The Burden of Stroke in Neonates Undergoing Congenital Heart Surgery: A Large Multicenter Analysis.

BACKGROUND: Stroke affects surgical decision making and outcomes of neonatal cardiac surgery (CHS). We sought to assess the burden of stroke in this population from a large multicenter database. METHODS: We analyzed neonates undergoing CHS with cardiopulmonary bypass from the Pediatric Health Information System database (2004-2022). The cohort was divided into the stroke group, which included preoperative/postoperative ischemic, hemorrhagic subtypes, and grade III to IV intraventricular hemorrhages, and compared in-hospital and follow-up outcomes to a nonstroke group. RESULTS: A perioperative stroke occurred in 800 of 14,228 neonates (5.6%). The stroke group was more likely to have hypoplastic left heart syndrome (HLHS; 30.5% vs 20.7%), born preterm (19.4% vs 11.7%), low birth weight (17.8% vs 11.9%), and require extracorporeal membrane oxygenation (ECMO; 48.8% vs 13.8%; all P < .001). Outcomes comparing stroke vs no stroke were mortality, 33.1% vs 8.9%; nonhome discharge, 12.5% vs 6.9%; length of stay, 41 vs 24 days; and hospitalization costs, $354,521 vs $180,489 (all, P < .05). Stroke increased the odds of mortality by 2-fold (odds ratio, 2.20; 95% CI, 1.75-2.77; P < .001) after adjusting for ECMO, prematurity among other significant factors. On follow-up, the stroke group had a higher incidence of hydrocephalus (9.5% vs 1.3%), cerebral palsy (6.2% vs 1.3%), and autism spectrum disorder (7.1% vs 3.5%), and survivors of the index admission had higher 1- and 5-year mortality (5.3% and 11.3% vs 3.3% and 5.9%, respectively; all P < .05). CONCLUSIONS: Neonatal CHS patients born prematurely, diagnosed with HLHS, or those requiring ECMO are disproportionately affected by stroke. The occurrence of stroke is marked by significantly higher mortality. Future research should seek to identify factors leading to stroke to increase rescue after stroke and for improvement of long-term outcomes.

Early prediction of pediatric acute kidney injury from the emergency department: A pilot study.

BACKGROUND: Identifying acute kidney injury (AKI) early can inform medical decisions key to mitigation of injury. An AKI risk stratification tool, the renal angina index (RAI), has proven better than creatinine changes alone at predicting AKI in critically ill children. OBJECTIVE: To derive and test performance of an "acute" RAI (aRAI) in the Emergency Department (ED) for prediction of inpatient AKI and to evaluate the added yield of urinary AKI biomarkers. METHODS: Study of pediatric ED patients with sepsis admitted and followed for 72 h. The primary outcome was inpatient AKI defined by a creatinine >1.5× baseline, 24-72 h after admission. Patients were denoted renal angina positive (RA+) for an aRAI score above a population derived cut-off. Test characteristics evaluated predictive performance of the aRAI compared to changes in creatinine and incorporation of 4 urinary biomarkers in the context of renal angina were assessed. RESULTS: 118 eligible subjects were enrolled. Mean age was 7.8 ± 6.4 years, 16% required intensive care admission. In the ED, 27% had a +RAI (22% had a >50% creatinine increase). The aRAI had an AUC of 0.92 (0.86-0.98) for prediction of inpatient AKI. For AKI prediction, RA+ demonstrated a sensitivity of 94% (69-99) and a negative predictive value of 99% (92-100) (versus sensitivity 59% (33-82) and NPV 93% (89-96) for creatinine ≥2× baseline). Biomarker analysis revealed a higher AUC for aRAI alone than any individual biomarker. CONCLUSIONS: This pilot study finds the aRAI to be a sensitive ED-based tool for ruling out the development of in-hospital AKI.

Acute Kidney Injury and Fluid Overload in Pediatric Cardiac Surgery.

PURPOSE OF REVIEW: Acute kidney injury (AKI) and fluid overload affect a large number of children undergoing cardiac surgery, and confers an increased risk for adverse complications and outcomes including death. Survivors of AKI suffer long-term sequelae. The purpose of this narrative review is to discuss the short and long-term impact of cardiac surgery associated AKI and fluid overload, currently available tools for diagnosis and risk stratification, existing management strategies, and future management considerations. RECENT FINDINGS: Improved risk stratification, diagnostic prediction tools and clinically available early markers of tubular injury have the ability to improve AKI-associated outcomes. One of the major challenges in diagnosing AKI is the diagnostic imprecision in serum creatinine, which is impacted by a variety of factors unrelated to renal disease. In addition, many of the pharmacologic interventions for either AKI prevention or treatment have failed to show any benefit, while peritoneal dialysis catheters, either for passive drainage or prophylactic dialysis may be able to mitigate the detrimental effects of fluid overload. SUMMARY: Until novel risk stratification and diagnostics tools are integrated into routine practice, supportive care will continue to be the mainstay of therapy for those affected by AKI and fluid overload after pediatric cardiac surgery. A viable series of preventative measures can be taken to mitigate the risk and severity of AKI and fluid overload following cardiac surgery, and improve care.