Joan E. Shook

A prospective, population-based study of the demographics, epidemiology, management, and outcome of out-of-hospital pediatric cardiopulmonary arrest

STUDY OBJECTIVES To perform a population-based study addressing the demography, epidemiology, management, and outcome of out-of-hospital pediatric cardiopulmonary arrest (PCPA). METHODS Prospective, population-based study of all children (17 years of age or younger) in a large urban municipality who were treated by EMS personnel for apneic, pulseless conditions. Data were collected prospectively for 3(1/2) years using a comprehensive data collection tool and on-line computerized database. Each child received standard pediatric advanced cardiac life support. RESULTS During the 3(1/2)-year period, 300 children presented with PCPA (annual incidence of 19. 7/100,000 at risk). Of these, 60% (n=181) were male (P =.0003), and 54% (n=161) were patients 12 months of age or younger (152,500 at risk). Compared with the population at risk (32% black patients, 36% Hispanic patients, 26% white patients), a disproportionate number of arrests occurred in black children (51.6% versus 26.6% in Hispanics, and 17% in white children; P <.0001). Over 60% of all cases (n=181) occurred in the home with family members present, and yet those family members initiated basic CPR in only 31 (17%) of such cases. Only 33 (11%) of the total 300 PCPA cases had a return of spontaneous circulation, and 5 of the 6 discharged survivors had significant neurologic sequelae. Only 1 factor, endotracheal intubation, was correlated positively with return of spontaneous circulation (P =.032). CONCLUSION This population-based study underscores the need to investigate new therapeutic interventions for PCPA, as well as innovative strategies for improving the frequency of basic CPR for children.

The pediatrician and disaster preparedness

For decades, emergency planning for natural disasters, public health emergencies, workplace accidents, and other calamities has been the responsibility of government agencies on all levels and certain nongovernment organizations such as the American Red Cross. In the case of terrorism, however, entirely new approaches to emergency planning are under development for a variety of reasons. Terrorism preparedness is a highly specific component of general emergency preparedness. In addition to the unique pediatric issues involved in general emergency preparedness, terrorism preparedness must consider several additional issues, including the unique vulnerabilities of children to various agents as well as the limited availability of age- and weight-appropriate antidotes and treatments. Although children may respond more rapidly to therapeutic intervention, they are at the same time more susceptible to various agents and conditions and more likely to deteriorate if they are not monitored carefully. This article is designed to provide an overview of key issues for the pediatrician with respect to disaster, terrorism, and public health emergency preparedness. It is not intended to be a complete compendium of didactic content but rather offers an approach to what pediatricians need to know and how pediatricians must lend their expertise to enhance preparedness in every community. To become fully and optimally prepared, pediatricians need to become familiar with these key areas of emergency preparedness: unique aspects of children related to terrorism and other disasters; terrorism preparedness; mental health vulnerabilities and development of resiliency; managing family concerns about terrorism and disaster preparedness; office-based preparedness; hospital preparedness; community, government, and public health preparedness; and advocating for children and families in preparedness planning.

Point-of-care ultrasonography by pediatric emergency medicine physicians

Emergency physicians have used point-of-care ultrasonography since the 1990s. Pediatric emergency medicine physicians have more recently adopted this technology. Point-of-care ultrasonography is used for various scenarios, particularly the evaluation of soft tissue infections or blunt abdominal trauma and procedural guidance. To date, there are no published statements from national organizations specifically for pediatric emergency physicians describing the incorporation of point-of-care ultrasonography into their practice. This document outlines how pediatric emergency departments may establish a formal point-of-care ultrasonography program. This task includes appointing leaders with expertise in point-of-care ultrasonography, effectively training and credentialing physicians in the department, and providing ongoing quality assurance reviews.

Policy statement - Consent for emergency medical services for children and adolescents

Parental consent generally is required for the medical evaluation and treatment of minor children. However, children and adolescents might require evaluation of and treatment for emergency medical conditions in situations in which a parent or legal guardian is not available to provide consent or conditions under which an adolescent patient might possess the legal authority to provide consent. In general, a medical screening examination and any medical care necessary and likely to prevent imminent and significant harm to the pediatric patient with an emergency medical condition should not be withheld or delayed because of problems obtaining consent. The purpose of this policy statement is to provide guidance in those situations in which parental consent is not readily available, in which parental consent is not necessary, or in which parental refusal of consent places a child at risk of significant harm.

Outside the Box and Into Thick Air: Implementation of an Exterior Mobile Pediatric Emergency Response Team for North American H1N1 (Swine) Influenza Virus in Houston, Texas

Study objective We describe the implementation of a mobile pediatric emergency response team for mildly ill children with influenza-like illnesses during the H1N1 swine influenza outbreak. Methods This was a descriptive quality improvement study conducted in the Texas Childrens Hospital (Houston, TX) pediatric emergency department (ED), covered, open-air parking lot from May 1, 2009, to May 7, 2009. Children aged 18 years or younger were screened for viral respiratory symptoms and sent to designated areas of the ED according to level of acuity, possibility of influenza-like illness, and the anticipated need for laboratory evaluation. Results The mobile pediatric emergency response team experienced 18% of the total ED volume, or a median of 48 patients daily, peaking at 83 patients treated on May 3, 2009. Although few children had positive rapid influenza assay results and the morbidity of disease in the community appeared to be minimal for the majority of children, anxiety about pandemic influenza drove a large number of ED visits, necessitating an increase in surge capacity. Surge capacity was augmented both through utilization of existing institutional resources and by creating a novel area in which to treat patients with potential airborne pathogens. Infection control procedures and patient safety were also maximized through patient cohorting and adaptation of social distancing measures to the ED setting. Conclusion The mobile pediatric emergency response team and screening and triage algorithms were able to safely and effectively identify a group of low-acuity patients who could be rapidly evaluated and discharged, alleviating ED volume and potentially preventing transmission of H1N1 influenza.

Vomiting, ataxia, and altered mental status in an adolescent: Late-onset ornithine transcarbamylase deficiency

A case of a 13-year-old boy with protracted vomiting, ataxia, and altered mental status, ultimately diagnosed with late-onset ornithine transcarbamylase (OTC) deficiency, is presented. OTC deficiency is the most common urea cycle defect and typically is diagnosed in male infants with irritability, poor feeding, vomiting, lethargy, and often death caused by the effects of hyperammonemia. Late-onset OTC deficiency has been described in patients of all ages. The presenting symptoms in these patients vary but the most common are vomiting and lethargy. The pathophysiology, clinical features, differential diagnosis, and treatment of this disorder are discussed. Because of the risks of serious consequences, early detection and treatment of OTC deficiency and hyperammonemic episodes are mandatory. Emergency physicians caring for children and adults need to be aware of the spectrum of clinical presentations of OTC deficiency, including late-onset disease.

Withholding or Termination of Resuscitation in Pediatric Out-of-Hospital Traumatic Cardiopulmonary Arrest

This multiorganizational literature review was undertaken to provide an evidence base for determining whether recommendations for out-of-hospital termination of resuscitation could be made for children who are victims of traumatic cardiopulmonary arrest. Although there is increasing acceptance of out-of-hospital termination of resuscitation for adult traumatic cardiopulmonary arrest when there is no expectation of a good outcome, children are routinely excluded from state termination-of-resuscitation protocols. The decision to withhold resuscitative efforts in a child under specific circumstances (decapitation or dependent lividity, rigor mortis, etc) is reasonable. If there is any doubt as to the circumstances or timing of the traumatic cardiopulmonary arrest, under the current status of limiting termination of resuscitation in the field to persons older than 18 years in most states, resuscitation should be initiated and continued until arrival to the appropriate facility. If the patient has arrested, resuscitation has already exceeded 30 minutes, and the nearest facility is more than 30 minutes away, involvement of parents and family of these children in the decision-making process with assistance and guidance from medical professionals should be considered as part of an emphasis on family-centered care because the evidence suggests that either death or a poor outcome is inevitable.

Point-of-Care Ultrasonography by Pediatric Emergency Physicians

Point-of-care ultrasonography is increasingly being used to facilitate accurate and timely diagnoses and to guide procedures. It is important for pediatric emergency physicians caring for patients in the emergency department to receive adequate and continued point-of-care ultrasonography training for those indications used in their practice setting. Emergency departments should have credentialing and quality assurance programs. Pediatric emergency medicine fellowships should provide appropriate training to physician trainees. Hospitals should provide privileges to physicians who demonstrate competency in point-of-care ultrasonography. Ongoing research will provide the necessary measures to define the optimal training and competency assessment standards. Requirements for credentialing and hospital privileges will vary and will be specific to individual departments and hospitals. As more physicians are trained and more research is completed, there should be one national standard for credentialing and privileging in point-of-care ultrasonography for pediatric emergency physicians.

Ventricular fibrillation and the use of automated external defibrillators on children.

The use of automated external defibrillators (AEDs) has been advocated in recent years as a part of the chain of survival to improve outcomes for adult cardiac arrest victims. When AEDs first entered the market, they were not tested for pediatric usage and rhythm interpretation. In addition, the presumption was that children do not experience ventricular fibrillation, so they would not benefit from use of AEDs. Recent literature has shown that children do experience ventricular fibrillation, and this rhythm has a better outcome than do other cardiac arrest rhythms. At the same time, the arrhythmia software on AEDs has become more extensive and validated for children, and attenuation devices have become available to downregulate the energy delivered by AEDs to allow their use in children. Pediatricians are now being asked whether AED programs should be implemented, and where they are being implemented, pediatricians are being asked to provide guidance on the use of AEDs in children. As AED programs expand, pediatricians must advocate on behalf of children so that their needs are accounted for in these programs. For pediatricians to be able to provide guidance and ensure that children are included in AED programs, it is important for pediatricians to know how AEDs work, be up-to-date on the literature regarding pediatric fibrillation and energy delivery, and understand the role of AEDs as life-saving interventions for children.

Anticholinergic poisoning in colicky infants treated with hyoscyamine sulfate

Hyoscyamine, one of the principal alkaloid components of belladonna, is a potent anticholinergic agent. Because of its anticholinergic properties, hyoscyamine sulfate drops are often prescribed for the treatment of colic in infants. Anticholinergic poisoning in infants is rare. However, five cases are reported of infants with anticholinergic toxicity following the administration of hyoscyamine drops for the treatment of colic. Common presenting symptoms included irritability, tachycardia, and erythematous flushed skin. These cases emphasize the need for a heightened awareness by emergency physicians and pediatricians of possible anticholinergic toxicity caused by the use of hyoscyamine for infant colic.