Selasa, 29 April 2008

Advanced Trauma Life Support (ATLS)

Advanced Trauma Life Support (ATLS) is a training program for doctors in the management of acute trauma cases, developed by the American College of Surgeons. The program has been adopted worldwide in over 30 countries; its goal is to teach a simplified and standardized approach to trauma patients. Originally, it was designed for emergency situations where only one doctor and one nurse are present, but nowadays, ATLS is also widely accepted as the standard of care for the initial assessment and treatment in trauma centers. There is no clear evidence that ATLS training impacts on the outcome for victims of trauma.

HISTORY

ATLS has its origins in the United States in 1976, when orthopaedic surgeon Dr. James K. Styner, piloting a light aircraft, crashed his plane into a field in Nebraska. His wife was killed instantly and three of his four children received critical injuries. He carried out the initial triage of his children at the crash site. Dr. Styner had to flag down a car to transport him to the nearest hospital; upon arrival, he found it closed. Even once the hospital was opened and a doctor called in, he found that the emergency care provided at the small regional hospital where they were treated was inadequate and inappropriate.

Upon returning to work, he set about developing a system for saving lives in medical trauma situations. Jim Styner and his colleague Paul 'Skip' Collicott, with assistance from Advanced Cardiac Life Support personnel and the Lincoln Medical Education Foundation, produced the initial ATLS course which was held in 1978. In 1980 the American College of Surgeons Committee on Trauma adopted ATLS and began US and international dissemination of the course. Jim himself recently recertified as an ATLS instructor teaching his Instructor Candidate course in Nottingham UK and subsequently going on to teach in the Netherlands. This follows on from his talk on the birth of ATLS at the American College of Surgeons

Since its inception, ATLS has become rather standard for trauma care in American emergency departments and advanced paramedical services. Since emergency physicians, paramedics and other advanced practitioners use ATLS as their model for trauma care it makes sense that programs for other providers caring for trauma would be designed to interface well with ATLS. The Society of Trauma Nurses has developed the Advanced Trauma Care for Nurses (ATCN) course for Registered Nurses. ATCN meets concurrently with ATLS and shares some of the lecture portions. This approach allows for medical and nursing care to be well coordinated with one another as both the medical and nursing care providers have been trained in essentially the same model of care. Similarly, the National Association of Emergency Medical Technicians has developed the Prehospital Trauma Life Support (PHTLS) course for basic Emergency Medical Technicians (EMT)s. This course is based around ATLS and allows the PHTLS-trained EMTs to work alongside paramedics and to transition smoothly into the care provided by the ATLS and ATCN-trained providers in the hospital.


PRIMARY SURVEY

The first and key part of the assessment of patients presenting with trauma is called the primary survey. During this time, life-threatening injuries are identified and simultaneously resuscitation is begun. A simple mnemonic, ABCDE, is used as a memory aid as to the order in which problems should be addressed.
A Airway Maintenance with Cervical Spine Protection
B Breathing and Ventilation
C Circulation with Hemorrhage Control
D Disability (Neurologic Evaluation)
E Exposure and Environment

A - Airway Maintenance with Cervical Spine Protection

The first stage of the primary survey is to assess the airway. If the patient is able to talk, the airway is likely to be clear. If the patient is unconscious, he/she may not be able to maintain his/her own airway. The aiway can be opened using a chin lift or jaw thrust. Airway adjuncts may be required. If the airway is blocked (e.g, by blood or vomit), the fluid must be cleaned out of the patient's mouth.

At the same time, the cervical spine must be maintained in the neutral position to prevent secondary injuries to the spinal cord. The neck should be immobilised using a semi-rigid cervical collar, blocks and tape.

B - Breathing and Ventilation

The chest must be examined by inspection, palpation, percussion and auscultation. Surgical emphysema and tracheal deviation must be identified if present. Life-threatening chest injuries, including tension pneumothorax, open pneumothorax, flail chest and massive haemothorax must be identified and rapidly treated. Flail chest, penetrating injuries and bruising can be recognised by inspection.

C - Circulation with Hemorrhage Control

Hemorrhage is the predominant cause of preventable postinjury deaths. Hypotension following injury must be assumed to to be due to blood loss until proven otherwise. Haemorrhagic shock is caused by significant blood loss. 2 large bore intravenous line are established and crystalloid solution given. If the patient does not respond to this, type-specific blood, or O-negative if this is not available, should be given . External bleeding is controlled by direct pressure. Occult blood loss may be into the chest, abdomen, pelvis or from the long bones. Chest or pelvic bleeding may be identified on X-ray. Bleeding into the peritoneum may be diagnosed on ultrasound (FAST scan), CT (if stable) or diagnostic peritoneal lavage.

D - Disability (Neurologic Evaluation)

A rapid neurological evaluation is performed at the end of the primary survey. This establishes the patient's level of consciousness, pupillary size and reaction, lateralizing signs, and spinal cord injury level.

The Glasgow Coma Scale is a quick method to determine the level of consciousness, and is predictive of patient outcome. If not done in the primary survey, it should be performed as part of the more detailed neurologic examination in the secondary survey. An altered level of consciousness indicates the need for immediate reevaluation of the patient's oxygenation, ventilation, and perfusion status. Hypoglycemia, and drugs including alcohol, may also influence the level of consciousness. If these are excluded, changes in the level of consciousness should be considered to be due to traumatic brain injury until proven otherwise.

E - Exposure / Environmental control

The patient should be completely undressed, usually by cutting off the garments. It is imperative to cover the patient with warm blankets to prevent hypothermia in the emergency department. Intravenous fluids should be warmed and a warm environment maintained. Patient privacy should be maintained while exposing by closing curtains.

SECONDERY SURVEY

When the primary survey is completed, resuscitation efforts are well established, and the vital signs are normalizing, the secondary survey can begin.

The secondary survey is a head-to-toe evaluation of the trauma patient, including a complete history and physical examination, including the reassessment of all vital signs. Each region of the body must be fully examined. X-rays indicated by examination are obtained.

If at any time during the secondary survey the patient deteriorates, another primary survey is carried out as a potential life threat may be present.

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