In this largest reported pediatric severe sepsis cohort to date, prevalence increased from 2004 to 2012 while associated mortality decreased. Age, cardiovascular comorbidity, and organ dysfunction were significant prognostic factors. Pediatric severe sepsis remains an important cause for PICU admission and mortality and leads to a substantial burden in healthcare costs. Individual center's prevalence and volume are associated with improved outcomes.
IntroductionPediatric severe sepsis (PSS) continues to be a major health problem. Extracorporeal therapies (ETs), defined as extracorporeal membrane oxygenation (ECMO) and RRenal replacement therapyenal replacement therapy (RRT), are becoming more available for utilization in a variety of health conditions. We aim to describe (1) rates of utilization of ET in PSS, (2) outcomes for PSS patients receiving ET, and (3) epidemiologic characteristics of patients receiving ET.MethodsWe conducted a retrospective review of a prospectively collected database. Data from the Pediatric Health Information System (PHIS) database collected by the Children’s Hospital Association (CHA) from 2004–2012 from 43 US children’s hospitals’ pediatric intensive care units (PICUs) were used. Patients with PSS were defined by (1) International Classification of Diseases, 9th Revision (ICD-9) codes reflecting severe sepsis and septic shock and (2) ICD-9 codes of infection and organ dysfunction as defined by updated Angus criteria. Among the patients with PSS, those with a PHIS flag of ECMO or RRT were identified further as our main cohort.ResultsFrom 2004 to 2012, 636,842 patients were identified from 43 hospitals, and PSS prevalence was 7.7 % (49,153 patients). Nine point eight percent (4795 patients) received at least one form of ET, and the associated mortality rate was 39 %. Mortality rates were 47.8 % for those who received ECMO, 32.3 % in RRT, and 58.0 % in RRT + ECMO. Underlying co-morbidities were found in 3745 patients (78.1 %) who received ET (81 % for ECMO, 77.9 % in RRT, and 71.2 % in those who received both). There was a statistically significant increase in ECMO utilization in patients with at least three organ dysfunctions from 2004 to 2012 (6.9 % versus 10.3 %, P < 0.001) while RRT use declined (24.5 % versus 13.2 %, P < 0.001). After 2009, there was a significant increase in ECMO utilization (3.6 % in 2004–2008 versus 4.0 % in 2009–2012, P = 0.004). ECMO and RRT were used simultaneously in only 500 patients with PSS (1 %).ConclusionsETs were used in a significant portion of PSS patients with multiple organ dysfunction syndrome (MODS) during this time period. Mortality was significant and increased with increasing organ failure. ECMO use in PSS patients with MODS increased from 2004 to 2012. Further evaluation of ET use in PSS is warranted.Electronic supplementary materialThe online version of this article (doi:10.1186/s13054-015-1105-4) contains supplementary material, which is available to authorized users.
Background Increasing AKI diagnosis precision to refine the understanding of associated epidemiology and outcomes is a focus of recent critical care nephrology research. Timing of onset of acute kidney injury (AKI) during pediatric critical illness and impact on outcomes has not been fully explored. Methods Secondary analysis of the Assessment of Worldwide Acute Kidney Injury, Renal Angina, and Epidemiology (AWARE) database. AKI defined as per Kidney Disease Improving Global Outcomes (KDIGO) criteria. Early AKI defined as diagnosed at ≤48 hours after ICU admission, with any diagnosis >48 hours denoted as late AKI. Transient AKI defined as return to baseline SCr ≤48 hours of onset, and those without recovery fell into the persistent category. A second incidence of AKI ≥48 hours after recovery was denoted as recurrent. Patients were subsequently sorted into distinct phenotypes as early-transient, late-transient, early-persistent, late-persistent, and recurrent. Primary outcome was major adverse kidney events (MAKE) at 28 days or at study exit, with secondary outcomes including AKI-free days, ICU length of stay (LOS), and inpatient renal replacement therapy (RRT). Results 1,262 patients had AKI and were included. Overall mortality rate was 6.4% (n = 81), with 34.2% (n = 432) fulfilling at least one MAKE-28 criteria. The majority of patients fell in the early-transient cohort (n = 704, 55.8%). The early-persistent phenotype had the highest odds of MAKE28 (OR 7.84, 95% CI 5.45–11.3), and the highest mortality rate (18.8%). Oncologic and nephrologic/urologic comorbidities, at AKI diagnosis were associated with MAKE28. Conclusion Temporal nature and trajectory of AKI during a critical care course are significantly associated with patient outcomes, with several subtypes at higher risk for poorer outcomes. Stratification of pediatric critical care associated AKI into distinct phenotypes is possible and may become an important prognostic tool.
Objectives: 1) Describe the prevalence of acquired von Willebrand syndrome in pediatric patients undergoing extracorporeal membrane oxygenation deemed to be at increased risk for the disease in our institution, 2) discuss the challenges of testing for acquired von Willebrand syndrome diagnosis, 3) describe the characteristics of the patient population found to have acquired von Willebrand syndrome and their outcomes, and 4) discuss the potential implications of acquired von Willebrand syndrome on bleeding complications. Design: Retrospective chart review. Setting: PICU and cardiovascular ICU in a single institution. Patients: All PICU and cardiovascular ICU extracorporeal membrane oxygenation patients 0–18 years old who underwent screening for acquired von Willebrand syndrome between January 2014 and December 2016. Interventions: Humate P administration to a small subset of acquired von Willebrand syndrome positive subjects. Measurements and Main Results: Laboratory data of identified patients were analyzed. The diagnosis of acquired von Willebrand syndrome was made based on decreased ristocetin cofactor activity to von Willebrand factor antigen ratio and/or abnormal multimer analysis. Clinical data were extracted from the chart and through the Pediatric Extracorporeal Membrane Oxygenation Outcome Registry to describe the demographics, comorbidities, and outcomes of this patient population. In the 2 years, 29 patients had laboratory testing performed for surveillance and in cases of clinical bleeding. Of these, 23 (79%) were positive by criteria. No significant difference in mortality rate was found between patients with acquired von Willebrand syndrome versus without. We also did not find a significant difference in the blood product utilization or bleeding complications between patients with acquired von Willebrand syndrome versus without. Humate P was administered in 39% of patients (9/23) who were positive for acquired von Willebrand syndrome, but no significant difference was seen in blood product utilization or bleeding complications between acquired von Willebrand syndrome patients receiving Humate P versus those who did not. Conclusions: Acquired von Willebrand syndrome is a common but under recognized disorder in pediatric extracorporeal membrane oxygenation patients. The clinical implications of this disorder on bleeding and its potential treatments are still unclear.
Objective: Venoarterial extracorporeal membrane oxygenation (VA ECMO) is recognized as a potential support therapy for pediatric patients with refractory septic shock (RSS). This review aims to report our experience with central VA cannulation in pediatric patients with RSS, and to compare this with peripheral VA ECMO cannulations for this condition at our institution. Design: Retrospective case series. Setting: Pediatric and cardiac intensive care units in an academic pediatric hospital. Patients: All patients 0–18 years old meeting criteria of RSS placed on VA ECMO between January 2011 and December 2018. Interventions: None. Measurements: Demographics, relevant clinical variables, ECMO run details, and outcomes were collected. Results: Between 2011 and 2018, 14 children were placed on VA ECMO for RSS. Nine were cannulated centrally, with the rest placed on peripheral VA ECMO. Overall survival to hospital discharge was 57.1% (8/14), with 66.7% of the central cannulation cohort surviving versus 40% in the peripheral cannulation (p = 0.34). Median ECMO duration was 147.1 hours (IQR: 91.9–178.6 hours), with survivors having a median length of 147.1 (IQR: 138.5–185.7) versus non survivors 114.7 hours (IQR: 63.7–163.5), p = 0.48. Overall median ICU length of stay (LOS) was 19 days (IQR: 10.5–42.2). The median % maximum flow achieved on VA ECMO was higher in the central cannulation group at 179.6% (IQR: 154.4–188.1) versus the peripheral with 133.5% (98.1–149.1), p = 0.01. Functional status scale (FSS) was used to capture morbidity. All survivors had a mean increase in their FSS from baseline. In the centrally cannulated group, 50% (4/8) received mediastinal exploration, but none developed mediastinitis. In terms of blood product utilization, the central cannulation received more platelets compared to the peripherally cannulated group (median 15.6 vs 3.3 mL/kg/day, p = 0.03). Conclusion: A central approach to VA ECMO cannulation is feasible and has potential for good patient outcomes in selected patients.
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