Injuries are a major of cause of death and disability in the young. The advanced trauma management in the acute trauma cases is an important clinical practice to decrease the mortality. The Advanced Trauma Life Support (ATLS) course teaches a systematic, concise approach to the early care of the trauma patient in America. The ATLS course is vital to administering care for the injured patient in emergency department trauma rooms. The program has been adopted worldwide in over 60 countries, especially outside North America. The purpose of ATLS course is to orient physicians to the initial immediate assessment and resuscitation of the injured patient. The content and skills presented by the materials are designed to assist physicians in providing the first hour of emergency care for trauma patient. It is time to set up the guideline of advanced trauma management and adopt a standard training program which aligns more precisely with practice and needs of Korean doctors.
Advanced Trauma Life Support Care ; Americas ; Cause of Death ; Emergencies ; Emergency Medical Services ; Humans ; North America ; Resuscitation

The traditional approach to treatment of posttraumatic hypotension generally follows the principle of aggressive fluid resuscitation espoused by the American College of Surgeons in its Advanced Trauma Life Support course. A number of reports published in the last decade however, have questioned the safety and clinical appropriateness of this traditional approach, with recent data demonstrating support for delayed or limited resuscitation. This review discusses the controversies and presents recommendations for the ideal resuscitation strategy for the Filipino trauma patient with hypotension. (Author)

Among the deaths from trauma, 50% were dead at the scene, 30% in several hours, and 20% in a few weeks by multiple organ failure. The 30% occurring in several hours may be saved with rapid assessment and management of injuries. Trauma deaths could be reduced through an organized trauma system and standardized and systemic approach by physicians involved in the initial assessment and management of trauma. This is likely to present emergent and general traumatic care to increase the ability of treating trauma patients on the base of Advanced Trauma Life Support (ATLS) by the American College of Surgeons (ACS). Thus, both legal and systemic reform with an establishment of trauma centers or use of the ATLS program in intra-hospital trauma team is necessary to maximize operation of the medical team. Introduction of and emphasis on the skill oriented ATLS program in the medical school curriculum is also needed to prepare for real situations rather than knowledge-orientated education.
Advanced Trauma Life Support Care* ; Curriculum ; Education ; Humans ; Multiple Organ Failure ; Resuscitation ; Schools, Medical ; Trauma Centers ; Triage

PURPOSE: The usefulness of focused abdominal sonography for trauma (FAST) is now included in the frame work of the advanced trauma life support for examination of thoraco- abdominal trauma. Ultrasonographic screening is controversial in patients with hollow viscus injury. The purpose of this study is to determine the characteristics of emergency trauma sonographic findings in patients with hollow viscus injury. METHODS: All patients with isolated viscus injury after blunt abdominal trauma were retrospectively enrolled in this study during the 5-year period from December 1997 to November 2002. The patients were screened by using ultrasonography and an underwent explolaparotomy. The patients were diagnosed with a hollow viscus injury based on the surgical findings. Patients with viscus injury combined with parenchymal organ injury after abdominal trauma were excluded. Ultrasonographic examinations were performed by the experienced emergency physicians during the trauma resuscitation. RESULTS: Sixty patients were included in this study. The most common injury site was jejunum (23.3%). The common findings of emergency trauma sonography were free fluid collection (56.7%), none of fluid collection (38.3%), free air and fluid collection (3.3%), and free air (1.7%). The presence of mesenteric injury was significantly associated with fluid collection (x2=0009). CONCLUSION: The most common sonographic findings in hollow viscus injury patients after blunt abdominal trauma are free intraperitoneal fluid (anechoic or mixed echo pattern), normal, and free air (reverberation) in that order. Massive intraperitoneal fluid is more often detected in patients who have a viscus injury combined with a ruptured mesenteric vessel.
Abdominal Injuries ; Advanced Trauma Life Support Care ; Emergencies ; Humans ; Intestines ; Jejunum ; Mass Screening ; Resuscitation ; Retrospective Studies ; Ultrasonography ; Wounds, Nonpenetrating

OBJECTIVESince appropriate and time-table methods in trauma care have an important impact on patients'outcome, we evaluated the effect of Advanced Trauma Life Support (ATLS) program on medical interns' performance in simulated trauma patient management.

METHODSA descriptive and analytical study before and after the training was conducted on 24 randomly selected undergraduate medical interns from Imam Reza Hospital in Mashhad, Iran. On the first day, we assessed interns' clinical knowledge and their practical skill performance in confronting simulated trauma patients. After 2 days of ATLS training, we performed the same study and evaluated their score again on the fourth day. The two findings, pre- and post- ATLS periods, were compared through SPSS version 15.0 software. P values less than 0.05 were considered statistically significant.

RESULTSOur findings showed that interns'ability in all the three tasks improved after the training course. On the fourth day after training, there was a statistically significant increase in interns' clinical knowledge of ATLS procedures, the sequence of procedures and skill performance in trauma situations (P less than 0.001, P equal to 0.016 and P equal to 0.01 respectively).

CONCLUSIONATLS course has an important role in increasing clinical knowledge and practical skill performance of trauma care in medical interns.

OBJECTIVE: Focused assessment with sonography for trauma (FAST) is used routinely for evaluating patients with major trauma. After a primary survey, the existence of hemoperitoneum or hemopericardium must be searched using FAST. Traditionally, hemopericardium can be assessed through the subcostal approach with the curved probe for the abdomen. On the other hand, satisfactory images (four chamber view) are difficult to obtain with this approach. METHODS: This was a prospective, single-center pilot study of an academic tertiary medical center. When FAST is performed on the patients, traditional FAST (subcostal approach with the curved probe) is generally conducted. During a FAST examination, the time consumed, numeric rating scale (NRS) for pain, and success rate of satisfactory images are recorded. After the traditional FAST was used, we used the curved probe like echo probe. The curved probe was positioned beside the left nipple with the probe marker opposite-sided (modified FAST) like the parasternal long-axis view of echocardiography. Finally, the existence of hemopericardium is confirmed using an echo probe. In this study, the consumed time, NRS, and success rate of satisfactory images were compared. RESULTS: The consumed time was shorter (57.4 vs. 71.2 seconds, P<0.001) and the pain score was lower (0.1 vs. 1.8, P<0.001) with the modified FAST compared to the traditional FAST. Satisfactory images were obtained in 23 cases (51%) with traditional FAST, whereas satisfactory images were obtained in 37 cases (82%) using modified FAST. CONCLUSION: Mvodified FAST is more accurate for the detection of hemopericardium than traditional FAST. The pain is less severe and the time consumed is shorter.
Abdomen ; Advanced Trauma Life Support Care ; Echocardiography ; Hand ; Hemoperitoneum ; Humans ; Nipples ; Pericardial Effusion ; Pilot Projects ; Prospective Studies ; Ultrasonography

PURPOSE: Major trauma patients should be transferred to a definitive care facility as early as possible because prompt management will prevent death. This study was designed to discover the obstacles leading to delayed transfers under the current emergency medical system in Korea and whether there are any negative outcomes associated with conducting procedures at primary care hospitals prior to transferring patients to higher levels of care. METHODS: The medical records of major trauma patients with an Injury Severity Score above 15 within the past year were reviewed. Patients were divided three groups as follows: (A) came directly to our emergency center, (B) were transferred without CT or MRI scan at the primary care hospital and (C) transferred with CT or MRI scans. The transfer time of each group were compared and analyzed statistically. Additionally, the number and type of imaging performed at the primary care hospital were analyzed. RESULTS: All qualified patients (n=276) were enrolled in this study: 121 patients in group A; 104 in group B; 51 in group C. There was a statistically significant difference in the transfer time between the three groups (p-value<0.001), and 79 (28.6%) were transferred to an emergency medical center within one hour. In group C, CT or MRI scans were performed an average of 1.86 times at the primary care hospital, and the median transfer time was 4 hours 5 minutes. CONCLUSION: Only 28.6% of the cases in the study arrived within the golden hour at a definitive care facility. Such delays are in part the result of prolonged times at the primary care hospital for radiologic examinations, such as CT or MRI scans. Major multiple trauma patients should be transferred to a definitive care facility directly or as soon as the primary survey and the resuscitation of Advanced Trauma Life Support guideline are completed at the primary care hospital.
Advanced Trauma Life Support Care ; Emergencies ; Humans ; Injury Severity Score ; Korea ; Magnetic Resonance Imaging ; Medical Records ; Multiple Trauma ; Porphyrins ; Primary Health Care ; Resuscitation

The educational courses for trauma care are stratified into two classes. The first is the Advanced Trauma Life Support (ATLS) course, which is sponsored by the Committee on Trauma (COT) of the American College of Surgeons (ACS) and whose target learners are the surgeons who treat the victims of major trauma. The second is the Basic Trauma Life Support (BTLS) course, which is sponsored by the American College of Emergency Physicians (ACEP) and whose target learners are the pre-hospital healthcare providers, the nurses in emergency rooms, and the emergency physicians who provide emergency care to the victims of major trauma in the accident scene or in the emergency room before the trauma surgeons. The Emergency Medical Service System (EMSS) of Korea is managing to do its work somewhat well when it functions in the medical emergency situations. However, when it encounters with major trauma patients, it can rarely keep the principles of trauma care, such as the 'Golden Hour' and 'the rapid transportation to an appropriate trauma center directly' due to its systemic failure. Therefore the Preventable Death Rate (PDR) of major trauma patients is presumed to be very high in Korea. To rebuild the EMSS of Korea into a new system suitable for major trauma, the Korean Healthcare Administrations should start to lead the legislation and the support for trauma centers and trauma experts. The spread of the educational courses for trauma care into the emergency medical societies can be a starting point to solve the problem. The BTLS course is one of them.
Advanced Trauma Life Support Care ; Delivery of Health Care ; Emergencies ; Emergency Medical Services ; Emergency Service, Hospital ; Health Personnel ; Humans ; Korea ; Mortality ; Societies, Medical ; Transportation ; Trauma Centers

Recently burn care system in Korea has been changing from 'general care' to 'specialized care'. Consequently, most physicians and surgeons who do not work in burn centers could rarely have an opportunity to gain experience in burn care. Before being transferred to a burn center, every burn patient is usually treated primarily by the non-experts. Therefore, all primary physicians need to know the primary care for burns. The main components of the primary care are pre-hospital care, emergency room (ER) care, and decision-making process for the transfer of the patients to a burn center. Pre-hospital care and ER care are on the same spectrum, and composed of the advanced trauma life support (ATLS) primary survey, wound cooling, pain control, fluid therapy, high concentration oxygen therapy, cyanide antidote therapy, and burn wound care including escharotomy. Rapid and proper management for smoke inhalation is essential for acute stage survival of burn patients. Once the patient is stabilized, a decision regarding his/her disposition to a burn center is critical. Inappropriate transfer of minor burn patients to burn centers imposes unnecessary cost and discomfort to the patients. The primary care for burns is very important and medical personnel who are in charge of burn patients should be familiar with it.
Advanced Trauma Life Support Care ; Burn Units ; Burns ; Emergencies ; Fees and Charges ; Fluid Therapy ; Humans ; Inhalation ; Korea ; Oxygen ; Primary Health Care ; Smoke

Bedside ultrasonographic examination is known to be a quick, noninvasive, cost-effective, repeatable, and harmless diagnostic modality. It can be a powerful tool for clinicians, especially in time-dependent situations including trauma. Focused assessment with sonography in trauma (FAST) has been established as a protocol especially specifically for hemodynamically unstable patients with blunt abdominal trauma. The physiologic priority of airway, breathing, circulation, and disability (ABCD) of injured patients should be assessed using a multi-systemic, multi-focused, problem-based, and point-of-care ultrasound as an extension of physical examination. This ultrasound-enhanced trauma life support, so called FAST-ABCD, can provide a great deal of important information for helping the primary physician in critical decision-making by systemically combining the airway, lung, cardiovascular, abdominopelvic, orbital, and transcranial ultrasound. Additionally, it can provide information on airway patency, guidance of endotracheal intubation and cricothyroidotomy, lung contusion, limited hemodynamics, differential diagnosis of shock, intracranial hypertension, and even more extensively on a secondary survey from head to toe. The indications for the utility of ultrasound in trauma continue to evolve beyond FAST. FAST-ABCD could be incorporated into advanced trauma life support by obtaining more evidence through more studies worldwide.
Advanced Trauma Life Support Care ; Contusions ; Diagnosis, Differential ; Head ; Hemodynamics ; Humans ; Intracranial Hypertension ; Intubation, Intratracheal ; Lung ; Orbit ; Physical Examination ; Respiration ; Shock ; Toes