Optimizing Advanced Trauma Life Support (ATLS®) to Maximize Readiness.

INTRODUCTION: The Army utilizes Individual Critical Task Lists (ICTLs) to track and ensure competency and deployment readiness of its medical service members. ICTLs are the various skills and procedures that the Army has deemed foundational for each area of concentration (AOC)/military occupational specialty (MOS). While many ICTLs involve the patient care that military medical providers regularly provide, some procedures are not as commonly performed. This, when coupled with lower patient volume at military treatment facilities (MTF), poses a challenge for maintaining skill competency and deployment readiness. Fort Campbell's Blanchfield Army Community Hospital (BACH) has created a holistic and unique solution to meet many of these standardized requirements and support a ready medical force. By optimizing the Advanced Trauma Life Support (ATLS®) course curriculum to facilitate ICTL completion, BACH has increased its ICTL completion rates, ATLS® course exposure, and streamlined training requirements. The purpose of this article is to describe this best practice and suggest its applicability to other MTFs. MATERIALS AND METHODS: By cross-referencing the ATLS® course curriculum and appendices with ICTLs, BACH has augmented ATLS® course certification with the additional completion of 12 ICTLs. This new approach not only increases ICTL completion, but also increases ATLS® curriculum exposure to medical providers, such as Registered Nurses or Nurse Practitioners, who would not typically take ATLS®. RESULTS: Since starting this new approach in April 2021, 73 military medical personnel have completed the ATLS® course at BACH, with 24 different medical specialties represented. A total of 361 ICTLs have been completed with specific ICTL completion counts ranging from 13 to 48. Each ICTL tested was completed 100% of its annual requirement. CONCLUSION: ATLS® is a mandatory joint interoperability standard for military physicians and it is also an Army ICTL for many AOCs/MOSs. Only counting completion of this course as one ICTL is a missed opportunity for the time spent by Army medical providers and limits the exposure of ATLS® to select AOCs/MOSs. This optimized and novel approach has been successful at BACH, suggesting its applicability at other MTFs that serve as ATLS® testing sites.

Hemodynamically unstable non-compressible penetrating torso trauma: a practical surgical approach.

Penetrating torso trauma is the second leading cause of death following head injury. Traffic accidents, falls and overall blunt trauma are the most common mechanism of injuries in developed countries; whereas, penetrating trauma which includes gunshot and stabs wounds is more prevalent in developing countries due to ongoing violence and social unrest. Penetrating chest and abdominal trauma have high mortality rates at the scene of the incident when important structures such as the heart, great vessels, or liver are involved. Current controversies surround the optimal surgical approach of these cases including the use of an endovascular device such as the Resuscitative Endovascular Balloon Occlusion of the Aorta (REBOA) and the timing of additional imaging aids. This article aims to shed light on this subject based on the experience earned during the past 30 years in trauma critical care management of the severely injured patient. We have found that prioritizing the fact that the patient is hemodynamically unstable and obtaining early open or endovascular occlusion of the aorta to gain ground on avoiding the development of the lethal diamond is of utmost importance. Damage control surgery starts with choosing the right surgery of the right cavity in the right patient. For this purpose, we present a practical and simple guide on how to perform the surgical approach to penetrating torso trauma in a hemodynamically unstable patient.

El trauma penetrante del torso representa la segunda causa de muerte de origen traumático después del trauma craneoencefálico. En países desarrollados existe mayor prevalencia de trauma cerrado, asociado principalmente a accidentes de tránsito o caídas de grandes alturas. Mientas, que en países en vía de desarrollo el trauma penetrante es más prevalente con heridas por arma de fuego o por arma blanca asociado a la violencia y las desigualdades sociales. El trauma penetrante torácico y abdominal pueden presentar altas tasas de mortalidad en la escena del trauma si se comprometen estructuras importantes como el corazón, los grandes vasos o el hígado. Actualmente, existen controversias sobre el adecuado abordaje quirúrgico con la implementación o no de dispositivos endovasculares como el balón de resucitación endovascular de oclusión aórtica (Resuscitative Endovascular Balloon Oclussion of the Aorta - REBOA) y la realización de ayudas imagenológicas. El objetivo de este artículo es presentar el conocimiento sobre este tema, basado en la experiencia adquirida durante los últimos 30 años con el manejo del trauma, cirugía general y cuidado crítico. Sostenemos que en un paciente hemodinámicamente inestable se debe realizar una temprana oclusión aórtica endovascular o abierta con el objetivo de evitar el desarrollo o propagación del rombo de la muerte. Con este propósito, presentamos una guía práctica y sencilla sobre el abordaje quirúrgico del paciente hemodinámicamente inestable con trauma penetrante del torso.

Damage control surgery for splenic trauma: "preserve an organ - preserve a life".

The spleen is one of the most commonly injured solid organs of the abdominal cavity and an early diagnosis can reduce the associated mortality. Over the past couple of decades, management of splenic injuries has evolved to a prefered non-operative approach even in severely injured cases. However, the optimal surgical management of splenic trauma in severely injured patients remains controversial. This article aims to present an algorithm for the management of splenic trauma in severely injured patients, that includes basic principles of damage control surgery and is based on the experience obtained by the Trauma and Emergency Surgery Group (CTE) of Cali, Colombia. The choice between a conservative or a surgical approach depends on the hemodynamic status of the patient. In hemodynamically stable patients, a computed tomography angiogram should be performed to determine if non-operative management is feasible and if angioembolization is required. While hemodynamically unstable patients should be transferred immediately to the operating room for damage control surgery, which includes splenic packing and placement of a negative pressure dressing, followed by angiography with embolization of any ongoing arterial bleeding. It is our recommendation that both damage control principles and emerging endovascular technologies should be applied to achieve splenic salvage when possible. However, if surgical bleeding persists a splenectomy may be required as a definitive lifesaving maneuver.

El bazo es uno de los órganos sólidos comprometidos con mayor frecuencia en el trauma abdominal y el diagnóstico oportuno disminuye la mortalidad. El manejo del trauma esplénico ha cambiado considerablemente en las últimas décadas y hoy en día se prefiere un abordaje conservador incluso en casos de lesión severa. Sin embargo, la estrategia óptima para el manejo del trauma esplénico en el paciente severamente traumatizado aún es controvertida. El objetivo de este artículo es proponer una estrategia de manejo para el trauma esplénico en pacientes politraumatizados que incluye los principios de la cirugía de control de daños en base a la experiencia obtenida por el grupo de Cirugía de Trauma y Emergencias (CTE) de Cali, Colombia. La decisión entre un abordaje conservador o quirúrgico depende del estado hemodinámico del paciente. En pacientes hemodinámicamente estables, se debe realizar una tomografía axial computarizada con contraste endovenoso para determinar si es posible un manejo conservador y si requiere angio-embolización. Mientras que los pacientes hemodinámicamente inestables deben ser trasladados inmediatamente al quirófano para empaquetamiento esplénico y colocación de un sistema de presión negativa, seguido de angiografía con embolización de cualquier sangrado arterial persistente. Es nuestra recomendación aplicar conjuntamente los principios del control de daños y las tecnologías endovasculares emergentes para lograr la conservación del bazo, cuando sea posible. Sin embargo, si el sangrado persiste puede requerirse una esplenectomía como medida definitiva para salvaguardar la vida del paciente.

Estudo dos protocolos de traumatologia de lesão por projétil de arma de fogo: revisão de literatura / Study of the traumatology protocols for gunshot injuries: literature review

As armas de fogo são instrumentos letais que estão relacionados a uma grande quantia de homicídios no Brasil, além de traumas e violências. Assim, o atendimento pré-hospitalar e hospitalar é importante na tentativa de diminuir os índices de mortalidade por causas externas. Esta revisão de literatura teve como objetivo demonstrar as formas protocoladas de atendimento atuais a um paciente com trauma por projétil de arma de fogo (AU).

Firearms are lethal instruments that are related to a large amount of homicides in Brazil, as well as traumas and violence. Thus, pre-hospital and hospital care is important in the attempt to reduce mortality rates due to external causes. This literature review aimed to demonstrate the current protocol forms of care for a patient with gunshot wound. (AU)

Video Recordings to Analyze Preventable Management Errors in Pediatric Resuscitation Bay.

OBJECTIVE: In treating patients of different ages and diseases in the pediatric resuscitation bay, management errors are common. This study aimed to analyze the adherence to advanced trauma life support and pediatric advanced life support guidelines and identify management errors in the pediatric resuscitation bay by using video recordings. METHODS: Video recording of all patients admitted to the pediatric resuscitation bay at University Children's Hospital Zurich during a 13-month period was performed. Treatment adherence to advanced trauma life support guidelines and pediatric advanced life support guidelines and errors per patient were identified. RESULTS: During the study period, 128 patients were recorded (65.6% with surgical, 34.4% with medical diseases). The most common causes for admission were traumatic brain injury (21.1%), multiple trauma (20.3%), and seizures (14.8%). There was a statistically significant correlation between accurate handover from emergency medical service to hospital physicians and adherence to airway, breathing, circulation, and disability sequence (correlation coefficient [CC], 0.205; P = 0.021), existence of a defined team leader and adherence to airway, breathing, circulation, and disability sequence (CC, 0.856; P < 0.001), and accurate hand over and existence of a defined team leader (CC, 0.186; P = 0.037). Unexpected errors were revealed. Cervical spine examination/stabilization was omitted in 40% of admitted surgical patients, even in 20% of patients with an injury of spine/limbs. CONCLUSIONS: Video recording is a useful tool to evaluate patient management in the pediatric resuscitation bay. Analyzing errors of missing the adherence to the guidelines helps to pay attention and focus on specific items to improve patient care.

Effects of the application of a checklist during trauma resuscitations on ATLS adherence, team performance, and patient-related outcomes: a systematic review.

PURPOSE: In this systematic literature review, the effects of the application of a checklist during in hospital resuscitation of trauma patients on adherence to the ATLS guidelines, trauma team performance, and patient-related outcomes were integrated. METHODS: A systematic review was performed following the Preferred Reporting Items for Systematic Reviews and Meta-analyses checklist. The search was performed in Pubmed, Embase, CINAHL, and Cochrane inception till January 2019. Randomized controlled- or controlled before-and-after study design were included. All other forms of observational study designs, reviews, case series or case reports, animal studies, and simulation studies were excluded. The Effective Public Health Practice Project Quality Assessment Tool was applied to assess the methodological quality of the included studies. RESULTS: Three of the 625 identified articles were included, which all used a before-and-after study design. Two studies showed that Advanced Trauma Life Support (ATLS)-related tasks are significantly more frequently performed when a checklist was applied during resuscitation. [14 of 30 tasks (p < 0.05), respectively, 18 of 19 tasks (p < 0.05)]. One study showed that time to task completion (- 9 s, 95% CI = - 13.8 to - 4.8 s) and workflow improved, which was analyzed as model fitness (0.90 vs 0.96; p < 0.001); conformance frequency (26.1% vs 77.6%; p < 0.001); and frequency of unique workflow traces (31.7% vs 19.1%; p = 0.005). One study showed that the incidence of pneumonia was higher in the group where a checklist was applied [adjusted odds ratio (aOR) 1.69, 95% Confidence Interval (CI 1.03-2.80)]. No difference was found for nine other assessed complications or missed injuries. Reduced mortality rates were found in the most severely injured patient group (Injury Severity score > 25, aOR 0.51, 95% CI 0.30-0.89). CONCLUSIONS: The application of a checklist may improve ATLS adherence and workflow during trauma resuscitation. Current literature is insufficient to truly define the effect of the application of a checklist during trauma resuscitation on patient-related outcomes, although one study showed promising results as an improved chance of survival for the most severely injured patients was found.

Validating the ATLS Shock Classification for Predicting Death, Transfusion, or Urgent Intervention.

BACKGROUND: The Advanced Trauma Life Support (ATLS) shock classification has been accepted as the conceptual framework for clinicians caring for trauma patients. We sought to validate its ability to predict mortality, blood transfusion, and urgent intervention. MATERIALS AND METHODS: We performed a retrospective review of trauma patients using the 2014 National Trauma Data Bank. Using initial vital signs data, patients were categorized into shock class based on the ATLS program. Rates for urgent blood transfusion, urgent operative intervention, and mortality were compared between classes. RESULTS: 630,635 subjects were included for analysis. Classes 1, 2, 3, and 4 included 312,404, 17,133, 31, and 43 patients, respectively. 300,754 patients did not meet criteria for any ATLS shock class. Of the patients in class 1 shock, 2653 died (0.9%), 3123 (1.0%) were transfused blood products, and 7115 (2.3%) underwent an urgent procedure. In class 2, 219 (1.3%) died, 387 (2.3%) were transfused, and 1575 (9.2%) underwent intervention. In class 3, 7 (22.6%) died, 10 (32.3%) were transfused, and 13 (41.9%) underwent intervention. In class 4, 15 (34.9%) died, 19 (44.2%) were transfused, and 23 (53.5%) underwent intervention. For uncategorized patients, 21,356 (7.1%) died, 15,168 (5.0%) were transfused, and 23,844 (7.9%) underwent intervention. CONCLUSIONS: Almost half of trauma patients do not meet criteria for any ATLS shock class. Uncategorized patients had a higher mortality (7.1%) than patients in classes 1 and 2 (0.9% and 1.3%, respectively). Classes 3 and 4 only accounted for 0.005% and 0.007%, respectively, of patients. The ATLS classification system does not help identify many patients in severe shock.

Immersive simulation training at 6-week intervals for 1 year and multidisciplinary team performance scores: a randomized controlled trial of simulation training for life-threatening pediatric emergencies. / El efecto de las simulaciones inmersivas repetidas cada 6 semanas en la evolución del rendimiento de un equipo multidisciplinar durante un año: un ensayo controlado aleatorizado en situaciones pediátricas de riesgo vital.

OBJECTIVES: To demonstrate an effect of 1 year of training using immersive simulations repeated every 6 weeks versus every 6 months to improve the performance of multidisciplinary teams (MDTs) working with children in lifethreatening situations. MATERIAL AND METHODS: Randomized controlled trial in 12 MDTs of emergency responders in France. Each MDT consisted of 4 persons: a physician, a resident, a nurse, and the ambulance driver. Six MDTs participated in 9 different high-fidelity simulations of pediatric shock over the course of a year. Six control MDTs were presented with 3 of the experimental group's simulations at 3 time points (starting point, 6 months, and 1 year). Technical performance was assessed with the Team Average Performance Assessment Scale (TAPAS) and an intraosseous (IO) access performance scale. Nontechnical performance assessment instruments were the Clinical Teamwork Scale (CTS) and, for leadership, the Behavioral Assessment Tool (BAT). Progress over time was analyzed by comparing the 2 groups during the 3 simulations they experienced in common. RESULTS: Performance scores rose significantly over the study period in the experimental group (P=.01 for the TAPAS score, P=.008 for IO access, P=.03 for the CTS score, and P=.02 for the BAT score) but did not change in the control group (P=.46 for TAPAS, P=.55 for IO access, P=.62 for CTS, and P=.58 for BAT). All mean (SD) scores were higher in the experimental group than in the control group in the last session: TAPAS, 55.8 ± 6.3 vs 31.2 ± 10.3, P=.01; IO access, 91.7 ± 8.0 vs 62.9 ± 16.2, P=.01; CTS, 63.2 ± 9.3 vs 47.2 ± 13.1, P=.03; and BAT, 72.8 ± 5.1 vs 51.2 ± 14.3, P=.01). The 6-month assessment showed significant between-group differences on 2 technical performance measures (P=.02 for TAPAS and P=.03 for IO access); the experimental group's scores were higher. We also observed close correlations between the performance of the leader and the group on both nontechnical (rho > 0.9) and technical (rho > 0.7) assessments. CONCLUSION: Simulation-based training should be repeated more than 3 times per year. Our findings suggest the advisability of repeating simulations of infrequent, high-risk scenarios every 6 weeks to improve all performance scores and guarantee acceptable technical and nontechnical performance throughout the year.

OBJETIVO: Demostrar el efecto de simulaciones inmersivas repetidas cada 6 semanas, en comparación con su repetición cada 6 meses, sobre la evolución del rendimiento de un equipo multidisciplinar en situaciones pediátricas de riesgo vital durante un año. METODO: Ensayo controlado aleatorizado unicéntrico que incluyó 12 equipos multidisciplinares (EMD) del servicio de emergencias médicas (SEM) de Francia compuesto por 4 miembros (médico/residente/enfermera/conductor de ambulancia). En el grupo experimental, 6 EMD se enfrentaron a 9 escenarios diferentes de shock pediátrico en simulaciones de alta fidelidad durante un año. En el grupo de control, 6 EMD tuvieron 3 escenarios comunes a los del grupo experimental (inicial, intermedio ­después de seis meses­ y final ­después de un año­). Se evaluó el rendimiento técnico, mediante la Team Average Performance Assessment Scale (TAPAS) y la escala de rendimiento de acceso intraóseo (IO), y el no técnico, mediante la Clinical Teamwork Scale (CTS) y la Behavioral Assessment Tool (BAT) para los líderes. Se analizó la evolución en el tiempo y se compararon los dos grupos durante los simulacros comunes. RESULTADOS: Las puntuaciones del rendimiento se incrementaron significativamente a lo largo del tiempo en el grupo experimental (p = 0,01 para TAPAS, p = 0,008 para IO, p = 0,03 para CTS y p = 0,02 para BAT) en comparación con el grupo control (p = 0,46 para TAPAS, p = 0,55 para IO, p = 0,62 para CTS y p = 0,58 para BAT). Todas las puntuaciones fueron más altas en el grupo experimental que en el grupo control durante la última sesión (55,8 ± 6,3 vs 31,2 ± 10,3, p = 0,01 para TAPAS; 91,7 ± 8,0 vs 62,9 ± 16,2, p = 0,01 para IO, 63,2 ± 9,3 vs 47,2 ± 13,1, p = 0,03 para CTS; y 72,8 ± 5,1 vs 51,2 ± 14,3, p = 0,01 para BAT). Se observó una diferencia significativa en las dos escalas de puntuación de rendimiento técnico (p = 0,02 para TAPAS y p = 0,03 para IO) a favor del grupo experimental durante la sesión intermedia. También hubo una estrecha relación entre los rendimientos del líder y del equipo, tanto para el rendimiento no técnico (rho > 0,9) como el técnico (rho > 0,7). CONCLUSIONES: La formación basada en la simulación debería repetirse más de tres veces al año. Nuestros resultados favorecen la repetición de una situación poco común de alto riesgo cada seis semanas para mejorar todas las escalas de puntuación de rendimiento y garantizar puntuaciones aceptables de rendimiento técnico y no técnico durante un año.

Association Between Prearrival Notification Time and Advanced Trauma Life Support Protocol Adherence.

BACKGROUND: Prearrival notification of injured patients facilitates preparation of personnel, equipment, and other resources needed for trauma evaluation and treatment. Our purpose was to determine the impact of prearrival notification time on adherence to Advanced Trauma Life Support (ATLS) protocols. MATERIALS AND METHODS: Pediatric trauma activations of admitted patients were analyzed by video review to determine activities performed before and after patient arrival. Using an expert model based on ATLS, fitness scores were calculated that represented model adherence, ranging from "0" (noncompliant) to "100" (completely compliant). Multivariate regression was used to determine the association between fitness values of the evaluation phases and the length of prearrival notification time and injury profiles. RESULTS: Ninety-four patients met study criteria. The average overall fitness was 89.0 ± 7.3, with similar fitness values being observed for the primary and secondary surveys (91.5 ± 13.4 and 88.6 ± 7.7, respectively). Prearrival notification time ranged from 67.3 min before to 4.8 min after patient arrival. Longer prearrival notification time was associated with improved completion of prearrival tasks, overall resuscitation performance, and secondary survey performance. The positive association of overall and secondary survey fitness with notification time was no longer observed when notification time was <5 min and <10 min, respectively. Notification time was correlated with a higher percentage of required team members when the patient arrived (Pearson correlation coefficient 0.46, P < 0.001). CONCLUSIONS: Prearrival notification time has a significant impact on adherence to ATLS protocol. Strategies for improving notification time or improving performance when adequate notification cannot be achieved are needed.

Brister i systematiskt omhändertagande på olycksplatser - En studie av traumasimuleringar inom ambulanssjukvården.

Trauma care at an accident site is of great importance for patient survival. The purpose of the study was to observe the compliance of ambulance nurses with the Prehospital Trauma Life Support (PHTLS) concept of trauma care in a simulation situation. The material consisted of video recordings in trauma simulation and an observation protocol was designed to analyze the video material. The result showed weaknesses in systematic exam and an ineffective use of time at the scene of injury. Development of observation protocols in trauma simulation can ensure the quality of ambulance nurses' compliance with established concepts. Our pilot study shows that insufficiencies in systematic care lead to an ineffective treatment for trauma patients which in turn may increase the risk of complications and mortality.

The correlation between ATLS and junior doctors' anatomical knowledge of central venous catheter insertion at a major trauma centre in South Africa.

OBJECTIVE: To review the ability of junior doctors (JDs) in identifying the correct anatomical site for central venous catheterization (CVC) and whether prior Advanced Trauma Life Support (ATLS) training influences this. DESIGN: We performed a prospective, observational study using a structured survey and asked a group of JDs (postgraduate year 1 [PGY1] or year 2 [PGY2]) to indicate on a photograph the exact site for CVC insertion via the internal jugular (IJV) and the subclavian (SCV) approach. This study was conducted in a large metropolitan university hospital in South Africa. RESULTS: A total of 139 JDs were included. Forty-four per cent (61/139) were males and the mean age was 25 years. There were 90 PGY1s (65%) and 49 PGY2s (35%). Overall, 32% (45/139) were able to identify the correct insertion site for the IJV approach and 60% (84/139) for the SCV approach. Of the 90 PGY1s, 34% (31/90) correctly identified the insertion site for the IJV approach and 59% (53/90) for the SCV approach. Of the 49 PGY2s, 29% (14/49) correctly identified the insertion site for the IJV approach and 63% (31/49) for the SCV approach. No significant difference between PGY1 and 2 were identified. Those with ATLS provider training were significantly more likely to identify the correct site for the IJV approaches [OR=4.3, p=0.001]. This was marginally statistically significant (i.e. p>0.05 but <0.1) for the SCV approach. CONCLUSIONS: The majority of JDs do not have sufficient anatomical knowledge to identify the correct insertion site CVCs. Those who had undergone ATLS training were more likely to be able to identify the correct insertion site.

Standardizing the initial resuscitation of the trauma patient with the Primary Assessment Completion Tool using video review.

BACKGROUND: Major trauma resuscitations at pediatric trauma centers have an elevated risk for error because of their high acuity and relatively low frequency. The Advanced Trauma Life Support (ATLS) treatment paradigm was established to improve the management of trauma patients during the initial resuscitation phase and has been shown to improve outcomes through a standardized approach. The goal of this quality improvement project was to decrease assessment physician variability and improve the compliance with the ATLS primary assessment for major resuscitations. METHODS: A video review tool was developed to score the assessment physician on completion of the primary survey components using ATLS format. Interrater reliability and content validity were established for the tool. Data were collected through video review of the trauma response team in the emergency department for all Level 1 trauma alert activations with general consent. Chi-square and regression analyses were used to evaluate the data at 30 days, 6 months, and 1 year from the baseline period. RESULTS: A total of 142 patient videos were scored between July 28, 2015, and August 1, 2016. Eleven patients were reviewed during the baseline period, and only 9.1% of the total scores were ≥85. Thirty days following project implementation, 37.5% were ≥ 85. Six months following project implementation, 64.4% scored ≥85. One year following project implementation, 91.5% scored ≥85. These were statistically significant changes (p < .0001) with less variability over time. CONCLUSION: Effective leadership using a standardized approach during the trauma resuscitation has been found to have a positive effect on task completion and the overall functioning of the trauma team. This focused quality improvement project improved compliance with ATLS format and decreased variability by the assessment physician, potentially improving patient safety and outcomes. LEVEL OF EVIDENCE: Therapeutic/care management study, level IV.

Effect of training in advanced trauma life support on the kinematics of the spine: A simulation study.

More than 7.5 million people in the world are affected by spinal cord injury (SCI). In this study, we aimed to analyze the effect of training in advanced trauma life support (ATLS) on the kinematics of the spine when performing different mobilization and immobilization techniques on patients with suspected SCI. A quasi-experimental study, clinical simulation, was carried out to determine the effect of training in ATLS on 32 students enrolled in the Master's program of Emergency and Special Care Nursing. The evaluation was performed through 2 maneuvers: placing of the scoop stretcher (SS) and spinal board (SB), with an actor who simulated a clinical situation of suspected spinal injury. The misalignment of the spine was measured with the use of a Vicon 3D motion capture system, before (pre-test) and after (post-test) the training. In the overall misalignment of both maneuvers, statistically significant differences were found between the pre-test misalignment of 62.1°â€Š±â€Š25.9°, and the post-test misalignment of 32.3°â€Š±â€Š10.0°, with a difference between means of 29.7° [(95% confidence interval, 95% CI 22.8-36.6°), (P = .001)]. The results obtained for the placing of the SS showed that there was a pre-test misalignment of 65.1°â€Š±â€Š28.7°, and a post-test misalignment of 33.2°â€Š±â€Š10.1°, with a difference of means of 33.9° [(95% CI, 23.1-44.6°), (P = .001)]. During the placing of the SB, a pre-test misalignment of 59.0°â€Š±â€Š28.7° and a post-test misalignment of 33.4°â€Š±â€Š10.0° were obtained, as well as a difference of means of 25.6° [(95% CI 16.6-34.6°), (P = .001)]. The main conclusion of this study is that training in ATLS decreases the misalignment provoked during the utilization of the SS and SB, regardless of the device used.

Comparison of the Prehospital Trauma Life Support recommendations and the German national guideline on treatment of patients with severe and multiple injuries.

BACKGROUND: The Prehospital Trauma Life Support (PHTLS) concept is well established throughout the world. The aim is to improve prehospital care for patients with major trauma. In 2011, a German Level 3 (S3) evidence- and consensus-based guideline on the treatment of patients with severe and multiple injuries was published. The scope of this study was the systematic comparison between the educational content of the worldwide PHTLS concept and the German S3 Guideline. METHODS: A total of 62 key recommendations of the German S3 Guideline were compared with the content of the English PHTLS manual (eighth edition). Depending on the level of agreement, the recommendations were categorized as (1) agreement, (2) minor variation, or (3) major variation. Comparison was done via a rating system by a number of international experts in the field of out-of-hospital trauma care. The Delphi method was used to get the final statements by indistinct or board-ranged ratings. RESULTS: Overall, there was no conformity in 12%. In 68% a total agreement and in 88% conformity with slight differences of minor variations were found between the key recommendations of the guideline and the PHTLS manual. The PHTLS primary assessment has a large conformity for the following individual priorities: airway, 92%; breathing, 92%; circulation, 63%; disability, 100%; exposure, 89%. CONCLUSIONS: According to our comparison, the PHTLS manual is largely compatible with the German S3 Guideline from 2011. The 12% divergent statements concern mainly fluid resuscitation. Minor deviations in the prehospital care are due to a national guideline with an emergency medical service with emergency physicians (S3 Guideline) and a global PHTLS concept.

[Comparative characteristics of domestic and foreign means of the first aid on the battlefield and in the epicenter of emergency situation].

Comparative characteristics of domestic and foreign means of the first aid on the battlefield and in the epicentre of emergency situation. The results of comparative analysis of domestic and foreign means of the first aid on the battlefield and in the epicentre of emergency situation are presented. It was found that the first aid means used in the Armed Forces are effective and allow performing specified activities, regardless of the qualifications and assisting skills. Modern innovative means of providing emergency and urgent care may be used on the stages of medical evacuation of military and military hospitals.

MCQ tests in Advanced Trauma Life Support (ATLS©): Development and revision.

BACKGROUND: In Advanced Trauma Life Support (ATLS©) courses, multiple choice question (MCQ) tests are used to assess student's post course knowledge. As part of the ninth Edition Revision Process, existing MCQ tests were reviewed and revised by an International MCQ Revision group. The aim of this study was to evaluate the revision procedure and its effects. METHODS: Based on psychometric data and evidence based guidelines for adequate MCQ item and test development, a detailed stepwise approach was determined and followed to evaluate the existing MCQs, and to guide test item revision or replacement. RESULTS: The MCQ Revision group composed three new draft test versions comprising of 40 MCQs each. These were beta-tested among ATLS Instructors in various countries involved in ATLS. Psychometric analysis demonstrated that a minority of MCQ items required revision to create three equally balanced tests. After these final adjustments, a new set of three validated MCQ tests was available for use in 9th edition ATLS provider courses. Beta testing was performed using instructors but not students. The failure rate amongst students of ATLS provider courses increased significantly after introduction of the new MCQ tests. CONCLUSION: ATLS tests were revised and updated using current evidence based guidelines and psychometric analysis. Difficulty of the tests was not initially beta-tested on students. Increasing test item discrimination and quality resulted in lower test scores by students.

Open pneumothorax: the spectrum and outcome of management based on Advanced Trauma Life Support recommendations.

INTRODUCTION: The current management of open pneumothorax (OPTX) is based on Advanced Trauma Life Support (ATLS) recommendations and consists of the application of a three-way occlusive dressing, followed by intercostal chest drain insertion. Very little is known regarding the spectrum and outcome of this approach, especially in the civilian setting. MATERIALS AND METHODS: We conducted a retrospective review of 58 consecutive patients with OPTX over a four-year period managed in a high volume metropolitan trauma service in South Africa. RESULTS: Of the 58 patients included, 95% (55/58) were male, and the mean age for all patients was 21 years. Ninety-seven percent of all injuries were inflicted by knives and the remaining 3% (2/58) of injuries were inflicted by unknown weapons. 59% of injuries were left sided. In six patients (10%) a protocol violation was present in their management. Five of the six patients (83%) in whom protocol violation occurred developed a life-threatening event (tension PTX) compared to none amongst those where the protocol was followed (p < 0.001). There was no mortality as a direct result of management of OPTX following ATLS recommendations. CONCLUSIONS: ATLS recommendations for OPTX are safe and effective. Any deviation from this standard practice is associated with avoidable morbidity and potential mortality.

Decision making in trauma settings: simulation to improve diagnostic skills.

INTRODUCTION: In the setting of acute injury, a wrong, missed, or delayed diagnosis can impact survival. Clinicians rely on pattern recognition and heuristics to rapidly assess injuries, but an overreliance on these approaches can result in a diagnostic error. Simulation has been advocated as a method for practitioners to learn how to recognize the limitations of heuristics and develop better diagnostic skills. The objective of this study was to determine whether simulation could be used to provide teams the experiences in managing scenarios that require the use of heuristic as well as analytic diagnostic skills to effectively recognize and treat potentially life-threatening injuries. METHODS: Ten scenarios were developed to assess the ability of trauma teams to provide initial care to a severely injured patient. Seven standard scenarios simulated severe injuries that once diagnosed could be effectively treated using standard Advanced Trauma Life Support algorithms. Because diagnostic error occurs more commonly in complex clinical settings, 3 complex scenarios required teams to use more advanced diagnostic skills to uncover a coexisting condition and treat the patient. Teams composed of 3 to 5 practitioners were evaluated in the performance of 7 (of 10) randomly selected scenarios (5 standard, 2 complex). Expert rates scored teams using standardized checklists and global scores. RESULTS: Eighty-three surgery, emergency medicine, and anesthesia residents constituted 21 teams. Expert raters were able to reliably score the scenarios. Teams accomplished fewer checklist actions and received lower global scores on the 3 analytic scenarios (73.8% [12.3%] and 5.9 [1.6], respectively) compared with the 7 heuristic scenarios (83.2% [11.7%] and 6.6 [1.3], respectively; P < 0.05 for both). Teams led by more junior residents received higher global scores on the analytic scenarios (6.4 [1.3]) than the more senior team leaders (5.3 [1.7]). CONCLUSIONS: This preliminary study indicates that teams led by more senior residents received higher scores when managing heuristic scenarios but were less effective when managing the scenarios that require a more analytic approach. Simulation can be used to provide teams with decision-making experiences in trauma settings and could be used to improve diagnostic skills as well as study the decision-making process.

Impact of ATLS training on preventable and potentially preventable deaths.

BACKGROUND: Multiple trauma continues to have a high incidence worldwide. Trauma is the leading cause of death among people between the ages of 10 and 40. The Advanced Trauma Life Support (ATLS) is the most widely accepted method for the initial control and treatment of multiple trauma patients. It is based on the following hypothesis: The application of the ATLS program may reduce preventable or potentially preventable deaths in trauma patients. MATERIALS AND METHODS: The present article reports a retrospective study based on the records of prospectively evaluated trauma patients between January 2007 and December 2012. Trauma patients over the age of 18 admitted to the critical care unit or patients who died before hospital admission were included. A multidisciplinary committee looked for errors in the management of each patient and classified deaths into preventable, potentially preventable, or nonpreventable. We recorded the number of specialists at our center who had received training in the ATLS program. RESULTS: A total of 898 trauma patients were registered. The mean injury severity score was 21 (SD 15), and the mortality rate was 10.7 % (96 cases). There were 14 cases (14.6 %) of preventable or potentially preventable death. The main errors were delay in initiating suitable treatment and performing a computed tomography scan in cases of hemodynamic instability, followed by initiation of incorrect treatment or omission of an essential procedure. As the number of ATLS-trained professionals increases, the rates of potentially preventable or preventable death fall. CONCLUSIONS: Well-founded protocols such as the ATLS can help provide the preparation health professionals need. In our hospital environment, ATLS training has helped to reduce preventable or potentially preventable mortality among trauma patients.