ImportancePreventing in-hospital cardiac arrest (IHCA) likely represents an effective strategy to improve outcomes for critically ill patients, but feasibility of IHCA prevention remains unclear.ObjectiveTo determine whether a low-technology cardiac arrest prevention (CAP) practice bundle decreases IHCA rate.Design, Setting, and ParticipantsPediatric cardiac intensive care unit (CICU) teams from the Pediatric Cardiac Critical Care Consortium (PC4) formed a collaborative learning network to implement the CAP bundle consistent with the Institute for Healthcare Improvement framework; 15 hospitals implemented the bundle voluntarily. Risk-adjusted IHCA incidence rates were analyzed across 2 time periods, 12 months (baseline) and 18 months after CAP implementation (intervention) using difference-in-differences (DID) regression to compare 15 CAP and 16 control PC4 hospitals that chose not to participate in CAP but had IHCA rates tracked in the PC4 registry. Patients deemed at high risk for IHCA, based on a priori evidence-based criteria and empirical hospital-specific criteria, were selected to receive the CAP bundle. Data were collected from July 2018 to December 2019, and data were analyzed from March to August 2020.InterventionsCAP bundle included 5 elements developed to promote increased situational awareness and communication among bedside clinicians to recognize and mitigate deterioration in high-risk patients.Main Outcomes and MeasuresRisk-adjusted IHCA incidence rate across all CICU admissions (IHCA events divided by all admissions).ResultsThe bundle was activated in 2664 of 10 510 CAP hospital admissions (25.3%); admission characteristics were similar across study periods. There was a 30% relative reduction in risk-adjusted IHCA incidence rate at CAP hospitals (intervention period: 2.6%; 95% CI, 2.2-2.9; baseline: 3.7%; 95% CI, 3.1-4.0), but no change at control hospitals (intervention period: 2.7%; 95% CI, 2.3-2.9; baseline: 2.7%; 95% CI, 2.2-3.0). DID analysis confirmed significantly reduced odds of IHCA among all admissions at CAP hospitals compared with control hospitals during the intervention period vs baseline (odds ratio, 0.72; 95% CI, 0.56-0.91; P = .01). DID odds ratios were 0.72 (95% CI, 0.53-0.98) for the surgical subgroup, 0.74 (95% CI, 0.48-1.14) for the medical subgroup, and 0.72 (95% CI, 0.50-1.03) for the high-risk admission subgroup at CAP hospitals after intervention. All-cause risk-adjusted mortality rate did not change after intervention.Conclusions and RelevanceImplementation of this CAP bundle led to significant IHCA reduction across multiple pediatric CICUs. Future studies may determine if this bundle can be effective in other critically ill populations.
Introduction: Infants with single ventricle following stage I palliation are at risk for poor nutrition and growth failure. We hypothesise a standardised enteral feeding protocol for these infants that will result in a more rapid attainment of nutritional goals without an increased incidence of gastrointestinal co-morbidities. Materials and methods: Single-centre cardiac ICU, prospective case series with historical comparisons. Feeding cohort consisted of consecutive patients with a single ventricle admitted to cardiac ICU over 18 months following stage I palliation (n = 33). Data were compared with a control cohort and admitted to the cardiac ICU over 18 months before feeding protocol implementation (n = 30). Feeding protocol patients were randomised: (1) protocol with cerebro-somatic near-infrared spectroscopy feeding advancement criteria (n = 17) or (2) protocol without cerebro-somatic near-infrared spectroscopy feeding advancement criteria (n = 16). Results: Median time to achieve goal enteral volume was significantly higher in the control compared to feeding cohort. There were no significant differences in enteral feeds being held for feeding intolerance or necrotising enterocolitis between cohorts. Feeding cohort had significant improvements in discharge nutritional status (weight, difference admit to discharge weight, weight-for-age z score, volume, and caloric enteral nutrition) and late mortality compared to the control cohort. No infants in the feeding group with cerebro-somatic near-infrared spectroscopy developed necrotising enterocolitis versus 4/16 (25%) in the feeding cohort without cerebro-somatic near-infrared spectroscopy (p = 0.04). Conclusions: A feeding protocol is a safe and effective means of initiating and advancing enteral nutrition in infants following stage I palliation and resulted in improved nutrition delivery, weight gain, and nourishment status at discharge without increased incidence of gastrointestinal co-morbidities.
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