Factors associated with destination of pediatric EMS transports.

OBJECTIVE: Pediatric patients comprise 13% of emergency medical services (EMS) transports, and most are transported to general emergency departments (ED). EMS transport destination policies may guide when to transport patients to a children's hospital, especially for medical complaints. Factors that influence EMS providers 'decisions about where to transport children are unknown. Our objective was to evaluate the factors associated with pediatric EMS transports to children's hospitals for medical complaints. METHODS: We performed a cross-sectional study of a large, urban EMS system over a 12-month period for all transports of patients 0-17 years old. We electronically queried the EMS database for demographic data, medical presentation and management, comorbidities, and documented reasons for choosing destination. Distances to the destination hospital and nearest children's and community hospital (if not the transport destination) were calculated. Univariate and multiple logistic regression analyses were conducted to determine the association between independent variables and the transport destination. RESULTS: We identified 10,065 patients, of which 6982 (69%) were for medical complaints. Of these medical complaints, 3518 (50.4%) were transported to a children's hospital ED. Factors associated with transport to a children's hospital include ALS transport, greater transport distance, protocol determination, developmental delay, or altered consciousness. Factors associated with transport to general EDs were older age, unknown insurance status, lower income, greater distance to children's or community hospital, destination determined by closest facility or diversion, abnormal respiratory rate or blood glucose, psychiatric primary impression, or communication barriers present. CONCLUSIONS: We found that younger patient age, EMS protocol requirements, and paramedic scene response may influence pediatric patient transport to both children's and community hospitals. Socioeconomic factors, ED proximity, diversion status, respiratory rate, chief complaints, and communication barriers may also be contributing factors. Further studies are needed to determine the generalizability of these findings to other EMS systems.

Video laryngoscopy for out of hospital cardiac arrest.

INTRODUCTION: Endotracheal intubation is an import component of out-of-hospital cardiac arrest (OHCA) resuscitation. In this analysis, we evaluate the association of video laryngoscopy (VL) with first pass success and return of spontaneous circulation (ROSC) using a national OHCA cohort. METHODS: We analyzed 2018 data from ESO Inc. (Austin, TX), a national prehospital electronic health record. We included all adult, non-traumatic cardiac arrests undergoing endotracheal intubation. We defined VL and direct laryngoscopy (DL) based on paramedic recorded intubation device. The primary outcomes were first pass success, ROSC, and sustained ROSC. Using multivariable, mixed models, we determined the association between VL and first pass success rate, ROSC, and sustained ROSC (survival to ED or ROSC in the field for greater than 20 min), fitting agency as a random intercept and adjusting for confounders. RESULTS: We included 22,132 patients cared for by 914 EMS agencies, including 5702 (25.7%) VL and 16,430 (74.2%) DL. Compared to DL, VL had a lower rate of bystander CPR, but other characteristics were similar between the groups. VL exhibited higher first pass success than DL (75.1% v 69.5%, p < .001). On mixed model analysis, VL was associated with a higher first pass success (OR 1.5, CI 1.3-1.6) but not ROSC (OR 1.1, CI 0.97-1.2) or sustained ROSC (OR 1.1, CI 0.9-1.2). CONCLUSION: While associated with higher FPS, VL was not associated with increased rate of ROSC. The role of VL in OHCA remains unclear.

Multicenter Evaluation of Prehospital Seizure Management in Children.

BACKGROUND: Seizures are a common reason why emergency medical services (EMS) transports children by ambulance. Timely seizure cessation prevents neurologic morbidity, respiratory compromise, and mortality. Implementing recommendations from an evidence-based pediatric prehospital guideline may enhance timeliness of seizure cessation and optimize medication dosing. OBJECTIVE: We compared management of pediatric prehospital seizures across several EMS systems after protocol revision consistent with an evidence-based guideline. METHODS: Using a retrospective, cross-sectional approach, we evaluated actively seizing patients (0-17 years old) EMS transported to a hospital before and after modifying local protocols to include evidence-based recommendations for seizure management in three EMS agencies. We electronically queried and manually abstracted both EMS and hospital data at each site to obtain information about patient demographics, medications given, seizure cessation and recurrence, airway interventions, access obtained, and timeliness of care. The primary outcome of the study was the appropriate administration of midazolam based on route and dose. We analyzed these secondary outcomes: frequency of seizure activity upon emergency department (ED) arrival, frequency of respiratory failure, and timeliness of care. RESULTS: We analyzed data for 533 actively seizing patients. Paramedics were more likely to administer at least one dose of midazolam after the protocol updates [127/208 (61%) vs. 232/325 (71%), p = 0.01, OR = 1.60 (95% CI: 1.10-2.30)]. Paramedics were also more likely to administer the first midazolam dose via the preferred intranasal (IN) or intramuscular (IM) routes after the protocol change [(63/208 (49%) vs. 179/325 (77%), p < 0.001, OR = 3.24 (2.01-5.21)]. Overall, paramedics administered midazolam approximately 14 min after their arrival, gave an incorrect weight-based dose to 130/359 (36%) patients, and gave a lower than recommended dose to 94/130 (72%) patients. Upon ED arrival, 152/533 (29%) patients had a recurrent or persistent seizure. Respiratory failure during EMS care or subsequently in the ED occurred in 90/533 (17%) patients. CONCLUSIONS: Implementation of an evidence-based seizure protocol for EMS increased midazolam administration. Patients frequently received an incorrect weight-based dose. Future research should focus on optimizing administration of the correct dose of midazolam to improve seizure cessation.

Impact of an Extraglottic Device on Pediatric Airway Management in an Urban Prehospital System.

INTRODUCTION: Prehospital pediatric endotracheal intubation has lower first-pass success rates compared to adult intubations and in general may not offer a survival benefit. Increasingly, emergency medical services (EMS) systems are deploying prehospital extraglottic airways (EGA) for primary pediatric airway management, yet little is known about their efficacy. We evaluated the impact of a pediatric prehospital airway management protocol change, inclusive of EGAs, on airway management and patient outcomes in children in cardiac arrest or respiratory failure. METHODS: Using data from a large, metropolitan, fire-based EMS service, we performed an observational study of pediatric patients with respiratory failure or cardiac arrest who were transported by EMS before and after implementation of an evidence-based airway management protocol inclusive of the addition of the EGA. The primary outcome was change in frequency of intubation attempts when paired with an initial EGA. Secondary outcomes included EGA and intubation success rates and patient survival to hospitalization and discharge. RESULTS: We included 265 patients age <16 years old, with 142 pre- and 123 post-protocol change. Patient demographics and event characteristics were similar between groups. Intubation attempts declined from 79.6% pre- to 44.7% (p<0.01) post-protocol change. In patients with an intubation attempt, overall intubation success declined from 81.4% to 63.6% (p<0.01). Post-protocol change, an EGA was attempted in 52.8% of patients with 95.4% success. CONCLUSION: Implementation of an evidenced-based airway management algorithm for pediatric patients, inclusive of an EGA device for all age groups, was associated with fewer prehospital intubations. Intubation success may be negatively impacted due to decreases in procedural frequency.

Paramedic-Identified Enablers of and Barriers to Pediatric Seizure Management: A Multicenter, Qualitative Study.

Background: Seizures have the potential to cause significant morbidity and mortality, and are a common reason emergency medical services (EMS) are requested for a child. An evidence-based guideline (EBG) for pediatric prehospital seizures was published and has been implemented as protocol in multiple EMS systems. Knowledge translation and protocol adherence in medicine can be incomplete. In EMS, systems-based factors and providers' attitudes and beliefs may contribute to incomplete knowledge translation and protocol implementation. Objective: The purpose of this study was to identify paramedic attitudes and beliefs regarding pediatric seizure management and regarding potential barriers to and enablers of adherence to evidence-based pediatric seizure protocols in multiple EMS systems. Methods: This was a qualitative study utilizing semi-structured interviews of paramedics who recently transported actively seizing 0-17 year-old patients in 3 different urban EMS systems. Interviewers explored the providers' decision-making during their recent case and regarding seizures in general. Interview questions explored barriers to and enablers of protocol adherence. Two investigators used the grounded theory approach and constant comparison to independently analyze transcribed interview recordings until thematic saturation was reached. Findings were validated with follow-up member-checking interviews. Results: Several themes emerged from the 66 interviewed paramedics. Enablers of protocol adherence included point-of-care references, the availability of different routes for midazolam and availability of online medical control. Systems-level barriers included equipment availability, controlled substance management, infrequent pediatric training, and protocol ambiguity. Provider-level barriers included concerns about respiratory depression, provider fatigue, preferences for specific routes, febrile seizure perceptions, and inaccurate methods of weight estimation. Paramedics suggested system improvements to address dose standardization, protocol clarity, simplified controlled substance logistics, and equipment availability. Conclusions: Paramedics identified enablers of and barriers to adherence to evidence-based pediatric seizure protocols. The identified barriers existed at both the provider and systems levels. Paramedics identified multiple potential solutions to overcome several barriers to protocol adherence. Future research should focus on using the findings of this study to revise seizure protocols and to deploy measures to improve protocol implementation. Future research should also analyze process and outcome measures before and after the implementation of revised seizure protocols informed by the findings of this study.

Effectiveness of Prehospital Dual Sequential Defibrillation for Refractory Ventricular Fibrillation and Ventricular Tachycardia Cardiac Arrest.

Objective: Dual sequential defibrillation (DSD) - successive defibrillations with two defibrillators - offers a novel approach to refractory ventricular fibrillation (RVF) and tachycardia (VF/VT). While associated with rescue shock success, the effect of DSD upon out-of-hospital cardiac arrest (OHCA) is unknown. We evaluated the association of DSD with survival after refractory VF/VT OHCA. Methods: We used data from a large metropolitan fire-based EMS service. We included all adult OHCA during 2013-2016 with ≥3 standard defibrillations. Physicians authorized subsequent DSD use by two separate defibrillators (PhysioControl LIFEPAK® 12/15) with pads placed anterior-lateral and anterior-posterior. Evaluated outcomes included return of spontaneous circulation (ROSC), survival to hospital admission, survival to 72 hours, and survival to hospital discharge. Using multivariable logistic regression, we evaluated the association between defibrillation type and OHCA outcomes, adjusting for patient demographics and event characteristics. Results: We included 310 patients in the analysis, 71 patients receiving DSD and 239 receiving conventional defibrillation. Patient demographics and event characteristics were similar between both groups. ROSC was lower for DSD than standard defibrillation: 39.4% vs. 60.3%, adjusted OR 0.46 (95% CI: 0.25-0.87). There were no differences in survival to hospital admission (35.2% vs. 49.2%, adjusted OR 0.57 [95% CI: 0.30-1.08]), survival to 72 hours (21.4% vs. 32.3%, adjusted OR 0.52 [95% CI: 0.26-1.10]), or survival to hospital discharge (14.3% vs. 20.9%, adjusted OR 0.63 [95% CI: 0.27-1.45]). Conclusions: Compared with conventional defibrillation, DSD was associated with lower odds of prehospital ROSC. Defibrillation type was not associated with other OHCA endpoints. DSD may not be beneficial in refractory VF/VT OHCA.

Multicenter Analysis of Transport Destinations for Pediatric Prehospital Patients.

BACKGROUND: Although all emergency departments (EDs) should be ready to treat children, some may have illnesses or injuries that require higher-level pediatric resources that are not available at all hospitals. There are no national guidelines for emergency medical services (EMS) providers about when to directly transport children to hospitals with higher-level pediatric resources, with the exception of severe trauma. Variability exists in EMS protocols about when children warrant transport to hospitals with higher-level pediatric care. OBJECTIVE: The objective was to determine how frequently pediatric patients are transported by EMS to hospitals with higher-level pediatric resources and to evaluate distribution patterns based on illness and injury severity. METHODS: We conducted a retrospective analysis of all pediatric (age 0-18 years) transports in three large EMS systems between November 2014 and November 2016. Each community had a hospital with higher-level pediatric resources that was within a 30-minute transport time from any location. Patients were included if they were transported by ground ambulance and the request originated in the 9-1-1 system. We assessed the frequency of transports to a hospital with higher-level pediatric resources. Data were stratified by chief complaint of illness or injury and severity. Potential risk for severe injury was defined as meeting the physiologic step of the field triage guidelines and potential risk for severe illness was defined as having an abnormal vital sign after adjusting for patient age. RESULTS: A total of 41,345 pediatric patients were transported by a participating EMS agency to an ED and had complete destination data. A total of 55% of all EMS-transported pediatric patients were transported to a hospital with higher-level pediatric resources. There was variation by site (range = 45%-71%) in the percentage of children who went to a hospital with higher-level pediatric resources. Patients over 15 years of age went to general EDs (57%) more often than younger patients. When stratified by severity, 60% of those with potentially severe illness and 74% of those with potentially severe trauma were transported to a hospital with higher-level pediatric resources. CONCLUSIONS: EMS providers commonly transport children to hospitals with higher-level pediatric resources. However, more than one-quarter of children with potentially severe injuries and illnesses are transported to general EDs.

Implementation of a Prehospital Protocol Change For Asthmatic Children.

BACKGROUND: Respiratory distress due to asthma is a common reason for pediatric emergency medical services (EMS) transports. Timely initiation of asthma treatment, including glucocorticoids, improves hospital outcomes. The impact of EMS-administered glucocorticoids on hospital-based outcomes for pediatric asthma patients is unknown. OBJECTIVE: The objective of this study was to evaluate the effect of an evidence-based pediatric EMS asthma protocol update, inclusive of oral glucocorticoid administration, on time to hospital discharge. METHODS: This was a retrospective cohort study of children (2-18 years) with an acute asthma exacerbation transported by an urban EMS system to 10 emergency departments over 2 years. The investigators implemented an EMS protocol update one year into the study period requiring glucocorticoid administration for all patients, with the major change being inclusion of oral dexamethasone (0.6 mg/kg, max. dose = 10 mg). Protocol implementation included mandatory paramedic training. Data was abstracted from linked prehospital and hospital records. Continuous data were compared before and after the protocol change with the Mann-Whitney test, and categorical data were compared with the Pearson χ2 test. RESULTS: During the study period, 482 asthmatic children met inclusion criteria. After the protocol change, patients were more likely to receive a prehospital glucocorticoid (11% vs. 18%, p = 0.02). Median total hospital time after the protocol change decreased from 6.1 hours (95% CI: 5.4-6.8) to 4.5 hours (95% CI: 4.2-4.8), p < 0.001. Total care time, defined as time from ambulance arrival to hospital discharge, also decreased [6.6 hours (95% CI: 5.8-7.3) vs. 5.2 hours (95% CI: 4.8-5.6), p = 0.01]. Overall, patients were less likely to be admitted to the hospital (30% vs. 21%, p = 0.02) after the change. Those with more severe exacerbations were less likely to be admitted to a critical care unit (82% vs. 44%, p = 0.02) after the change, rather than an acute care floor. CONCLUSIONS: Prehospital protocol change for asthmatic children is associated with shorter total hospital and total care times. This protocol change was also associated with decreased hospitalization rates and less need for critical care in those hospitalized. Further study is necessary to determine if other factors also contributed.

Improving Prehospital Protocol Adherence Using Bundled Educational Interventions.

BACKGROUND: Seizures and anaphylaxis are life-threatening conditions that require immediate treatment in the prehospital setting. There is variation in treatment of pediatric prehospital patients for both anaphylaxis and seizures. This educational study was done to improve compliance with pediatric prehospital protocols, educate prehospital providers and decrease variation in care. OBJECTIVE: To improve the quality of care for children with seizures and anaphylaxis in the prehospital setting using a bundled, multifaceted educational intervention. METHODS: Evidence-based pediatric prehospital guidelines for seizures and anaphylaxis were used to create a curriculum for the paramedics in the EMS system. The curriculum included in-person training, videos, distribution of decision support tools, and a targeted social media campaign to reinforce the evidence-based guidelines. Prehospital charts were reviewed for pediatric patients with a chief complaint of anaphylaxis or seizures who were transported by paramedics to one of ten hospitals, including three children's hospitals, for 8 months prior to the intervention and eight months following the intervention. The primary outcome for seizures was whether midazolam was given via the preferred intranasal (IN) or intramuscular (IM) routes. The primary outcome for anaphylaxis was whether IM epinephrine was given. RESULTS: A total of 1,402 pediatric patients were transported for seizures by paramedics to during the study period. A total of 88 patients were actively seizing pre-intervention and 93 post-intervention. Of the actively seizing patients, 52 were given midazolam pre-intervention and 62 were given midazolam post-intervention. Pre-intervention, 29% (15/52) of the seizing patients received midazolam via the preferred IM or IN routes, compared to 74% (46/62) of the seizing patients post-intervention. A total of 45 patients with anaphylaxis were transported by paramedics, 30 pre-intervention and 15 post-intervention. Paramedics administered epinephrine to 17% (5/30) patients pre-intervention and 67% (10/15) patients post-intervention. CONCLUSION: The use of a bundled, multifaceted educational intervention including in-person training, decision support tools, and social media improved adherence to updated evidence-based pediatric prehospital protocols.

Areas of Potential Impact of the Patient Protection and Affordable Care Act on EMS: A Synthesis of the Literature.

INTRODUCTION: This comprehensive review synthesizes the existing literature on the Patient Protection and Affordable Care Act (ACA) as it relates to emergency medical services (EMS) in order to provide guidance for navigating current and future healthcare changes. METHODS: We conducted a comprehensive review to identify all existing literature related to the ACA and EMS and all sections within the federal law pertaining to EMS. RESULTS: Many changes enacted by the ACA directly affect emergency care with potential indirect effects on EMS systems. New Medicaid enrollees and changes to existing coverage plans may alter EMS transport volumes. Reimbursement changes such as adjustments to the ambulance inflation factor (AIF) alter the yearly increases in EMS reimbursement by incorporating the multifactor productivity value into yearly reimbursement adjustments. New initiatives, funded by the Center for Medicare & Medicaid Innovation are exploring novel and cost-effective prehospital care delivery opportunities while EMS agencies individually explore partnerships with healthcare systems. CONCLUSION: EMS systems should be aware of the direct and indirect impact of ACA on prehospital care due to the potential for changes in financial reimbursement, acuity and volume changes, and ongoing new care delivery initiatives.

Multicenter Evaluation of Prehospital Opioid Pain Management in Injured Children.

BACKGROUND: The National Association of Emergency Medical Services Physicians' (NAEMSP) Position Statement on Prehospital Pain Management and the joint National Highway Traffic Safety Administration (NHTSA) and Emergency Medical Services for Children (EMSC) Evidence-based Guideline for Prehospital Analgesia in Trauma aim to improve the recognition, assessment, and treatment of prehospital pain. The impact of implementation of these guidelines on pain management in children by emergency medical services (EMS) agencies has not been assessed. OBJECTIVE: Determine the change in frequency of documented pain severity assessment and opiate administration among injured pediatric patients in three EMS agencies after adoption of best practice recommendations. METHODS: This is a retrospective study of children <18 years of age with a prehospital injury-related primary impression from three EMS agencies. Each agency independently implemented pain protocol changes which included adding the use of age-appropriate pain scales, decreasing the minimum age for opiate administration, and updating fentanyl dosing. We abstracted data from prehospital electronic patient records before and after changes to the pain management protocols. The primary outcomes were the frequency of administration of opioid analgesia and documentation of pain severity assessment as recorded in the prehospital patient care record. RESULTS: A total of 3,597 injured children were transported prior to pain protocol changes and 3,743 children after changes. Opiate administration to eligible patients across study sites regardless of documentation of pain severity was 156/3,089 (5%) before protocol changes and 175/3,509 (5%) after (p = 0.97). Prior to protocol changes, 580 (18%) children had documented pain assessments and 430 (74%) had moderate-to-severe pain. After protocol changes, 644 (18%) patients had pain severity documented with 464 (72%) in moderate-to-severe pain. For all study agencies, pain severity was documented in 13%, 19%, and 22% of patient records both before and after protocol changes. There was a difference in intranasal fentanyl administration rates before (27%) and after (17%) protocol changes (p = 0.02). CONCLUSION: The proportion of injured children who receive prehospital opioid analgesia remains suboptimal despite implementation of best practice recommendations. Frequency of pain severity assessment of injured children is low. Intranasal fentanyl administration may be an underutilized modality of prehospital opiate administration.

Development and usage of wiki-based software for point-of-care emergency medical information.

OBJECTIVE: To describe the creation and evaluate the usage of the first medical wiki linked to dedicated mobile applications. METHODS: With the support of multiple current and past contributors, we developed an emergency medicine wiki linked to offline mobile applications (WikEM) in 2009. First deployment was at the Harbor-UCLA Medical Center emergency medicine residency program, with the wiki later opened to public use. To evaluate the project, we performed a post hoc analysis of system use and surveyed 8 years of current and past residents. Outcomes included website and application analytics, as well as survey analysis by composite response categories. RESULTS: Over the 6-year period of this project, the wiki grew to over 7250 pages and 45 500 edits. The website receives more than 85 000 user sessions per month, with over 150 million page views to date. There have been over 200 000 installs of the mobile applications, progressing to produce over 5000 mobile sessions daily. Of potential survey respondents, 87.7% (107) completed the Internet-based survey. Among those who contributed to the wiki, 74.6% reported that it benefited their understanding of core emergency medicine content. Of program graduates, the vast majority reported use of the wiki as a resource after residency (93.8%) along with improvement in clinical efficiency (89.7%). Residents reported higher use and a more favorable opinion of wiki usefulness compared to graduates (P < .001). CONCLUSIONS: A wiki paired with mobile applications is beneficial for resident education and useful in post-residency clinical practice.

2015 Pediatric Research Priorities in Prehospital Care.

BACKGROUND: Pediatric prehospital research has been limited, but work in this area is starting to increase particularly with the growth of pediatric-specific research endeavors. Given the increased interest in pediatric prehospital research, there is a need to identify specific research priorities that incorporate the perspective of prehospital providers and other emergency medical services (EMS) stakeholders. OBJECTIVES: To develop a list of specific research priorities that is relevant, specific, and important to the practice of pediatric prehospital care. METHODS: Three independent committees of EMS providers and researchers were recruited. Each committee developed a list of research topics. These topics were collated and used to initiate a modified Delphi process for developing consensus on a list of research priorities. Participants were the committee members. Topics approved by 80% were retained as research priorities. Topics that were rejected by more than 50% were eliminated. The remaining topics were modified and included on subsequent surveys. Each survey allowed respondents to add additional topics. The surveys were continued until all topics were either successfully retained or rejected and no new topics were suggested. RESULTS: Fifty topics were identified by the three independent committees. These topics were included on the initial electronic survey. There were 5 subsequent surveys. At the completion of the final survey a total of 29 research priorities were identified. These research priorities covered the following study areas: airway management, asthma, cardiac arrest, pain, patient-family interaction, resource utilization, seizure, sepsis, spinal immobilization, toxicology, trauma, training and competency, and vascular access. The research priorities were very specific. For example, under airway the priorities were: "identify the optimal device for effectively managing the airway in the prehospital setting" and "identify the optimal airway management device for specific disease processes." CONCLUSION: This project developed a list of relevant, specific, and important research priorities for pediatric prehospital care. Some similarities exist between this project and prior research agendas but this list represents a current, more specific research agenda and reflects the opinions of working EMS providers, researchers, and leaders. KEY WORDS: emergency medical technician; research; emergency medical services; priorities.

Supraglottic airways: the history and current state of prehospital airway adjuncts.

This review discusses the history, developments, benefits, and complications of supraglottic devices in prehospital care for adults and pediatrics. Evidence supporting their use as well as current controversies and developments in out-of-hospital cardiac arrest and rapid sequence airway management is discussed. Devices reviewed include the Laryngeal Mask Airway, Esophageal Tracheal Combitube, Laryngeal Tube, I-Gel, Air-Q, Laryngeal Mask Airway Fastrach, and the Supraglottic Airway Laryngopharyngeal Tube (SALT).