Magnetization of SrCu2(BO3)2 in ultrahigh magnetic fields up to 118 T.

The magnetization process of the orthogonal-dimer antiferromagnet SrCu2(BO3)2 is investigated in high magnetic fields of up to 118 T. A 1/2 plateau is clearly observed in the field range 84 to 108 T in addition to 1/8, 1/4, and 1/3 plateaus at lower fields. Using a combination of state-of-the-art numerical simulations, the main features of the high-field magnetization, a 1/2 plateau of width 24 T, a 1/3 plateau of width 34 T, and no 2/5 plateau, are shown to agree quantitatively with the Shastry-Sutherland model if the ratio of inter- to intradimer exchange interactions J'/J=0.63. It is further predicted that the intermediate phase between the 1/3 and 1/2 plateaus is not uniform but consists of a 1/3 supersolid followed by a 2/5 supersolid and possibly a domain-wall phase, with a reentrance into the 1/3 supersolid above the 1/2 plateau.

Explaining racial disparities in incidence of and survival from out-of-hospital cardiac arrest.

A prospective observational study of 4,653 consecutive cases of out-of-hospital cardiac arrest (OOHCA) occurring in New York City from April 1, 2002, to March 31, 2003, was used to assess racial/ethnic differences in the incidence of OOHCA and 30-day survival after hospital discharge among OOHCA patients. The age-adjusted incidence of OOHCA per 10,000 adults was higher among Blacks than among persons in other racial/ethnic groups, and age-adjusted survival from OOHCA was higher among Whites compared with other groups. In analyses restricted to 3,891 patients for whom complete data on all variables were available, the age-adjusted relative odds of survival from OOHCA among Blacks were 0.4 (95% confidence interval: 0.2, 0.7) as compared with Whites. A full multivariable model accounting for demographic factors, prior functional status, initial cardiac rhythm, and characteristics of the OOHCA event explained approximately 41 percent of the lower age-adjusted survival among Blacks. The lower prevalence of ventricular fibrillation as the initial cardiac rhythm among Blacks relative to Whites was the primary contributor. A combination of factors probably accounts for racial/ethnic disparities in OOHCA survival. Previously hypothesized factors such as delays in emergency medical service response or differences in the likelihood of receipt of cardiopulmonary resuscitation did not appear to be substantial contributors to these racial/ethnic disparities.

Scooter injuries in children.

OBJECTIVE: To describe a series of nonmotorized scooter-related injuries to children to increase public awareness and encourage prevention of such injuries. DESIGN: A descriptive study of a consecutive series of patients. SETTING: The pediatric emergency service of a municipal hospital. PARTICIPANTS: All children <18 years old who presented to the Pediatric Emergency Service (PES) with a scooter-related injury from July through September 2000. METHODS: Patients were identified by review of the PES medical records. Charts were reviewed for patient data including age, place of injury, use of protective gear, adult supervision, injury sustained, medical management, and disposition. RESULTS: There were 15 children treated in the PES for scooter-related injuries. The mean age was 7.8 years, 73% were male. Approximately 90% of injuries occurred as a result of falling off a scooter. Irregular pavement caused 3 falls and tandem riding caused 2 falls. Inability to use the foot brake caused 1 collision, and 1 child was hit by a motor vehicle while crossing the street. Injuries occurred in a park (33%), on a sidewalk (47%), in a home (13%), and on the street (7%). Adult supervision was present in half of the cases. Only 2 children were wearing helmets at the time of injury; none wore protective padding. Five children (33%) suffered head trauma; 1 lost consciousness, and 2 suffered amnesia. Three children required a head computed tomography scan, and 1 required cervical spine radiographs. All radiographs were negative. None of these 5 children were wearing helmets. Seven children (47%) sustained facial injuries, and 4 of these children required laceration repair. Seven children (47%) sustained extremity trauma, including 1 laceration and 6 fractures (1 supracondylar, 1 distal radius, 2 radius/ulnar, 1 tibia/fibula, and 1 patella). Four fractures involved the upper extremity. Four fractures were managed by closed reduction; 2 required operative repair. One child required splinting of an avulsed tooth. Three of the children (20%) were admitted. The 5 children with head trauma were observed and released. CONCLUSION: The use of nonmotorized scooters by children may result in serious injury, particularly in the young child. Although not life-threatening, these injuries require significant medical intervention and may result in permanent functional and cosmetic deformity. These injuries are potentially preventable with the proper use of protective gear and supervision. Public and parental awareness and education are essential to prevent additional injuries.

Prehospital endotracheal intubation for severe head injury in children: a reappraisal.

Controversy exists regarding the efficacy of prehospital assisted ventilation by endotracheal intubation (ETI) versus bag-valve-mask (BVM) in serious pediatric head injury. The National Pediatric Trauma Registry (NPTR-3) data set was analyzed to examine this question. NPTR-3 (n = 31,464) was queried regarding the demographics, injury mechanism, injury severity, prehospital interventions, transport mode, mortality rate, injury complications, procedure and equipment failure or complications, and functional outcome of seriously head-injured patients (n = 578) with comparable injury mechanisms and injury severity who received endotracheal intubation (ETI) (n = 479; 83%) versus those who received BVM (n = 99; 17%). Mortality rate was virtually identical between the 2 groups (ETI = 48%, BVM = 48%), although children receiving ETI were significantly older (P < .01), more often transported by helicopter (P < .01), and more often received intravenous fluid in the field (P < .05). However, injury complications affecting nearly every body system or organ (except kidney, gut, and skin) occurred less often in children receiving ETI (ETI = 58%, BVM = 71%, P < .05). Procedure and equipment failure or complications, and functional outcome, were similar between the 2 groups. Prehospital endotracheal intubation appears to offer no demonstrable survival or functional advantage when compared with prehospital bag-valve-mask for prehospital assisted ventilation in serious pediatric head injury. Injury complications appear to occur somewhat less often among patients intubated in the field.

The Kendrick extrication device used for pediatric spinal immobilization.

Immobilizing a child presents a unique challenge for emergency medical services (EMS) personnel in addition to those challenges faced when immobilizing an adult. Most equipment commonly carried by EMS personnel is sized for adult use and as a result does not routinely provide adequate static or dynamic immobilization of a child. In addition, children often resist immobilization and can free themselves from standard strapping techniques. These problems have led to the modification of existing equipment and the development of several pediatric-specific devices. An ideal pediatric immobilization device would be one that uses an existing piece of equipment, is of limited additional cost, is routinely used by EMS providers, could be easily modified to immobilize a child, could easily be taught to EMS providers, and provides excellent static and dynamic immobilization. The Kendrick extrication device (KED) used as the authors describe meets these goals of an ideal pediatric immobilization device.

Physician bias during patient selection in the pediatric emergency department.

STUDY OBJECTIVES: To evaluate whether pediatric or emergency medicine residents exhibit a bias when they select patients from triage based on the chief complaint, ie, medical versus surgical in the pediatric emergency department (PED). DESIGN: A retrospective chart review of a convenience sample of consecutive patients, excluding those seen during times when both pediatric and emergency medicine residents were not simultaneously present. SETTING: Urban Municipal PED with 25,000 visits annually. TYPE OF PARTICIPANTS: Pediatric residents, emergency medicine residents, and medical students rotating through the PED and their supervising attending physicians. INTERVENTIONS: None. MEASUREMENTS AND MAIN RESULTS: Five hundred and ninety-nine charts were included in the study. On the basis of the triage complaint the initial diagnosis was classified as either surgical or medical. Surgical diagnoses were assigned to those patients who required a surgical procedure, involved a surgical subspecialty or were victims of trauma and represented 151 (25.2%) of the patients seen. Medical diagnoses were assigned to the nonsurgical patients and represented 448 (74.8%) of the patients seen. There are roughly three pediatric residents to each emergency resident working in our PED. Of the 367 patients seen by the pediatric residents, 73 (19.9%) had surgical diagnoses, and 294 (80.1%) had medical diagnoses. Of the 158 patients seen by the emergency residents, 59 (37.3%) had surgical diagnoses and 99 (62.7%) had medical diagnoses. chi2 analysis was used to compare categorical variables. The P value was considered significant at <0.05. DISCUSSION: Residents, both pediatric and emergency medicine, were instructed to see patients based upon the severity of the patient illness as judged by the triage nurse unless the patients' illnesses were of equal severity, in which case they were to be seen in the order in which they presented. The null hypothesis was that in the absence of physician bias, both pediatric and emergency medicine residents would see the same proportion of surgical and medical patients. The results showed that a bias exists. Emergency medicine residents saw a greater proportion of surgical patients, and pediatric residents saw a greater proportion of general medical patients. A limitation of this study may be the that the supervising attending physician selected residents to see certain patients to expedite PED flow. CONCLUSIONS: Recognizing that bias in the selection of patients seen exists is important in ensuring a balanced education experience.

Pediatric ambulance utilization in a large American city: a systems analysis approach.

BACKGROUND: Research on utilization of ambulances by pediatric patients lacks an objective, reproducible tool for the evaluation of patterns of ambulance use by both the providers and the users of this resource. OBJECTIVES: 1) To develop an objective, diagnosis-based measure of appropriateness of ambulance utilization. 2) To use the measure to evaluate whether Municipal Ambulance Service dispatchers assign ambulances appropriately, and whether parents/caretakers request ambulances appropriately. STUDY DESIGN: 1) Development of the pediatric ambulance need evaluation (PANE) tool: The consensus of an expert panel was used to assign patients arriving by ambulance to three levels of prehospital transport need based upon their ultimate hospital discharge diagnoses, and were as follows: required advanced life support ambulance (ALS); required basic life support ambulance (BLS); required a less acute mode of transport (LAT). 2) Assessment of appropriateness of ambulance assignments by EMS call-receiving operators (CRO) and of ambulance requests by parents/caretakers: Comparison of actual type of ambulance assigned and of need for ambulance, using the PANE tool and hospital admission rates as gold standards. DATA COLLECTION: Level of prehospital transport provided (ALS vs BLS), ultimate ED diagnosis, and ED disposition (admission vs discharge) was collected for each patient from information abstracted from the prehospital and ED records. SETTING: Bellevue Hospital Center and Harlem Hospital Center, two level I trauma centers in New York City, both with Pediatric Emergency Departments staffed 24 hours a day by attending physicians and residents. PATIENT SELECTION: Consecutive sample of 2633 patients, birth to 18 years of age, who arrived to either hospital by ambulance as primary transports from the field over a one-year period. RESULTS: 1) Development of PANE tool: At Bellevue Hospital, 7% of ED visits arrived by ambulance; at Harlem Hospital, 5% arrived by ambulance. Using these ambulance arrivals, 215 diagnoses were identified for inclusion in the PANE tool. An expert panel categorized each diagnosis as requiring ALS, BLS, or LAT, with a high level of interobserver agreement (weighted kappa = 0.793). As a measure of external validity of the PANE, admission rates were highest in the ALS group, next highest in the BLS group, and lowest in the LAT group (chi2 for trend, P < 0.05). 2) Assessment of ambulance assignments and requests: According to the PANE tool, the sensitivity of dispatcher assignment of ALS ambulances was 72 %. Therefore, 28 % of patients who required an ALS ambulance received BLS care. 50% of patients assigned to an ALS ambulance did not require that level of care, and 1/3 of these were categorized by the PANE as not requiring an ambulance at all. CONCLUSIONS: The PANE tool compared favorably to admission rates as a measure of the severity of illness of patients arriving by ambulance. Applying the PANE tool, we conclude that the majority of requests for ambulances are appropriate, and that the majority of the time dispatchers were able to dispatch the appropriate level of care. However, there is room for significant improvement in utilization of ambulances, and tools like the PANE will be useful in achieving this goal.

Escalator-related injuries in children.

OBJECTIVE: Escalator-related trauma is uncommon but can cause significant injury. This study reviewed escalator-related injuries in children to determine risk factors, types of injuries, medical interventions, and long-term outcomes. DESIGN AND SETTING: Retrospective clinical patient series, Municipal Hospital Pediatric Emergency Service. Participants. All children less than 18 years of age who presented to the Pediatric Emergency Service with an escalator-related injury from August 1990 through February 1995. METHODS: We reviewed the chart and interviewed the parent of each child by telephone. We collected the following information: age, gender, child's supervision and activity while on the escalator, escalator location, direction of motion, presence of escalator defects, nature and extent of injury, medical interventions, and outcome. RESULTS: Twenty-six children had escalator-related injuries. The average age was 6 years (range, 2-16). Thirteen children (50%) were 2 to 4 years old. There were 15 (57%) boys. Eighteen children (69%) were accompanied by an adult. All children 7 years and younger were accompanied by an adult; however, 50% were not holding the hand of their guardian. Eight children (31%) were injured while riding improperly, ie, walking, running, playing, or sitting on the escalator, and among these, all who were standing fell down before the injury. Six (23%) children were injured while stepping off the escalator. Of 9 children less than 4 years old, 7 (78%) were riding the escalator properly. Of 9 children 4 years or older, only 3 (33%) were riding properly. Circumstances of injury included falling down with subsequent blunt trauma, falling down with subsequent entrapment of an extremity, and entrapment of an extremity not related to falling down. Locations of entrapment were between two steps, between a step and the side-rail, and between the last step and the comb plate. Twenty-one (81%) injuries occurred in rail or subway stations. Eight escalators were reported to have functional or structural problems. Seventeen (65%) children sustained lower extremity injuries and 8 (31%) sustained upper extremity injuries. Injuries included lacerations, avulsions and degloving injuries of the extremities, tendon and nerve lacerations, and digit fractures and amputations. Thirteen (50%) children were admitted to the hospital for operative management; the average length of hospitalization was 13 days (range 1-29). Four children (15%) suffered significant functional loss, and 12 (46%) sustained permanent cosmetic deformities. CONCLUSION: Children are at risk for sustaining severe injuries on escalators. Young age, inadequate adult supervision, improper activity while riding on the escalator, and escalator-related mechanical problems all increase the risk of injury. Public and parent education directed toward escalator safety issues may help to reduce escalator-related injuries in children.

The role of emergency medical services in primary injury prevention. Consensus workshop. Arlington, Virginia, August 25-26, 1995.

Injury is a leading cause of death and disability. Preventing injuries from ever occurring is primary injury prevention (PIP). The objective of this statement is to present the consensus of a 16-member panel of leaders from the out-of-hospital emergency medical services (EMS) community on essential and desirable EMS PIP activities. Essential PIP activities for leaders and decision makers of every EMS system include: protecting individual EMS providers from injury; providing education to EMS providers in PIP fundamentals; supporting and promoting the collection and utilization of injury data; obtaining support for PIP activities; networking with other injury prevention organizations; empowering individual EMS providers to conduct PIP activities; interacting with the media to promote injury prevention; and participating in community injury prevention interventions. Essential PIP knowledge areas for EMS providers include: PIP principles; personal injury prevention and role modeling; safe emergency vehicle operation; injury risk identification; documentation of injury data; and one-on-one safety education.

The role of emergency medical services in primary injury prevention. East Carolina Injury Prevention Program.

Injury is a leading cause of death and disability. Preventing injuries from ever occurring is primary injury prevention (PIP). The objective of this statement is to present the consensus of a 16-member panel of leaders from the out-of-hospital emergency medical services (EMS) community on essential and desirable EMS PIP activities. Essential PIP activities for leaders and decision makers of every EMS system include: protecting individual EMS providers from injury; providing education to EMS providers in PIP fundamentals; supporting and promoting the collection and utilization of injury data; obtaining support for PIP activities; networking with other injury prevention organizations; empowering individual EMS providers to conduct PIP activities; interacting with the media to promote injury prevention; and participating in community injury prevention interventions. Essential PIP knowledge areas for EMS providers include: PIP principles; personal injury prevention and role modeling; safe emergency vehicle operation; injury risk identification; documentation of injury data; and one-on-one safety education.

Certified first responder: a comprehensive model for pediatric training.

The purpose of this document is to present a general approach to educating the First Responder in Emergency Pediatric Care. The First Responder is especially important in the emergency care of the sick or injured child. The majority of mortality and morbidity associated with pediatric emergencies is a result of airway and ventilatory compromise. In addition, most airway and ventilation problems can be corrected with only basic life support interventions that are within the scope of practice of the First Responder. As a result, it is of paramount importance to assure that the First Responder is adequately trained in the initial care of the pediatric patient. This document will review some of the key objectives and topics which the First Responder needs to understand in order to adequately care for children until further emergency care arrives. Templates for lesson plans and suggested activities for training the First Responder are also presented.

Rapid-sequence intubation of the pediatric patient. Pediatric Emergency Medicine Committee of the American College of Emergency Physicians.

Airway compromise is the most common cause of death and severe morbidity in acutely ill and injured children. Rapid-sequence intubation (RSI) is a technique for emergency airway control designed to maximize successful endotracheal intubation while minimizing the adverse physiologic effects of this procedure. RSI requires familiarity with patient evaluation, airway-management techniques, sedation agents, neuromuscular blocking agents, additional adjunctive agents, and postintubation management techniques. Emergency physicians should use RSI techniques in the endotracheal intubation of critically ill children.

Recommended guidelines for uniform reporting of pediatric advanced life support: the pediatric Utstein Style. A statement for healthcare professionals from a task force of the American Academy of Pediatrics, the American Heart Association, and the European Resuscitation Council. Writing Group.

This consensus document is an attempt to provide an organized method of reporting pediatric ALS data in out-of-hospital, emergency department, and in-hospital settings. For this methodology to gain wide acceptance, the task force encourages development of a common data set for both adult and pediatric ALS interventions. In addition, every effort should be made to ensure that consistent definitions are used in all age groups. As health care changes, we will all be challenged to document the effectiveness of what we currently do and show how new interventions or methods of treatment improve outcome and/or reduce cost. Only through collaborative research will we obtain the necessary data. For these reasons, and to improve the quality of care and patient outcomes, it is the hope of the task force that clinical researchers will follow the recommendations in this document. It is recognized that further refinements of this statement will be needed; these recommendations will improve only when researchers, clinicians, and EMS personnel use them, work with them, and modify them. Suggestions, emendations, and other comments aimed at improving the reporting of pediatric resuscitation should be sent to Arno Zaritsky, MD, Eastern Virginia Medical School, Children's Hospital of the King's Daughter, Division of Critical Care Medicine, 601 Children's Lane, Norfolk, VA 23507.

Recommended guidelines for uniform reporting of pediatric advanced life support: the pediatric Utstein style. A statement for healthcare professionals from a task force of the American Academy of Pediatrics, the American Heart Association, and the European Resuscitation Council.

This consensus document is an attempt to provide an organized method of reporting pediatric ALS data in out-of-hospital, emergency department, and in-hospital settings. For this methodology to gain wide acceptance, the task force encourages development of a common data set for both adult and pediatric ALS interventions. In addition, every effort should be made to ensure that consistent definitions are used in all age groups. As health care changes, we will all be challenged to document the effectiveness of what we currently do and show how new interventions or methods of treatment improve outcome and/or reduce cost. Only through collaborative research will we obtain the necessary data. For these reasons, and to improve the quality of care and patient outcomes, it is the hope of the task force that clinical researchers will follow the recommendations in this document. It is recognized that further refinements of this statement will be needed; these recommendations will improve only when researchers, clinicians, and EMS personnel use them, work with them, and modify them. Suggestions, emendations, and other comments aimed at improving the reporting of pediatric resuscitation should be sent to Arno Zaritsky, MD, Eastern Virginia Medical School, Children's Hospital of The King's Daughter, Division of Critical Care Medicine, 601 Children's Lane, Norfolk, VA 23507.

Recommended guidelines for uniform reporting of pediatric advanced life support: the pediatric Utstein style.

This statement is the product of a task force meeting held June 8, 1994, in Washington DC in conjunction with the First International Conference on Pediatric Resuscitation and a follow-up task force writing group meeting held September 18, 1994, in Chicago. Draft versions of the statement were circulated for comment to all members of the task force, the American Heart Association Subcommittee on Pediatric Resuscitation, and several outside reviewers. This statement and the International Conference on Pediatric Resuscitation were cosponsored by the American Academy of Pediatrics and the American Heart Association. The development of this statement was authorized by the American Academy of Pediatrics; the American Heart Association National Subcommittees on Pediatric Resuscitation, Basic Life Support, and Advanced Cardiac Life Support, the Committee on Emergency Cardiac Care, the Science Advisory Committee; and the European Resuscitation Council. In addition to the writing group, members of the Pediatric Utstein Task Force are Paul Anderson, M Douglas Baker, Jane Ball, Desmond Bohn, Dena Brownstein, J Michael Dean, Niranjan Kissoon, Bruce Klein, Patrick Malone, Karin McCloskey, James McCrory, P Pearl O'Rourke, Mary Patterson, Charles Schleien, James Seidel, Joseph J Tepas III, and Becky Yano.

Recommended guidelines for uniform reporting of pediatric advanced life support: the Pediatric Utstein Style. A statement for healthcare professionals from a task force of the American Academy of Pediatrics, the American Heart Association, and the European Resuscitation Council.

This consensus document is an attempt to provide an organized method of reporting pediatric ALS data in out-of-hospital, emergency department, and in-hospital settings. For this methodology to gain wide acceptance, the task force encourages development of a common data set for both adult and pediatric ALS interventions. In addition, every effort should be made to ensure that consistent definitions are used in all age groups. As health care changes, we will all be challenged to document the effectiveness of what we currently do and show how new interventions or methods of treatment improve outcome and/or reduce cost. Only through collaborative research will we obtain the necessary data. For these reasons, and to improve the quality of care and patient outcomes, it is the hope of the task force that clinical researchers will follow the recommendations in this document. It is recognized that further refinements of this statement will be needed; these recommendations will improve only when researchers, clinicians, and EMS personnel use them, work with them, and modify them. Suggestions, recommendations, and other comments aimed at improving the reporting of pediatric resuscitation should be sent to Arno Zaritsky, MD, Eastern Virginia Medical School, Children's Hospital of The King's Daughter, Division of Critical Care Medicine, 601 Children's Lane, Norfolk, VA 23507.

Critical issues in urban emergency medical services for children.

In order to be effective those wishing to improve emergency care of children in an urban environment must be aware of barriers as well as resources. Urban children are at high risk for requiring emergency care as a result of both illness and injury. These children face a dangerous environment resulting from the problems of poverty, homelessness, overcrowded living conditions, drug abuse, and a shrinking tax base. They face this nation's highest rates of violent injury (intentional and unintentional), immunization delays, and preventable infectious diseases such as TB and measles. In addition, they have poor access to quality primary health care and suffer the greatest morbidity rates from chronic diseases such as asthma and diabetes. On the other hand, there is great opportunity to ensure that urban children receive quality emergency health care. The urban environment is rich in "centers of pediatric excellence," which often have paid full-time EMS systems in operation, and is the locale in which the majority of pediatric emergency medicine specialists and prehospital advanced life support providers practice. The child advocate must work to ensure that the urban child can benefit from these resources.