 and 2015, using ICD-9 procedure codes. Univariate analyses were conducted to compare admission characteristics between those that did and not utilize surfactant. Variables shown to be significant were then entered as independent variables into the regression analyses. Surfactant was entered into each model as an independent variable. RESULTS: A total of 81,313 admissions met the inclusion criteria. Of these, 109 (0.1%) had surfactant utilized. Univariate analyses identified several differences between admissions with and without surfactant use and demonstrated significantly increased mortality in the surfactant group (38.5% versus 4.6%, CONCLUSIONS: Surfactant administration during pediatric cardiac surgery admissions is independently associated with a sixfold increase in inpatient mortality. It is likely that these findings are mediated by augmentation of the decrease in pulmonary vascular resistance and a subsequent decrease in systemic blood flow in the setting of parallel circulation. Surfactant should be administered with special consideration in neonates with cardiac disease and may be best avoided in those with parallel circulation

The acute influence of vasopressin on hemodynamic status and tissue oxygenation following the Norwood procedure

Objectives: Arginine vasopressin (AVP) is used to treat hypotension. Because AVP increases blood pressure by increasing systemic vascular resistance, it may have an adverse effect on tissue oxygenation following the Norwood procedure. Methods: Retrospective analysis of continuously captured hemodynamic data of neonates receiving AVP following the Norwood procedure. Results: We studied 64 neonates exposed to AVP within 7 days after the Norwood procedure. For the entire group, AVP significantly increased mean blood pressure (2.5 ± 6.3) and cerebral and renal oxygen extraction ratios (4.1% ± 9.6% and 2.0% ± 4.7%, respectively; P \u3c .001 for all values). In the right ventricle to pulmonary artery shunt cohort, AVP significantly increased blood pressure, arterial oxygen saturation (1.4% ± 3.8%; P = .011), pulmonary to systemic perfusion ratio (0.2 ± 0.4; P = .017), and cerebral and renal oxygen extraction ratios (4.6% ± 8.7%; P = .010% and 4.7% ± 9.4%; P = .014, respectively). The Blalock-Taussig shunt cohort experienced a less significant vasopressor response and no change in arterial oxygen saturation, pulmonary to systemic perfusion ratio, or cerebral and renal oxygen extraction ratios. Conclusions: The right ventricle to pulmonary artery shunt cohort experienced a significant vasopressor response to AVP that was associated with a significant increase in pulmonary perfusion and decrease in cerebral and renal perfusion, whereas the Blalock-Taussig shunt cohort experienced a less significant vasopressor response and no change in pulmonary or systemic perfusion. The influence of AVP on tissue oxygenation following the Norwood procedure may have clinical implications that require further study