Simple triage and rapid treatment

Simple triage and rapid treatment (START) is a triage method used by first responders to quickly classify victims during a mass casualty incident (MCI) based on the severity of their injury. The method was developed in 1983 by the staff members of Hoag Hospital and Newport Beach Fire Department located in California, and is currently widely used in the United States.[1]

Classification

First responders using START evaluate victims and assign them to one of the following four categories:

The colors correspond to triage tags, which are used by some agencies to indicate each victim's status, although physical tags are not necessary if patients can be physically sorted into different areas.[3]

Responders arriving to the scene of a mass casualty incident may first ask that any victim who is able to walk relocate to a certain area, thereby identifying the ambulatory, or walking wounded, patients. Non-ambulatory patients are then assessed. The only medical intervention used prior to declaring a patient deceased is an attempt to open the airway. Any patient who is not breathing after this attempt is classified as deceased and given a black tag. No further interventions or therapies are attempted on deceased patients until all other patients have been treated. Patients who are breathing and have any of the following conditions are classified as immediate:

All other patients are classified as delayed.[1][2]

Treatment and Evacuation

After all patients have been evaluated, responders use the START classifications to determine priorities for treatment or evacuation to a hospital. The most basic way to use the START classifications is to transport victims in a fixed priority manner: immediate victims, followed by delayed victims, followed by the walking wounded.[2] More detailed secondary triage systems such as SAVE may also be used: in this case, the START classifications are used to determine the order in which victims should undergo secondary triage.[2][3]

START is not a system for determining resource allocation. The classification algorithm used in START does not depend on the number of victims or on the number of resources available to treat them, nor does using START alone provide any prioritization of patients within any of the four triage classes. Therefore, significant differences in implementation of treatment and evacuation may exist across different agencies using START.[4]

Modifications to START and Similar Triage Systems

Numerous agencies have developed modifications to START or new triage systems similar to START. One early proposed modification substituted the presence of a radial pulse for capillary refill in classifying patients as immediate.[3] The Fire Department of New York uses a modified version of START with an orange or "urgent" classification intermediate in severity between immediate and delayed.[5]

Modification for Pediatric Patients

START has also been modified to provide better treatment for children. One such modification is known as JumpSTART. There are several simple modifications to the adult version. The primary modification for use with pediatric patients is to change the "normal" respiratory rate: since children breathe faster than adults, JumpSTART assigns the immediate classification on the basis of respiratory rate only if the child's respiration is under 15 or over 45 per minute. Another change is in the apneic pediatric patient with a pulse the patient is given 5 breaths. If they resume breathing on their own they are tagged as "immediate". If they do not resume breathing on their own they are tagged deceased. Yet another needed bit of information is to decide who is a pediatric patient and who qualifies as an adult. This can quickly be decided by a rapid check for underarm hair development on boys and breast bud or any breast development on girls. If the age is known the age cut off for child versus adult is 8 years old.[2]

Similar Triage Systems

Other triage systems that are variations of or similar to START include Triage Seive, Pediatric Triage Tape, and CareFlite Triage.[2] Each of these systems uses four or five triage classes with the red, yellow, green, and black colors.

Limitations

There is no accepted measure to judge the appropriateness of any given system in mass casualty triage.[2] Like many other triage systems, START suffers from implementation problems such as substantial amounts of overtriage [6] One of the major strengths of START, its simplicity, is also a major limitation. Since START was developed, consensus has emerged that triage should be more sophisticated, by incorporating resource limitations and capacity in determining how to prioritize patients.[7][8]

See also

Notes

  1. 1 2 START Adult Triage Algorithm. Radiation Emergency Medical Management: REMM (US Department of Health and Human Services). http://www.remm.nlm.gov/startadult.htm
  2. 1 2 3 4 5 6 7 Lerner EB, Schwartz RB, Coule PL, et al. "Mass Casualty Triage: An Evaluation of the Data and Development of a Proposed National Guideline." Disaster Medicine and Public Health Preparedness 2(Suppl. 1) 2008, pp S25-S34.
  3. 1 2 3 Benson M, Koenig KL, Schultz CH. "Disaster Triage: START, then SAVE--A New Method of Dynamic Triage for Victims of a Catastrophic Event." Disaster Medicine and Public Health Preparedness 11(2) 1996, pp 117-124.
  4. Navin M, Sacco W, and Waddell R. Operational Comparison of the Simple Triage and Rapid Treatment Method and the Sacco Triage Method in Mass Casualty Exercises. Journal of Trauma Vol. 69 No. 1 July 2010 pp.215-225. http://journals.lww.com/jtrauma/pages/default.aspx
  5. Gonzalez, Dario; FDNY Office Of Medical Affairs (November 2011). "z MD, F.A.C.E.P" (PDF) 17 (11): 5–18. Retrieved 21 May 2012.
  6. Frykberg ER. "Triage: Principles and Practice." Scandinavian Journal of Surgery 94, 2005, pp 272-278
  7. Lerner EB, Cone DC, Weinstein ES. "Mass Casualty Triage: An Evaluation of the Science and Refinement of a National Guideline." Disaster Medicine and Public Health Preparedness 5, 2011, pp 129-137.
  8. Argon NT, Ziya S, Winslow JE. "Triage in the Aftermath of Mass-Casualty Incidents." Wiley Encyclopedia of Operations Research and Management Science. John Wiley & Sons, 2011 doi:10.1002/9780470400531.eorms0925

External links

This article is issued from Wikipedia - version of the Friday, March 11, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.