IMPORTANCE Guidelines for declaration of brain death in children were revised in 2011 by the Society of Critical Care Medicine, American Academy of Pediatrics, and Child Neurology Society. Despite widespread medical, legal, and ethical acceptance, ongoing controversies exist with regard to the concept of brain death and the procedures for its determination. OBJECTIVES To determine the epidemiology and clinical characteristics of pediatric patients declared brain dead in the United States. DESIGN, SETTING, AND PARTICIPANTS This study involved the abstraction of all patient deaths from the Virtual Pediatric Systems national multicenter database between January 1, 2012, and June 30, 2017. All patients who died in pediatric intensive care units (PICUs) were included. MAIN OUTCOMES AND MEASURES Patient demographics, preillness developmental status, severity of illness, cause of death, PICU medical and physical length of stay, and organ donation status, as well as comparison between patients who were declared brain dead vs those who sustained cardiovascular or cardiopulmonary death. RESULTS Of the 15 344 patients who died, 3170 (20.7%) were declared brain dead; 1861 of these patients (58.7%) were male, and 1401 (44.2%) were between 2 and 12 years of age. There was a linear association between PICU size and number of patients declared brain dead per year, with an increase of 4.27 patients (95% CI, 3.46-5.08) per 1000-patient increase in discharges (P < .001). The median (interquartile range) of patients declared brain dead per year ranged from 1 (0-3) in smaller PICUs (defined as those with <500 discharges per year) to 10 (7-15) for larger PICUs (those with 2000-4000 discharges per year). The most common causative mechanisms of brain death were hypoxic-ischemic injury owing to cardiac arrest (1672 of 3170 [52.7%]), shock and/or respiratory arrest without cardiac arrest (399 of 3170 [12.6%]), and traumatic brain injury (634 of 3170 [20.0%]). Most patients declared brain dead (681 of 807 [84.4%]) did not have preexisting neurological dysfunction. Patients who were organ donors (1568 of 3144 [49.9%]) remained in the PICU longer after declaration of brain death compared with those who were not donors (median [interquartile range], 29 [6-41] hours vs 4 [1-8] hours; P < .001). CONCLUSIONS AND RELEVANCE Brain death occurred in one-fifth of PICU deaths. Most children declared brain dead had no preexisting neurological dysfunction and had an acute hypoxic-ischemic or traumatic brain injury. Brain death determinations are infrequent, even in large PICUs, emphasizing the importance of ongoing education for medical professionals and standardization of protocols to ensure diagnostic accuracy and consistency.
BACKGROUND: Ventilation is critical in airway management, and failure can be fatal. The optimal ventilation approach for endotracheal intubation in children with difficult airways remains controversial. The Pediatric Difficult Intubation (PeDI) Registry is an international multicenter registry that collects intubation data in difficult to intubate children. The registry captures the initial (at induction) and final ventilation technique (at intubation), the use of neuromuscular blocking drugs (NMBDs), airway reactivity during intubation, and complications. We analyzed data in the PeDI Registry to determine the frequency of use of various ventilation techniques and associated complications. Because spontaneously breathing patients ventilate throughout intubation, we hypothesized that spontaneous ventilation would be associated with fewer complications than other approaches. METHODS: We queried the PeDI Registry for cases entered between September 2012 and February 2016, from 16 children’s hospitals. We categorized the attending anesthesiologist’s ventilation plan into 3 groups: spontaneous ventilation, controlled ventilation after administering an NMBD, and controlled ventilation without administering an NMBD. Generalized Estimating Equation (GEE) model, with a binomial family distribution and logit link, was used to determine the association between ventilation technique and the risk of complications, as well as to account for within-site clustering. Propensity score matching was further applied to balance pretreatment characteristics of ventilation groups. RESULTS: Of 1289 anticipated difficult intubations, 507 (39%) were managed with spontaneous ventilation, 453 (35%) controlled ventilation with an NMBD, and 329 (26%) controlled ventilation without an NMBD. Complications occurred in 242 (18.8%; 95% confidence interval [CI], 16.6%–20.9%) patients. Of these, 218 (16.9%) were nonsevere, and 24 (1.9%) were severe. The spontaneous ventilation group had 114 (22.5%, standardized residual [Std.Res] = 4.29) nonsevere complications, which was higher than the controlled ventilation with an NMBD 60 (13.3%, Std.Res = −2.58), and controlled ventilation without an NMBD 44 (13.4%, Std.Res = −1.98), P < .001. Nearest neighbor matching with caliper width equal to 0.2 of the standard deviation (SD) of the logit of the propensity score also demonstrated that patients with spontaneous ventilation had greater odds of complications compared to controlled ventilation techniques: odds ratio (OR) = 2.07 (95% CI, 1.36–3.15; P = .001). CONCLUSIONS: Spontaneous ventilation is associated with more nonsevere complications, such as hypoxemia and laryngospasm, than controlled ventilation techniques during intubation of children with difficult airways. Inadequate anesthetic depth may contribute to increased complications.
BACKGROUND: In infants and young children, anesthetic dosing is based on population pharmacokinetics and patient hemodynamics not on patient-specific brain activity. Electroencephalography (EEG) provides insight into brain activity during anesthesia. The primary goal of this prospective observational pilot study was to assess the prevalence of isoelectric EEG events—a sign of deep anesthesia—in infants and young children undergoing general anesthesia using sevoflurane or propofol infusion for maintenance. METHODS: Children 0–37 months of age requiring general anesthesia for surgery excluding cardiac, intracranial, and emergency cases were enrolled by age: 0–3, 4–6, 7–12, 13–18, and 19–37 months. Anesthesia was maintained with sevoflurane or propofol infusion. EEG was recorded from induction to extubation. Isoelectric EEG events (amplitude <20 µV, lasting ≥2 seconds) were characterized by occurrence, number, duration, and percent of isoelectric EEG time over anesthetic time. Associations with patient demographics, anesthetic, and surgical factors were determined. RESULTS: Isoelectric events were observed in 63% (32/51) (95% confidence interval [CI], 49–76) of patients. The median (interquartile range [IQR]) number of isoelectric events per patient was 3 (0–31), cumulative isoelectric time per patient was 12 seconds (0–142 seconds), isoelectric time per event was 3 seconds (0–4 seconds), and percent of total isoelectric over anesthetic time was 0.1% (0%–2.2%). The greatest proportion of isoelectric events occurred between induction and incision. Isoelectric events were associated with higher American Society of Anesthesiologists (ASA) physical status, propofol bolus, endotracheal tube use, and lower arterial pressure during surgical phase. CONCLUSIONS: Isoelectric EEG events were common in infants and young children undergoing sevoflurane or propofol anesthesia. Although the clinical significance of these events remains uncertain, they suggest that dosing based on population pharmacokinetics and patient hemodynamics is often associated with unnecessary deep anesthesia during surgical procedures.
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