Association between weight-for-length percentile and ICU length of stay in patients with a single ventricle undergoing bidirectional Glenn repair: A retrospective cohort study.

BACKGROUND: Poor weight gain has been identified as an independent risk factor for increased surgical morbidity and mortality for patients with single-ventricle physiology undergoing staged surgical palliation. Conversely, excessive weight gain has also emerged as an independent risk factor predicting increased morbidity and mortality in a single-center study. Given this novel single-center concept, we investigated the impact of excessive weight on patients with single-ventricle physiology undergoing bidirectional Glenn palliation in a multicenter study model. METHODS: Patients from the Pediatric Heart Network Single Ventricle Reconstruction Trial (n = 387) were analyzed in a retrospective cohort study examining the independent effect of weight percentile on intensive care unit (ICU) length of stay (LOS) and ventilator days. Locally estimated scatterplot smoothing (LOESS) regression was used to plot weight-for-length (WFL) percentiles by ICU LOS and ventilator days. Unadjusted and adjusted ordinal regression was used to model ICU LOS and ventilator days. RESULTS: Scatterplots and LOESS regression curves demonstrated increasing ICU LOS and ventilator days for increasing WFL percentiles. Unadjusted ordinal regression analysis of ICU LOS demonstrated a trend of increasing ICU LOS for increasing WFL percentiles that was not statistically significant (P = 0.11). A similar trend was demonstrated in adjusted ordinal regression that was not statistically significant (P = 0.48). Unadjusted and adjusted ordinal regression analysis of ventilator days did not reach statistical significance (P = 0.07). CONCLUSION: Excessive weight gain has a clinically relevant but not statistically significant association with increased ICU LOS and ventilator days for those patients in the >90th WFL percentile for age.

Perioperative Considerations for Pediatric Patients With Congenital Heart Disease Presenting for Noncardiac Procedures: A Scientific Statement From the American Heart Association.

Continuous advances in pediatric cardiology, surgery, and critical care have significantly improved survival rates for children and adults with congenital heart disease. Paradoxically, the resulting increase in longevity has expanded the prevalence of both repaired and unrepaired congenital heart disease and has escalated the need for diagnostic and interventional procedures. Because of this expansion in prevalence, anesthesiologists, pediatricians, and other health care professionals increasingly encounter patients with congenital heart disease or other pediatric cardiac diseases who are presenting for surgical treatment of unrelated, noncardiac disease. Patients with congenital heart disease are at high risk for mortality, complications, and reoperation after noncardiac procedures. Rigorous study of risk factors and outcomes has identified subsets of patients with minor, major, and severe congenital heart disease who may have higher-than-baseline risk when undergoing noncardiac procedures, and this has led to the development of risk prediction scores specific to this population. This scientific statement reviews contemporary data on risk from noncardiac procedures, focusing on pediatric patients with congenital heart disease and describing current knowledge on the subject. This scientific statement also addresses preoperative evaluation and testing, perioperative considerations, and postoperative care in this unique patient population and highlights relevant aspects of the pathophysiology of selected conditions that can influence perioperative care and patient management.

Identification of Low Cardiac Output Syndrome at the Bedside: A Pediatric Cardiac Intensive Care Unit Survey.

BACKGROUND: Low cardiac output syndrome is a transient constellation of signs and symptoms that indicate the heart's inability to supply sufficient oxygen to tissues and end-organs to meet metabolic demand. Because the term lacks a standard clinical definition, the bedside diagnosis of this syndrome can be difficult. OBJECTIVE: To evaluate concordance among pediatric cardiac intensive care unit nurses in their identification of low cardiac output syndrome in pediatric patients after cardiac surgery. METHODS: An anonymous survey was distributed to 69 pediatric cardiac intensive care unit nurses. The survey described 10 randomly selected patients aged 6 months or younger who had undergone corrective or palliative cardiac surgery at a freestanding children's hospital in a tertiary academic center. For each patient, data were presented corresponding to 5 time points (0, 6, 12, 18, and 24 hours postoperatively). The respondent was asked to indicate whether the patient had low cardiac output syndrome (yes or no) at each time point on the basis of the data presented. RESULTS: The response rate was 46% (32 of 69 nurses). The overall Fleiss k value was 0.30, indicating fair agreement among raters. When the results were analyzed by years of experience, agreement remained only slight to fair. CONCLUSIONS: Regardless of years of experience, nurses have difficulty agreeing on the presence of low cardiac output syndrome. Further research is needed to determine whether the development of objective guidelines could improve recognition and facilitate communication between the pediatric cardiac intensive care unit nurse and the medical team.

Obesity: Risk Factor for Increased Resource Utilization at Bidirectional Glenn.

BACKGROUND: Underweight infants with single-ventricle cardiac physiology have been shown to have increased morbidity, mortality, and resource utilization. The purpose of this study was to determine whether patients who were overweight, as defined by weight-for-length z score >90th percentile, were similarly at risk for increased resource utilization, as defined by mechanical ventilation hours (VHs) and intensive care unit length of stay (ICU LOS). METHODS: We evaluated resource utilization for 109 patients from our institution who underwent bidirectional Glenn surgery from January 2010 to June 2015 and met prespecified inclusion criteria. Patients were divided into 3 groups: underweight (z score, <5th percentile), normal weight (z score, 5th-90th percentile), and overweight (z score, >90th percentile). RESULTS: ICU LOS was longer in the overweight group (median, 18.5 days) when compared with the under- and normal-weight groups (median LOS, 11 and 9 days, respectively) but did not reach statistical significance. VHs were also increased in the overweight group (median, 72 hours) when compared with the underweight (median, 27 hours) and normal weight (median, 25 hours) groups. This increase in VHs was statistically significant (P = .03). CONCLUSIONS: This study suggests that patients with single-ventricle physiology who are overweight at the time of their bidirectional Glenn surgery may be at risk for increased resource utilization as compared with those who meet or fail to meet their caloric recommendations. These findings represent an underappreciated risk factor in this already-vulnerable patient population, providing potential opportunity for intervention and improved outcomes.

Utility of bedside angiography in the evaluation of vascular obstruction in the pediatric intensive care patient.

OBJECTIVE: To review our experience with bedside angiography in order to demonstrate the utility of this technique for evaluation of blood vessels in the critically ill patient. DESIGN: Retrospective review. SETTING: Pediatric cardiac intensive care unit at a children's hospital. PATIENTS: Five patients aged 5 days to 17 yrs in the cardiac intensive care unit at our institution received bedside angiography. Indications for bedside angiography included abnormal radiographic appearance of central catheter location or clinical suspicion of vascular obstruction. Institutional review board approval for this retrospective review was obtained, and the waiver of consent was approved by the institutional review board. INTERVENTIONS: For angiographic evaluation of blood vessels, a radiographic plate was placed behind the area of blood vessels to be evaluated. Approximately 1 mL/kg of iohexol contrast was injected rapidly by hand into the blood vessel in question. Just at completion of the contrast injection, a radiograph was taken by portable radiograph equipment. MAIN RESULTS: A total of five patients with potential blood vessel compromise were evaluated by bedside angiography. All angiograms clearly demonstrated the vascular anatomy and catheter location, in addition to identifying areas of obstruction and collateral flow. There were no cases of renal compromise due to contrast use and no blood vessel compromise from contrast injection. CONCLUSIONS: Bedside angiography is a rapid, safe, and useful tool for the evaluation of complex vascular anatomy in critically ill patients. In cases where vascular ultrasound is unable to provide detailed anatomy or identify collateral flow, this technique may be useful in providing safe and accurate assessment of blood vessels associated with vascular access devices.

Long-term risk of fatal malignancy following pediatric radiofrequency ablation.

Children undergoing radiofrequency ablation (RFA) are believed to be at increased risk of developing malignancy caused by radiation, although the magnitude of this risk is incompletely understood. We previously reported a strategy to reduce radiation exposure during pediatric RFA. In a cohort of 15 subjects (median age 12 years, range 9 to 17), radiation was measured using dosimeters at 5 sites. The risk of malignancy using measured radiation absorbed dose was calculated. International Council for Radiation Protection 60 risk estimates were applied to calculate absorbed organ doses. Median duration of combined biplane fluoroscopy was 14.4 minutes. Of the 5 dosimeter locations, the right scapular location had the highest median radiation exposure (43 mGy). Incorporating data from the 5 dosimeters, the risk model calculated that the organ with the greatest absorbed dose and at greatest risk of malignancy was the lung, followed by bone marrow, then breast. Thyroid and ovary exposures were negligible. The increased lifetime risk of fatal malignancy was 0.02% per single RFA procedure. In conclusion, with appropriate measures to reduce radiation exposure, the increased risk of malignancy after a single RFA procedure in children is low. These data should be of help counseling families and will contribute to analysis of the relative risk reduction benefits of such novel imaging approaches as a magnetic resonance imaging-based catheterization laboratory.