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Triage From Afar: Star Trek and Emergency Medicine

Multiple casualties in the tactical environment or a disaster area that exceed both human and materiel resources require rescuers to triage rapidly, so the limited resources may be used for the most critical casualties. In the tactical environment, one may have to do so under fire, thereby increasing the chance of sustaining injury. In disaster zone, precious time may be wasted by attempting to access and treat vocal casualties, while delaying treatment for higher priority patients. Nonetheless, current methods for triage require rescuers to assess casualties one-on-one, delaying further the time to locate, triage and treat the most critical. A recent article in The Army Department Medical Journal succinctly captured the crux of problem noting:

Physiologic status assessment in casualties can be problematic in the military setting, where physical access to the injured individual may be complicated by terrain, weather and hostile action. Likewise, some civil sector settings may challenge first responders, particularly when victims are located remotely. The lack of a remote triage capability may therefore result in the medic attending to either a) a Soldier who is uninjured but caught in the vicinity of combat; or b) a Soldier under severe fire who has an injury that is deemed unsalvageable. Indeed, a combat medic may place himself in harm’s way to assist a Soldier who may not even be injured or may be unsalvageable. Data collected during the Vietnam War indicate that the fatality rate of US Army medics was double that seen in infantrymen.1

There is an initiative to remedy this situation within the Departments of Defense and Homeland Security. DHS, in cooperation with Boeing and Washington’s School of Medicine in St. Louise, developed a “Standoff Patient Triage Tool” in 2009 that allows a rescuer to assess pulse, body temperature and respiration. As the article from Science Daily notes, “The magic behind SPTT is a technology known as Laser Doppler Vibrometry, which has been used in aircraft and automotive components, acoustic speakers, radar technology, and landmine detection. When connected to a camera, the vibrometer can measure the velocity and displacement of vibrating objects. An algorithm then converts those data points into measurements emergency medical responders can use in their rapid assessment of a patient’s critical medical conditions.”2 Although the technology is not yet available, it is an interesting approach.

In addition to the above-mentioned, the US Army is currently seeking technologies that will allow them to have stand-off monitoring capabilities. Researchers seek to assemble a system that is functional from a human factors perspective (i.e., Soldiers will wear it and it will not hindered the mission) and useful with regard to discerning physiological signs of hemorrhage from normal combat stress. For instance, mental status and blood pressure, while useful, are unreliable indicators of hemo-dynamic stability.1 Moreover, they take time to gather. Researchers have therefor sought other “markers” that one can use to discern hemorrhage from stress. To this end, they investigated ECG readings, which can be attained remotely. Unfortunately, the readings are not sensitive enough. Another alternative is using “energy monitors” and algorithms that can detect physiological changes. The challenges are many, however. Location of monitors, for example, require Soldiers to have an uninjured limb. In the age of IEDs, this may be difficult, though researches found that in all but 6% of reported casualties an arm was viable for monitoring.

While technological challenges remain, the ability to quickly triage casualties in a tactical or civil disaster scenario is becoming more likely. Although these futuristic Star Trek device or Soldier-worn monitors lack feasibility currently, researchers are getting closer.

Article:Triage Tech
References:

1. Ryan K, Rickards C, et al. Advanced Technology Development for Remote Triage Applications in Bleeding Combat Casualties. The Army Medical Department Journal. 2011;4/5/6:61-71.

2. Department of Homeland Security. “Triage Technology With A Star Trek Twist: Tricorder-like Device.” ScienceDaily, 1 Jun. 2009. Web. 8 Nov. 2012.

Needle Decompression Location Reviewed

We have discussed the changing thoughts regarding the sign and symptoms of Tension Pneumothorax in the past (see here: Rethinking Tension Pneumothorax). Although this study was broad, it did not address in detail the implications of different locations of one of the more popular treatments of tension pneumothorax: needle decompression. Due to an increased incidence of iatrogenic effects of improper needle placement, one of the recent topics of discussion among TCCC trainers has centered around locations (i.e., anterior vs lateral) of needle placement. Improper anterior placement in the mid-line direction can led to severe vascular injuries. Some have advocated for moving the primary location for needle insertion to the lateral location to mitigate iatrogenic effects. This location, however, raises other issues, specifically chest wall thickness in comparison to the anterior location, even as needles have increased in length.

A recent study published* in Academic Emergency Medicine seeks to answer one of the questions that have emerged from the debate by identifying the optimal site of needle insertion with respect to anterior wall thickness limitations. The results are interesting. Average chest wall thickness at the right side anterior second intercostal space, lateral forth and fifth mid-axillary locations were 46.4 mm, 53.8 mm and 63.7 mm, respectively. When considering the one factor of chest wall thickness as it relates to successful penetration of the plural space, the researchers concluded, the anterior location is superior. Furthermore, attempting to overcome the increased chest wall thickness at the lateral mid-axillary locations by using a longer catheter is risky, for it increases the risk of damaging surrounding vascular structures.

While this study does not address the larger issue of practitioners misplacement at the anterior location, it does illicit and attempt to answer an important question of impulsively changing training doctrine to emphasize the lateral location.

*Anterior Versus Lateral Needle Decompression of Tension Pneumothorax: Comparison by Computed Tomography Chest Wall Measurement by Sanchez, Leon, MD, MPH, et al. Academic Emergency Medicine 2011; 18:1022-1026 by the Society for Academic Emergency Medicine

SOFTT Added to TCCC Instructions

The SOF Tactical Tourniquet has always been TCCC approved, but until recently, it has been overlooked when it comes to official TCCC instructions and guides. Here is the link to the most recent Care Under Fire PowerPoint produced by the TCCC board that outline the instructions. Furthermore, the second link below has many other training aides for all phases of tactical medicine.

CUF Link

General TCCC Links

How to:One-handed Tourniquet Application

A principal learning objective taught in many tactical medical training programs is self-application of tourniquets. Although reports from current battlefields estimate the frequency of one-handed application at less 1/10 of 1% (o.oo1), it is still a valuable drill for those working alone (i.e., law enforcement officers). Unfortunately, the technique taught is often incorrect, as most disregard the fact that if one is applying a tourniquet to one’s limb, the limb is probably injured. Therefore, as the video demonstrates, one ought to train for real-world application.

Importance of Training Forward Life Saving Procedures and Future Blood Protocols

In a recent article published in the Journal of Trauma Injury, Infection, and Critical Care, the authors analyzed the effect of life-saving interventions (LSI) performed by combat medics and other forward providers. The medical practitioners in the study were arranged in an EMS style hierarchy under a medical director, with the majority of medics trained to the EMT-B level, in addition to supplemental training in TCCC-approved LSI procedures. Additionally, they analyzed outcomes with an eye toward the applicability of more advanced care in the form of Remote Damage Resuscitation protocols. As summarized below, they found that forward deployment of blood products would be beneficial if the logistical and scope-of-practice concerns could be addressed. In the limitations section of the study, they concede that certain biases might have affected the outcome. They note, for instance, “[t]he differential impact of transport time from point-of-injury to surgical facility arrival is worth considering.” Time from injury to point-of-injury treatment, time between request for evacuation to arrival of transportation, and time from extraction to the study facility all affected the outcomes, some of which were unknown in retrospect.

Although the authors did acknowledge in the conclusion that LSI need to be performed sooner, they unfortunately continued to argue that their notional blood protocol would have been beneficial. This is despite the fact that the majority of LSI were preformed by PA-level practitioners or higher, which is the major concern, because that indicates that urgent and priority patients were evacuated without LSI. It is difficult to surmise why LSI were not performed sooner, due to the nature of record keeping and retrospective studies. Perhaps tactical considerations dictated transport before treatment, or casualties deteriorated during evacuation. Nonetheless, early treatment is paramount, so training might possibly the more important to allocate resources to than blood protocols. Technology is an exceptional adjunct to the basics, but medics must have a foundation upon which to build.

Background: To analyze casualties from the Camp Eagle Study, focusing on
life-saving interventions (LSI) and potentially survivable deaths.

Methods: Retrospective cohort of battle casualties from a forward base engaged in urban combat in Central Iraq. Medical support included emergency medicine practitioners and combat medics with advanced training and protocols. LSI were defined as advanced airway, needle or tube thoracostomy, tourniquet, and hypotensive resuscitation with Hetastarch. Cases were assessed retrospectively for notional application of a Remote Damage Control Resuscitation protocol using blood products.

Results: Three hundred eighteen subjects were included. The case fatality rate was 7%. “Urgent” (55) or “priority” (88) medical evacuation was required for 45% of casualties. Sixty-one LSI were performed, in most cases by the physician or PA, with 80% on “urgent” and 9% on “priority” casualties, respectively. Among survivors requiring LSI, the percentage actually performed were airway 100%; thoracostomy 100%; tourniquet 100%; hetastarch 100%. Among nonsurvivors, these percentages were 78%, 50%, 100%, and 56%, respectively. Proximate causes of potentially survivable death were delays in airway placement and ventilation (40%), no thoracostomy (20%), and delayed evacuation
resulting in hemorrhagic shock (60%). The notional Remote Damage Control Resuscitation protocol would have been appropriate in 15% of “urgent” survivors
and in 26% of nonsurvivors.

Conclusion: LSI were required by most urgent casualties, and a lack or delay in their performance was associated with increased mortality. Forward deployment of blood components may represent the next addition to LSI if logistical and scope-of-practice issues can be overcome.

(J Trauma. 2011;71: S109–S113)

Standard Gauze versus Hemostaic Agents: A New Look

A recent article published by the Academic Emergency Medicine journal found that when compared to standard gauze, hemostatic agents showed no improvement in hemorrhage control and prevention of re-bleeding. The findings indicated that the training is the the most important aspect of hemorrhage control. Obviously, hemostatics have their place, but they are not magic fairy-dust to be sprinkled on wounds, hoping for the best outcome. Moreover, it is clear that the basics saves lives, as the gauze and hemostatics were under direct pressure for five minutes. Finally, the study reveals the difficulties in accessing certain wounds–cavity versus puncture–with gauze and other delivery methods that ought to be considered.

(It should be noted that this study was funded by the US distributor of Celox, Sam Medical, but conducted by an agency within the Department of the Navy.)

Full Study
Littlejohn Hemostatic Comparison AEM 2011

Abstract

Objectives: Uncontrolled hemorrhage remains one of the leading causes of trauma deaths and one of
the most challenging problems facing emergency medical professionals. Several hemostatic agents have
emerged as effective adjuncts in controlling extremity hemorrhage. However, a review of the current literature
indicates that none of these agents have proven superior under all conditions and in all wound
types. This study compared several hemostatic agents in a lethal penetrating groin wound model where
the bleeding site could not be visualized.

Methods: A complex groin injury with a small penetrating wound, followed by transection of the
femoral vessels and 45 seconds of uncontrolled hemorrhage, was created in 80 swine. The animals
were then randomized to five treatment groups (16 animals each). Group 1 was Celox-A (CA),
group 2 was combat gauze (CG), group 3 was Chitoflex (CF), group 4 was WoundStat (WS),
and group 5 was standard gauze (SG) dressing. Each agent was applied with 5 minutes of manual
pressure. Hetastarch (500 mL) was infused over 30 minutes. Hemodynamic parameters were recorded
over 180 minutes. Primary endpoints were attainment of initial hemostasis and incidence of
re-bleeding.

Results: Overall, no difference was found among the agents with respect to initial hemostasis, rebleeding,
and survival. Localizing effects among the granular agents, with and without delivery mechanisms,
revealed that WS performed more poorly in initial hemostasis and survival when compared to
CA.

Lessons Learned: “Four Hours of Tourniquet Time”

Below is an excerpt from a lessons learned compilation titled “First to Cut: Trauma Lessons Learned in the Combat Zone.” Though it is geared toward FST surgeons and forward medical providers, some of the lessons are applicable to tactical medics and mountain rescue. The larger take-away point is that the physiology occurring distally to a tourniquet applied for a long duration needs to be considered when changing or loosening, especially in environments where medical care may be limited (e.g., Third World).

    “Four Hours of Tourniquet Time”

    “26 y.o. male with foot traumatic amputation and
    multiple frag wounds to the right leg with a high thigh
    field tourniquet in place. Arrived to the CSH with SBP of
    100 HR of 120. we had no report on duration of the
    tourniquet. We took down the tourniquet and he promptly
    coded. We put the tourniquet back up, intubated him and
    gave him fluid and bicarb and he came back. We found
    out later that the tourniquet had been in place for over 4
    hours….”

    The use of tourniquets – while rare in civilian trauma is
    very common in combat injuries. Tourniquets are the
    number 1 instrument that a medic can employ to lower the
    KIA numbers. The use of tourniquet with application until
    the absence of a distal pulse by default causes distal
    ischemia. Release of a functioning tourniquet after several
    hours can result in the release of acidic fluid and potassium.
    The patient intubated and without a head injury can be
    briefly hyperventilated. Before taking down a long
    duration tourniquet make sure the patient is well hydrated,
    resuscitated, adding an ampule of sodium bicarbonate or
    THAM can prophylax against the release of “bad humors”,
    lactic acid, and potassium. Also release the tourniquet
    slowly – if the rare arrhythmia arises re–employ the
    tourniquet and retry after further bicarb and fluid. If the leg
    is necrotic remember “life before limb” and perform an
    amputation.

    Lessons Learned:
    –Prolonged tourniquet times can result in the release
    of acidotic fluid and hyperkalemia
    –Perform 4 compartment fasciotomy with all lower
    extremities with significant tourniquet times

Chest Decompression for Non-Medics

Chest decompression for non-medics is a sticky subject. Recent observations overseas have seen an increase in improper location medially when inserting the needle. The causes of the high rate of improper placement are difficult to determine (i.e., environment, visibility, etc.) and have led to some medical directors prohibiting the procedure for non-medics within the military and LEO teams. However, the below study illustrates that proper initial training leads to high retention rates, thereby making this a skill that ought to remain at the operator level.

Abstract
Introduction: Tension pneumothorax is the second leading cause of preventable combat death. Although relatively simple, the management of tension pneumothorax is considered an advanced life support skill set. The purpose of this study was to assess the ability of non-medical law enforcement personnel to learn this skill set and to determine long-term knowledge and skill retention.

Methods: After completing a pre-intervention questionnaire, a total of 22 tactical team operators completed a 90-minute-long training session in recognition and management of tension pneumothorax. Post-intervention testing was performed immediately post-training, and at one- and six-months post-training.

Results: Initial training resulted in a significant increase in knowledge (pre: 1.3 ±1.35, max score 7; post: 6.8 ±0.62, p < 0.0001). Knowledge retention persisted at one- and six-months post-training, without significant decrement. Conclusions: Non-medical law enforcement personnel are capable of learning needle decompression, and retain this knowledge without significant deterioration
for at least six months.

Needle DC for Non-Medics

Three-Step Cric?

Below you will find an article published in Military Medicine. It argues that traditional ways of providing a surgical airway in a tactical environment are flawed. Therefore, the authors continue, a new approach is needed. Three-step Cric

Objective: Surgical cricothyroidotomy is the airway of choice in combat. It is too dangerous for combat medics to perform orotracheal intubation, because of the time needed to complete the procedure and the light signature from the intubation equipment, which provides an easy target for the enemy. The purpose of this article was to provide a modified approach for obtaining a surgical airway in complete darkness, with night-vision goggles. Methods: At our desert surgical skills training location at Nellis Air Force Base (Las Vegas, Nevada), Air Force para-rescue personnel received training in this technique using human cadavers. This training was provided during the fall and winter months of 2003-2006. Results: Through trial and error, we developed a “quick and easy” method of obtaining a surgical airway in complete darkness, using three steps. The steps involve the traditional skin and cricothyroid membrane incisions but add the use of an elastic bougie as a guide for endotracheal tube placement. We have discovered that the bougie not only provides an excellent guide for tube placement but also eliminates the use of additional equipment, such as tracheal hooks or dilators. Furthermore, the bevel of the endotracheal tube displaces the cricothyroid membrane laterally, which allows placement of larger tubes and yields a better tracheal seal. Conclusion: Combat medics can perform the three-step surgical cricothyroidotomy quickly and efficiently in complete darkness. An elastic bougie is required to place a larger endotracheal tube. No additional surgical equipment is needed.

Tourniquets and Scientific Studies

A tourniquet is a piece of  live saving equipment.  With that in mind, it is troubling to know that officers are either carrying tourniquets, or contemplating the purchasing of tourniquets, that are questionable with regard to effectiveness. What is more, they are making these decisions based on a questionable scientific study, most of which they did not completely read ( TQReport). It is not being hyperbolic to state that what it is arguing is a matter of life or death. If you question that, then please revisit the last blog entry.

One not wanting to read the entire study is understandable. It is 90 pages of dry, scientific writing. At first glance, the study is methodologically sound. It is constructed to test the effectiveness of tourniquets in an environment that simulates combat conditions. However, after one reads the study completely, there is one glaring deficiency. The study did not test which tourniquets achieved 100% occlusion. I Repeat: IT DID NOT TEST IF TOURNIQUETS ACHIEVED 100% OCCLUSION.  That should be the FIRST criterion a tourniquet must meet to continue a study.  While the ISR study (see below) tested tourniquets that could achieve 100% occlusion, the Navy study did not, so all other criteria are irrelevant.  Instead, it tested how easy it was to apply an ineffective tourniquet. As the study states:

Applications to arms were performed one-handed, but use of both hands was allowed for applications to thighs. A maximum of 5 minutes was allowed to apply the tourniquet, after which time the trial was terminated as an “application failure.” Application of the tourniquet was successful if the subject vocally declared, “Tourniquet on” — indicating that he had reached a point just before continued tightening would produce unbearable pain and had secured the device — within 5 minutes of being handed the test tourniquet. Upon such a declaration, a double event mark was recorded to mark the end of the application time period. The subject was asked to remain still throughout the remainder of the procedure.

Although the above may not seem like an issue, it is. First, applying a tourniquet until one thinks he/she has achieved hemorrhage control is not how it works. One applies a tourniquet to stop bleeding. One must continue to apply pressure until the bleeding stops. It is as simple at that. Second, using pain as indicator to cease applying pressure is not a good indicator. Doing so requires one to extrapolate the findings of a conscious, non-traumatic subject and apply them to an injured patient that has experienced enough trauma to require catastrophic-hemorrhage control.

Savvy distributors and manufacturers of different tourniquets have begun using this study to tout the effectiveness of their product. Beware. They are doing so based on the age-old assumption that consumers will not take the time to read all 90 pages. For example, they are giving potential consumers a chart that gives you a snapshot of the test that enumerates the tourniquets from best to worst. Please read the studies for yourself and make an educated decision. There are two tourniquets approved for use by the Army’s Institute for Surgical Research (ISR) (ISR Tourniquet Study). Do not let the desire to carry a tourniquet that is small–and possibly ineffective–outweigh the need to achieve hemorrhage control. Furthermore, short transport times DO NOT compensate for an ineffective tourniquet that can INCREASE bleeding. Finally, rid yourself of the disturbingly-common attitude that you will not actually need one . If that is the case, save yourself both money and weight and just don’t carry one. However, read the below post before doing so.

If you have any comments, please email them to alan@tacmedsolutions.com