April 12, 2013:
In the last two centuries major wars have tended to produce significant improvements in medical care. This is what has happened in the past decade. Since September 11, 2001, 2.2 million American troops went off to war and about two percent of them were killed or wounded. Only 12 percent of the 57,000 combat zone injuries were fatal, the lowest percentage in military history. This was largely due to major improvements in dealing with rapid blood loss (as when a major artery is severed) and the increased speed with which complex medical care could be delivered to wounded troops. New medical technologies also made it possible to detect injuries (like brain trauma) that, in the past, was very difficult to detect and treat.
Preventing death from rapid blood loss was achieved with the development and widespread use of powders and granules that could quickly stop the bleeding. First came special bandages like the Chitosan Hemostatic Dressing (more commonly called HemCon). This was basically a freeze dried substance that caused rapid clotting of blood and was incorporated into what otherwise looked like a typical battlefield bandage. But these greatly reduced bleeding (which had become the most common cause of death among wounded American troops). This device was a major breakthrough in bandage technology. Over 95 percent of the time, the HemCon bandages stopped bleeding, especially in areas where a tourniquet could not be applied.
Then came WoundStat powder to deal with bleeding that HemCon could not handle. While medics, and troops, prefer the bandage type device, there are situations where WoundStat (a fine granular substance) is a better solution (especially in the hands of a medic). Only the medics got packets (usually two) of Woundstat powder. That's because this is only needed for deep wounds and has a theoretical risk of causing fatal clots if it gets into the bloodstream.
WoundStat was but one of many new medical tools for battlefield medicine that greatly increased the effectiveness of the immediate (within minutes or seconds after getting hit) medical care for troops. This effort consisted of three programs. First, there was the development of new medical tools and treatments that troops could be quickly and safely be taught to use. Then came the equipping of medics (about one for every 30 or so combat troops) with more powerful tools, so that troops were less likely to bleed to death or suffocate from certain types of wounds that are not fatal if treated quickly enough. Finally, there was the Combat Lifesaver program, which more than tripled the number of "medics" by putting some soldiers through a 40 hour CLS (Combat Lifesaver) course in the most common medical procedures soldiers can perform to deal with the most dangerous types of wounds usually encountered. These CLS trained soldiers are not medics, of course, but they do make available in combat crucial medical treatments. Thus they are sort of "medics lite," which is close enough if you are badly wounded and in need of some prompt medical treatment.
The Combat Lifesaver course teaches the troops how to do things like insert breathing tubes and other emergency surgical procedures to restore breathing. The CLS troops have skills most likely to be needed in lifesaving situations, when a medic is not available. The additional emergency medical training, and new emergency first aid gear (the "CLS bag"), has saved hundreds of lives and reduced the severity of even more wounds. Enough troops have taken CLS training so that there is one for every 10-15 combat troops and one for every 20 or so support troops on convoy or security duty.
These new developments were also popular with civilian emergency medical services, and many of the experienced combat medics coming out of the military went to work as EMTs (Emergency Medical Technicians), thus increasing the quality of care for civilian accident victims. This was similar to what happened to the EMT field after the Vietnam War, when ambulance crews rapidly evolved from simply transporting accident victims, after a little first aid, to EMTs who could administer procedures that previously only doctors could handle. This followed the experience in World War II, where war demands led to development of mass production of the newly created antibiotics and that led to a revolution in surgery techniques.
Then there was brain trauma, something that, until quite recently, was not even recognized as a “wound” or “injury.” These injuries can be inflicted by a severe bump on the head or being close to an explosion. Because of better diagnostic tools and techniques, many other combat zone injuries could now be measured as well. These included 253,330 cases of traumatic brain injury (more commonly called concussion) and 103,792 cases of PTSD (Post Traumatic Stress Disorder) that were discovered among combat veterans since September 11, 2001. In the past these conditions were not considered “wounds” in the same sense as something that made the victim bleed. This was despite the fact that many soldiers were put out of action temporarily because of concussion and PTSD.
Physical injuries to the brain can now be detected using more precise instruments like MRI and can often be treated. In the last six years it has become clear that there are several sources of PTSD (post-traumatic stress disorder) and concussions from explosions were more of a factor than previously thought. Many troops, because of exposure to roadside bombs and battlefield explosions in general, developed minor concussions that, like sports injuries, could turn into long term medical problems. Often these concussions were accompanied by some PTSD. Examining medical histories of World War II, Korea, and Vietnam War vets showed a pattern of later medical problems among many concussion victims. The same pattern has been found among athletes and accident victims who suffered concussions. Roadside bombs are only one of several sources of concussions. Military medicine experts believed that roadside bombs were by far the biggest source of these concussions and the resulting brain injuries.