Guiding Cardiopulmonary Resuscitation with Focused Echocardiography: A Report of Five Cases.

Background: Focused transthoracic echocardiography has been used to determine etiologies of cardiac arrest and evaluate utility of continuing resuscitation after cardiac arrest. Few guidelines exist advising ultrasound timing within the advanced cardiac life support algorithm. Natural timing of echocardiography occurs during the pulse check, when views are unencumbered by stabilization equipment or vigorous movements. However, recent studies suggest that ultrasound performance during pulse checks prolongs the pause duration of cardiopulmonary resuscitation. Transesophageal echocardiography studies have demonstrated benefits in this regard, but there have been no transthoracic echocardiography studies assessing the physical performance of compressions during cardiopulmonary resuscitation. Objective: The purpose of this study was to describe cases where echocardiography performed at the beginning of the cardiac arrest algorithm offers actionable information to cardiopulmonary resuscitation itself without delaying provision of compressions. Conclusion: Providers using focused echocardiography to evaluate cardiac arrest patients should consider initiating scans at the start of compressions to identify the optimal location for compression delivery and to detect inadequate compressions. Subsequent visualization of full left ventricular compression may be seen after a location change, and combined with end tidal carbon dioxide values, gives indication for improved forward circulatory flow. Although it is not possible in all patients, doing so hastens provision of quality compressions that affect hemodynamic parameters without causing prolongations to the pulse check pause. Further research is needed to determine patient outcomes from both out-of-hospital and in-hospital cardiac arrest when cardiopulmonary resuscitation is visually guided by focused echocardiography.

GPS Devices in a Simulated Mass Casualty Event.

OBJECTIVE: The aim of this study was to assess the staff perception of a global positioning system (GPS) as a patient tracking tool at an emergency department (ED) receiving patients from a simulated mass casualty event. METHODS: During a regional airport disaster drill a plane crash with 46 pediatric patients was simulated. Personnel from airport fire, municipal fire, law enforcement, emergency medical services, and emergency medicine departments were present. Twenty of the 46 patient actors required transport for medical evaluation, and we affixed GPS devices to 12 of these actors. At the hospital, ED staff including attending physicians, fellows and nurses working in the ED during the time of the drill accessed a map through an application that provided real-time geolocation of these devices. The primary outcome was staff reception of the GPS device as assessed via Likert scale survey after the event. The secondary outcomes were free text feedback from staff and event debriefing observations. RESULTS: Queried registered nurses, attending physicians, and pediatric emergency medicine fellows perceived the GPS device as an advantage for patient care during a disaster. The GPS device allowed multiple-screen real-time tracking and improved situational awareness in cases with and without EMS radio communication prior to arrival at the hospital. CONCLUSION: ED staff reported that the use of GPS trackers in a disaster improved real-time tracking and could potentially improve patient management during a mass casualty event.

Effects of Real-time EMS Direction on Optimizing EMS Turnaround and Load-balancing Between Neighboring Hospital Campuses.

Background: Implemented in September 2017, the "nurse navigator program" identified the preferred emergency department (ED) destination within a single healthcare system using real-time assessment of hospital and ED capacity and crowding metrics. Objective: The primary objective of the navigator program was to improve load-balancing between two closely situated emergency departments, both of which feed into the same inpatient facilities of a single healthcare system. A registered nurse in the hospital command center made real-time recommendations to emergency medical services (EMS) providers via radio, identifying the preferred destination for each transported patient based on such factors as chief complaint, ED volume, and waiting room census. The destination decision was made via the utilization of various real-time measures of health system capacity in conjunction with existing protocols dictating campus-specific clinical service availability. The objective of this study was to evaluate the efficacy of this real-time ambulance destination direction program as reflected in changes to emergency medical services (EMS) turnaround time and the incidence of intercampus transports. Methods: A before-and-after time series was performed to determine if program implementation resulted in a change in EMS turnaround time or incidence of intercampus transfers. Results: Implementation of the nurse navigator program was associated with a statistically significant decrease in EMS turnaround times for all levels of dispatch and transport at both hospital campuses. Intercampus transfers also showed significant improvement following implementation of the intervention, although this effect lagged behind implementation by several months. Conclusion: A proactive approach to EMS destination control using a nurse navigator with access to real-time hospital and ED capacity metrics appears to be an effective method of decreasing EMS turnaround time.

A descriptive study of the "lift-assist" call.

INTRODUCTION: Responses for "lift assists" (LAs) are common in many emergency medical services (EMS) systems, and result when a person dials 9-1-1 because of an inability to get up, is subsequently determined to be uninjured, and is not transported for further medical attention. Although LAs often involve recurrent calls and are generally not reimbursable, little is known of their operational effects on EMS systems. We hypothesized that LAs present an opportunity for earlier treatment of subtle-onset medical conditions and injury prevention interventions in a population at high risk for falls. Objectives. To quantify LA calls in one community, describe EMS returns to the same address within 30 days following an index LA call, and characterize utilization of EMS by LA patients. METHODS: Data from the computer-aided dispatch (CAD) system of a suburban fire-based EMS system were retrospectively reviewed. All LAs from 2004 to 2009 were identified using "exit codes" transmitted by paramedics after each call. The number and nature of return visits to the same address within 30 days were examined. RESULTS: From 2004 through 2009, there were 1,087 LA responses (4.8% of EMS incidents) to 535 different addresses. Two-thirds of the LA calls (726; 66.8%) were to one-third of these addresses (174 addresses; 32.5%); 563 of the return calls to the same address occurred within 30 days after the index LA. For 214 of these return visits, it was possible to compare patient age and sex with those associated with the initial LA, revealing that 85% of return visits were likely for the same patients. Of these, 38.5% were for another LA/refusal of transport, 8.2% for falls and other injuries, and 47.3% for medical complaints. Hospital transport was required in 55.5% of these return visits. The EMS crews averaged 21.5 minutes out of service per LA call. CONCLUSION: Lift-assist calls are associated with substantial subsequent utilization of EMS, and should trigger fall prevention and other safety interventions. Based on our data, these calls may be early indicators of medical problems that require more aggressive evaluation.

Effect of a Home Health and Safety Intervention on Emergency Department Use in the Frail Elderly: A Prospective Observational Study.

INTRODUCTION: Geriatric patients are often frail and may lose independence through a variety of mechanisms including cognitive decline, reduced mobility, and falls. Our goal was to measure the effect of a multidisciplinary home health program that assessed frailty and safety and then coordinated ongoing delivery of community resources on short-term, all-cause emergency department (ED) utilization across three study arms that attempted to stratify frailty by fall risk. METHODS: Subjects became eligible for this prospective observational study via one of three pathways: 1) by visiting the ED after a fall (2,757 patients); 2) by self-identifying as at risk for falling (2,787); or 3) by calling 9-1-1 for a "lift assist" after falling and being unable to get up (121). The intervention consisted of sequential home visits by a research paramedic who used standardized assessments of frailty and risk of falling (including providing home safety guidance), and a home health nurse who aligned resources to address the conditions found. Outcomes of interest were all-cause ED utilization at 30, 60, and 90 days post-intervention compared with subjects who enrolled via the same study pathway but declined the study intervention (controls). RESULTS: Subjects in the fall-related ED visit arm were significantly less likely to have one or more subsequent ED encounters post-intervention than controls at 30 days (18.2% vs 29.2%, P<0.001); 60 days (27.5% vs 39.8%, P<0.001); and 90 days (34.6% vs 46.2%, P<0.001). In contrast, participants in the self-referral arm had no difference in ED encounters post-intervention compared to controls at 30, 60, or 90 days (P=0.30, 0.84, and 0.23, respectively). The size of the 9-1-1 call arm limited statistical power for analysis. CONCLUSION: A history of a fall requiring ED evaluation appeared to be a useful marker of frailty. Subjects recruited through this pathway experienced less all-cause ED utilization over subsequent months after a coordinated community intervention than without it. The participants who only self-identified as at risk for falling had lower rates of subsequent ED utilization than those recruited in the ED after a fall and did not significantly benefit from the intervention.

The core content of emergency medical services medicine.

On September 23, 2010, the American Board of Medical Specialties (ABMS) approved emergency medical services (EMS) as a subspecialty of emergency medicine. As a result, the American Board of Emergency Medicine (ABEM) is planning to award the first certificates in EMS medicine in the fall of 2013. The purpose of subspecialty certification in EMS, as defined by ABEM, is to standardize physician training and qualifications for EMS practice, to improve patient safety and enhance the quality of emergency medical care provided to patients in the prehospital environment, and to facilitate integration of prehospital patient treatment into the continuum of patient care. In February 2011, ABEM established the EMS Examination Task Force to develop the Core Content of EMS Medicine (Core Content) that would be used to define the subspecialty and from which questions would be written for the examinations, to develop a blueprint for the examinations, and to develop a bank of test questions for use on the examinations. The Core Content defines the training parameters, resources, and knowledge of the treatment of prehospital patients necessary to practice EMS medicine. Additionally, it is intended to inform fellowship directors and candidates for certification of the full range of content that might appear on the examinations. This article describes the development of the Core Content and presents the Core Content in its entirety.

An open, interoperable, and scalable prehospital information technology network architecture.

Some of the most intractable challenges in prehospital medicine include response time optimization, inefficiencies at the emergency medical services (EMS)-emergency department (ED) interface, and the ability to correlate field interventions with patient outcomes. Information technology (IT) can address these and other concerns by ensuring that system and patient information is received when and where it is needed, is fully integrated with prior and subsequent patient information, and is securely archived. Some EMS agencies have begun adopting information technologies, such as wireless transmission of 12-lead electrocardiograms, but few agencies have developed a comprehensive plan for management of their prehospital information and integration with other electronic medical records. This perspective article highlights the challenges and limitations of integrating IT elements without a strategic plan, and proposes an open, interoperable, and scalable prehospital information technology (PHIT) architecture. The two core components of this PHIT architecture are 1) routers with broadband network connectivity to share data between ambulance devices and EMS system information services and 2) an electronic patient care report to organize and archive all electronic prehospital data. To successfully implement this comprehensive PHIT architecture, data and technology requirements must be based on best available evidence, and the system must adhere to health data standards as well as privacy and security regulations. Recent federal legislation prioritizing health information technology may position federal agencies to help design and fund PHIT architectures.

Naloxone Use by Emergency Medical Services During the COVID-19 Pandemic: A National Survey.

OBJECTIVES: The COVID-19 epidemic in the United States has hit in the midst of the opioid overdose crisis. Emergency medical services (EMS) clinicians may limit their use of intranasal naloxone due to concerns of novel coronavirus infection. We sought to determine changes in overdose events and naloxone administration practices by EMS clinicians. METHODS: Between April 29, 2020 and May 15, 2020, we surveyed directors of EMS fellowship programs across the US about how overdose events and naloxone administration practices had changed in their catchment areas since March 2020. RESULTS: Based on 60 respondents across all regions of the country, one fifth of surveyed communities have experienced an increase in opioid overdoses and events during which naloxone was administered, and 40% have experienced a decrease. The findings varied by region of the country. Eighteen percent of respondents have discouraged or prohibited the use of intranasal naloxone with 10% encouraging the use of intramuscular naloxone. CONCLUSIONS: These findings may provide insight into changes in opioid overdose mortality during this time and assist in future disaster planning.

The "RTR" medical response system for nuclear and radiological mass-casualty incidents: a functional TRiage-TReatment-TRansport medical response model.

Developing a mass-casualty medical response to the detonation of an improvised nuclear device (IND) or large radiological dispersal device (RDD) requires unique advanced planning due to the potential magnitude of the event, lack of warning, and radiation hazards. In order for medical care and resources to be collocated and matched to the requirements, a [US] Federal interagency medical response-planning group has developed a conceptual approach for responding to such nuclear and radiological incidents. The "RTR" system (comprising Radiation-specific TRiage, TReatment, TRansport sites) is designed to support medical care following a nuclear incident. Its purpose is to characterize, organize, and efficiently deploy appropriate materiel and personnel assets as close as physically possible to various categories of victims while preserving the safety of responders. The RTR system is not a medical triage system for individual patients. After an incident is characterized and safe perimeters are established, RTR sites should be determined in real-time that are based on the extent of destruction, environmental factors, residual radiation, available infrastructure, and transportation routes. Such RTR sites are divided into three types depending on their physical/situational relationship to the incident. The RTR1 sites are near the epicenter with residual radiation and include victims with blast injuries and other major traumatic injuries including radiation exposure; RTR2 sites are situated in relationship to the plume with varying amounts of residual radiation present, with most victims being ambulatory; and RTR3 sites are collection and transport sites with minimal or no radiation present or exposure risk and a victim population with a potential variety of injuries or radiation exposures. Medical Care sites are predetermined sites at which definitive medical care is given to those in immediate need of care. They include local/regional hospitals, medical centers, other sites such as nursing homes and outpatient clinics, nationwide expert medical centers (such as cancer or burn centers), and possible alternate care facilities such as Federal Medical Stations. Assembly Centers for displaced or evacuating persons are predetermined and spontaneous sites safely outside of the perimeter of the incident, for use by those who need no immediate medical attention or only minor assistance. Decontamination requirements are important considerations for all RTR, Medical Care, and Assembly Center sites and transport vehicles. The US Department of Health and Human Services is working on a long-term project to generate a database for potential medical care sites and assembly centers so that information is immediately available should an incident occur.

Pulmonary manifestations of intentionally released chemical and biological agents.

Recent events have underscored the importance of knowledge and understanding of biological and chemical agents that are intentionally released on civilian populations. Preparedness of the medical community to recognize and manage the resulting clinical syndromes will be a major determinant in the outcome of such attack, or a community's 'prognosis' for survival. The biological and chemical agents that have been weaponized produce diseases and toxidromes that are not commonly seen by clinicians in most parts of the United States. Patients or clusters of patients who present with febrile syndromes that are unusual for the geographic or seasonal setting should trigger notification of public health authorities and the use of state or national reference lab systems for augmented diagnostic support. In many cases, early, empiric therapy, administered before definitive diagnosis, is required for survival. The basic principles in the management of exposure to chemical agents include containment, prevention of secondary exposure, rapid decontamination, implementation of supportive and symptomatic care, and specific antidotes as indicated and available.

Pandemic planning and response in academic pediatric emergency departments during the 2009 H1N1 influenza pandemic.

OBJECTIVES: The terrorist attacks of September 11, 2001, initiated a shift toward a comprehensive, or "all-hazards," framework of emergency preparedness in the United States. Since then, the threat of H5N1 avian influenza, the severe acute respiratory syndrome epidemic, and the 2009 H1N1 influenza pandemic have underscored the importance of considering infectious events within such a framework. Pediatric emergency departments (EDs) were disproportionately burdened by the 2009 H1N1 influenza pandemic and therefore serve as a robust context for evaluation of pandemic preparedness. The objective of this study was to explore pediatric ED leaders' experiences with preparedness, response, and postincident actions related to the H1N1 pandemic to inform future pandemic and all-hazards planning and policy for EDs. METHODS: The authors selected a qualitative design, well suited for exploring complex, multifaceted organizational processes such as planning for and responding to a pandemic and learning from institutional experiences. Purposeful sampling was used to recruit medical directors or their designated physician respondents from pediatric emergency medicine training institutions representing a range of geographic regions across the United States, hospital types, and annual ED volumes; snowball sampling identified additional information-rich respondents. Recruitment began in May 2011 and continued until thematic saturation was reached in January 2012 (n = 20). Data were collected through in-depth individual phone interviews that were recorded and professionally transcribed. Using a standard interview guide, respondents were asked open-ended questions about pandemic planning, response, and institutional learning related to the H1N1 pandemic. Data analysis was performed by a multidisciplinary team using a grounded theory approach to generate themes inductively from respondents' expressed perspectives. The constant comparative method was used to identify emerging themes. RESULTS: Five common themes characterized respondents' experiences with pandemic planning and response: 1) national pandemic influenza preparedness guidance has not fully penetrated to the level of pediatric emergency physician (EP) leaders, leading to variable states of preparedness; 2) pediatric EDs that maintained strong relationships with local public health and other health care entities found those relationships to be beneficial to pandemic response; 3) pediatric EP leaders reported difficulty reconciling public health guidance with the reality of ED practice; 4) although many anticipated obstacles did not materialize, in some cases pediatric EP leaders experienced unexpected institutional challenges; and 5) pediatric EP leaders described varied experiences with organizational learning following the H1N1 pandemic experience. CONCLUSIONS: Despite a decade of investment in hospital preparedness, gaps in pediatric ED pandemic preparedness remain. This work suggests that raising awareness of pandemic planning standards and promoting strategies to overcome barriers to their adoption could enhance ED and hospital preparedness. Helping hospitals better prepare for pandemic events may lead to strengthened all-hazards preparedness.

Creating a process for incorporating epidemiological modelling into outbreak management decisions.

Modern computational models of infectious diseases greatly enhance our ability to understand new infectious threats and assess the effects of different interventions. The recently-released CDC Framework for Preventing Infectious Diseases calls for increased use of predictive modelling of epidemic emergence for public health preparedness. Currently, the utility of these technologies in preparedness and response to outbreaks is limited by gaps between modelling output and information requirements for incident management. The authors propose an operational structure that will facilitate integration of modelling capabilities into action planning for outbreak management, using the Incident Command System (ICS) and Synchronization Matrix framework. It is designed to be adaptable and scalable for use by state and local planners under the National Response Framework (NRF) and Emergency Support Function #8 (ESF-8). Specific epidemiological modelling requirements are described, and integrated with the core processes for public health emergency decision support. These methods can be used in checklist format to align prospective or real-time modelling output with anticipated decision points, and guide strategic situational assessments at the community level. It is anticipated that formalising these processes will facilitate translation of the CDC's policy guidance from theory to practice during public health emergencies involving infectious outbreaks.

An experimental model of heat storage in working firefighters.

OBJECTIVE: Develop experimental models to study uncompensable heat stress (UCHS) in working firefighters (FFs). METHODS: FFs ingested core temperature (Tc) capsules prior to performing sequential tasks in 40 degrees C and personal protective ensemble (PPE), or 18 degrees C and no PPE. Both trials were conducted in an environmental chamber with FFs using self-contained breathing apparatus (SCBA). RESULTS: FFs exercising in heat and PPE reproduced UCHS conditions. For every FF in both trials for whom the capsules worked, Tc was elevated, and Tc(max) occurred after completion of study protocol. Trials with PPE resulted in a mean maximum temperature of 38.94 degrees C (+/-0.37 degrees C); Tc(max) reached 40.4 degrees C. Without PPE, maximum Tc averaged 37.79 degrees C (+/-0.07 degrees C). Heat storage values ranged from 131 to 1205 kJ, averaging 578 kJ (+/-151.47 kJ) with PPE and 210.83 kJ (+/-21.77 kJ) without PPE. CONCLUSIONS: An experimental model has been developed that simulates the initial phases of an interior fire attack to study the physiology of UCHS in FF. The hot environment and PPE increase maximum Tc and heat storage over that due to the exertion required to perform the tasks and may decrease time to volitional fatigue. This model will permit controlled studies to optimize work-rest cycles, rehab conditions, and physical conditioning of FFs.

Emergency medical services in Connecticut.

This article describes emergency medical services (EMS) systems in Connecticut, beginning with a historical perspective. The discussion of statewide oversight of the EMS system includes legislative and regulatory mandates as well as recent external reviews of the system. Medical oversight of EMS care and services is provided by sponsor hospitals rather than individual medical directors. Most of the 169 cities and towns in the State maintain or contract for local EMS, and have traditionally resisted regionalization. This snapshot of the EMS system in Connecticut can serve as a reference for comparison of EMS systems in other jurisdictions.

Noninvasive fireground assessment of carboxyhemoglobin levels in firefighters.

OBJECTIVES: Carboxyhemoglobin (COHb) levels can be estimated by chemical analysis of exhaled alveolar breath. Such noninvasive measurement could be used on the fireground to screen both firefighters (FFs) and victims. The purpose of this study was to assess the feasibility of using a hand-held carbon monoxide (CO) monitoring device to screen for CO toxicity in FFs under field conditions. METHODS: Informed consent was obtained from all participants. Using a hand-held breath CO detection device, COHb readings were collected at baseline, and then as FFs exited burning buildings after performing interior fire attack and overhaul with self-contained breathing apparatus (SCBA) during live-fire training. Ambient CO levels were occasionally measured in interior areas where the FFs were working to assess the degree of CO exposure. RESULTS: Baseline COHb readings of 64 FFs ranged from 0% to 3% (mean 1%, median 1%). One hundred eighty-four COHb readings were collected during training exercises. The mean and median COHb levels were 1%. The maximum value in a FF wearing SCBA was 3%; values of 14%, 5%, and 4% were measured in instructors who were not properly wearing SCBA. Ambient CO readings during fire attack ranged from 75 to 1,290 ppm, and the ambient CO reading for overhaul ranged from 0 to 130 ppm. When the device was used for interior CO monitoring, washout time limited its utility for COHb monitoring in FFs. CONCLUSIONS: A hand-held CO monitoring device adapted for estimation of COHb levels by exhaled breath analysis can feasibly be deployed on the fireground to assess CO exposure in FFs.