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Schauer SG, April MD, Fisher AD, Cunningham CW, Gurney J 18(2). 71 - 74 (Journal Article)
Background: Hemorrhage is the leading cause of potentially preventable death on the battlefield. Although the resurgence of limb tourniquets revolutionized hemorrhage control in combat casualties in the recent conflicts, the mortality rate for patients with junctional hemorrhage is still high. Junctional tourniquets (JTQs) offer a mechanism to address the high mortality rate. The success of these devices in the combat setting is unclear given a dearth of existing data. Methods: From the Prehospital Trauma Registry (PHTR) and the Department of Defense Trauma Registry, we extracted cases of JTQ use in Afghanistan. Results: We identified 13 uses of a JTQ. We excluded one case in which an improvised pelvic binder was used. Of the remaining 12 cases of JTQ use, seven had documented success of hemorrhage control, three failed to control hemorrhage, and two were missing documentation regarding success or failure. Conclusion: We report 12 cases of prehospital use of JTQ in Afghanistan. The findings from this case series suggest these devices may have some utility in achieving hemorrhage control strictly at junctional sites (e.g., inguinal creases). However, they also highlight device limitations. This analysis demonstrates the need for continued improvements in technologies for junctional hemorrhage control, prehospital documentation, data fidelity and collection, as well as training and sustainment of the training for utilization of prehospital hemorrhage control techniques.
Grier T, Anderson MK, Depenbrock P, Eiserman R, Nindl BC, Jones BH 18(2). 42 - 48 (Journal Article)
Background: We sought to assess the rehabilitation process, training, performance, and injury rates among those participating and not participating in the Tactical Human Optimization, Rapid Rehabilitation, and Reconditioning (THOR3) program and determine injury risk factors. Methods: A survey inquiring about personal characteristics, injuries, physical performance, and THOR3 participation during the previous 12 months was administered to Army Special Operations Forces (SOF) Soldiers. Based on responses to physical training, Soldiers were categorized into three groups: a traditional physical training (TPT) group, a cross-training (CT) group, and a THOR3 group. To identify potential injury risk factors, risk ratios and 95% confidence intervals (95% CIs) were calculated. Backward- stepping multivariable logistic regression models were used to assess key factors associated with injury risk. Results: The survey was completed by 328 male Soldiers. Most of the Soldiers (62%) who scheduled an appointment with the physical therapist were seen within 1 day. Self-reported injury rates for the TPT, CT, and THOR3 groups were 70%, 52%, and 48%, respectively. When controlling for personal characteristics, unit training, and fitness, the TPT group had a marginally higher risk of being injured than the THOR3 group (odds ratio [OR], 2.72; 95% CI, 0.86-8.59; p = .09). Soldiers who did not perform any unit resistance training (ORnone/90-160 min, 3.62; 95% CI, 1.05-12.53; p = .04) or the greatest amount of resistance training (OR>160 min/90-160 min, 3.44; 95% CI, 1.64-7.20; p < .01) were more likely to experience an injury than the moderate-resistance training group. Conclusion: THOR3 appears to offer human performance optimization/injury prevention advantages over other SOF human performance programs.
Satterly S, McGrane O, Frawley T, Bynum W, Martin J, Clegg C, Pearsall N, Reilly S, Verwiebe E, Eckert M 18(2). 49 - 52 (Journal Article)
Hemorrhage in the presurgical setting has been the most significant cause of death on the battlefield. Damage control surgery (DCS) near the point of injury (POI) is not a new concept, but having conventional medical teams supporting Special Operations Forces (SOF) beyond robust military medical infrastructure is unique for the US military. The Expeditionary Resuscitative Surgical Team (ERST) was formed by the US Army Medical Command as a pilot team to fulfill a request for forces to provide DCS and personnel recovery near POI.
Butler FK, Holcomb JB, Shackelford S, Montgomery HR, Anderson S, Cain JS, Champion HR, Cunningham CW, Dorlac WC, Drew B, Edwards K, Gandy JV, Glassberg E, Gurney J, Harcke T, Jenkins DA, Johannigman J, Kheirabadi BS, Kotwal RS, Littlejohn LF, Martin M, Mazuchowski EL, Otten EJ, Polk T, Rhee P, Seery JM, Stockinger Z, Torrisi J, Yitzak A, Zafren K, Zietlow SP 18(2). 19 - 35 (Journal Article)
This change to the Tactical Combat Casualty Care (TCCC) Guidelines that updates the recommendations for management of suspected tension pneumothorax for combat casualties in the prehospital setting does the following things: (1) Continues the aggressive approach to suspecting and treating tension pneumothorax based on mechanism of injury and respiratory distress that TCCC has advocated for in the past, as opposed to waiting until shock develops as a result of the tension pneumothorax before treating. The new wording does, however, emphasize that shock and cardiac arrest may ensue if the tension pneumothorax is not treated promptly. (2) Adds additional emphasis to the importance of the current TCCC recommendation to perform needle decompression (NDC) on both sides of the chest on a combat casualty with torso trauma who suffers a traumatic cardiac arrest before reaching a medical treatment facility. (3) Adds a 10-gauge, 3.25-in needle/ catheter unit as an alternative to the previously recommended 14-gauge, 3.25-in needle/catheter unit as recommended devices for needle decompression. (4) Designates the location at which NDC should be performed as either the lateral site (fifth intercostal space [ICS] at the anterior axillary line [AAL]) or the anterior site (second ICS at the midclavicular line [MCL]). For the reasons enumerated in the body of the change report, participants on the 14 December 2017 TCCC Working Group teleconference favored including both potential sites for NDC without specifying a preferred site. (5) Adds two key elements to the description of the NDC procedure: insert the needle/ catheter unit at a perpendicular angle to the chest wall all the way to the hub, then hold the needle/catheter unit in place for 5 to 10 seconds before removing the needle in order to allow for full decompression of the pleural space to occur. (6) Defines what constitutes a successful NDC, using specific metrics such as: an observed hiss of air escaping from the chest during the NDC procedure; a decrease in respiratory distress; an increase in hemoglobin oxygen saturation; and/or an improvement in signs of shock that may be present. (7) Recommends that only two needle decompressions be attempted before continuing on to the "Circulation" portion of the TCCC Guidelines. After two NDCs have been performed, the combat medical provider should proceed to the fourth element in the "MARCH" algorithm and evaluate/treat the casualty for shock as outlined in the Circulation section of the TCCC Guidelines. Eastridge's landmark 2012 report documented that noncompressible hemorrhage caused many more combat fatalities than tension pneumothorax.1 Since the manifestations of hemorrhagic shock and shock from tension pneumothorax may be similar, the TCCC Guidelines now recommend proceeding to treatment for hemorrhagic shock (when present) after two NDCs have been performed. (8) Adds a paragraph to the end of the Circulation section of the TCCC Guidelines that calls for consideration of untreated tension pneumothorax as a potential cause for shock that has not responded to fluid resuscitation. This is an important aspect of treating shock in combat casualties that was not presently addressed in the TCCC Guidelines. (9) Adds finger thoracostomy (simple thoracostomy) and chest tubes as additional treatment options to treat suspected tension pneumothorax when further treatment is deemed necessary after two unsuccessful NDC attempts-if the combat medical provider has the skills, experience, and authorizations to perform these advanced interventions and the casualty is in shock. These two more invasive procedures are recommended only when the casualty is in refractory shock, not as the initial treatment.
Kragh JF, Newton NJ, Tan AR, Aden JK, Dubick MA 18(2). 36 - 41 (Journal Article)
Background: The performance of a new tourniquet model was compared with that of an established model in simulated first aid. Methods: Four users applied the Combat Application Tourniquet (C-A-T), an established model that served as the control tourniquet, and the new SAM Extremity Tourniquet (SXT) model, which was the study tourniquet. Results: The performance of the C-A-T was better than that of the SXT for seven measured parameters versus two, respectively; metrics were statistically tied 12 times. The degree of difference, when present, was often small. For pretime, a period of uncontrolled bleeding from the start to a time point when the tourniquet first contacts the manikin, the bleeding rate was uncontrolled at approximately 10.4mL/s, and for an overall average of 39 seconds of pretime, 406mL of blood loss was calculated. The mean time to determination of bleeding control (± standard deviation [SD]) was 66 seconds (SXT, 70 ± 30 seconds; C-A-T, 62 ± 18 seconds; p = .0075). The mean ease-of-use score was 4 (indicating easy) on a scale of 1 to 5, with 5 indicating very easy (mean ± SD: SXT, 4 ± 1; C-A-T, 5 ± 0; p < .0001). C-A-T also performed better for total trial time, manikin damage, blood loss rate, pressure, and composite score. SXT was better for pretime and unwrap time. All users intuitively self-selected the speed at which they applied the tourniquets and that speed was similar in all of the required steps. However, by time segments, one user went slowest in each segment while the other three generally went faster. Conclusions: In simulated first aid with tourniquets, better results generally were seen with the C-A-T than with the SXT in terms of performance metrics. However, the degree of difference, when present, was often small.
Christensen PA 18(1). 150 - 154 (Journal Article)
Austere care of the wounded is challenging for all Western medical professionals-nurse, medic, or physician. There can be no doubt that working for the first time, either for a nongovernment organization or in the Special Forces, you will be taking care of wounded patients outside your training and experience. You must have the ability to adapt to and overcome lack of resources and equipment, and accept standards of treatment often very different and lower than that common in western hospitals. The International Committee of the Red Cross (ICRC) was asked to provide relief for the Pakistan Red Crescent in 1982 and set up the ICRC Hospital for Afghan War Wounded in Peshawar on the border to Afghanistan. This article relates how a western-trained young anesthetist on a ICRC surgical team experienced this, at the time, austere environment.
Krieger J, Sims D, Wolterstorff C 18(2). 16 - 17 (Case Reports)
Blood flow-restricted resistance (BFRR) training is effective as a means to improve muscle strength and size while enduring less mechanical stress. It is generally safe but can have adverse effects. We present a case of an active duty Soldier who developed rhabdomyolysis as a result of a single course of BFRR training. He was presented to the emergency department with bilateral lower extremity pain, was admitted for electrolyte monitoring and rehydration, and had an uncomplicated hospital course and full recovery. This is an increasingly common mode of rehabilitation in the military, and practitioners and providers should be aware of it and its possible adverse effects.
Macku D, Hedvicak P, Quinn J, Bencko V 18(1). 133 - 138 (Journal Article)
Due to the hybrid warfare currently experienced by multiple NATO coalition and NATO partner nations, the tactical combat casualty care (TCCC) paradigm is greatly challenged. One of the major challenges to TCCC is the ad hoc extension phase in resource-poor environments, referred to as prolonged field care (PFC) and forward resuscitative care (FRC). The nuanced clinical skills with limited resources required by warfighters and auxiliary health care professionals to mitigate death on the battlefield and prevent morbidity and mortality in the PFC phase represent a balance that is still under review. The aim of our article is to describe the connection between extracorporeal membrane oxygenation (ECMO) or the extracorporeal life support (ECLS) treatment and its possible improvement in prehospital trauma care, at a Role 1 or 2 facility and, more provocatively, in the PFC phase of care in the future through innovative technology and how it connects with FRC. We report and describe here the primary components of ECMO/ECLS and present the main concept of a human extracorporeal circulation cocoon as a transitional living form for the cardiopulmonary stabilization of wounded combatants on the battlefield and their transportation to higher echelons of care and treatment facilities (to include damage control resuscitation [DCR] and damage control surgery [DCS]). As clinical governance, these matters would fall within the remit of the Committee on Surgical Combat Casualty Care (CoSCCC) and the Committee on Enroute Combat Casualty Care (CoERCCC), and it is within this framework that we propose this concept piece of ECMO in the prehospital space. We caution that this report is a proposed innovation to TCCC but also serves to push the envelope of the PFC and FRC paradigm. What we propose will not change the practice this year, but as ECMO technology progresses, it may change our practice within the next decade. We conclude with proposed novel future research to save life on the battlefield with ECMO as a major challenge and one worth the focus of further research. Medicine is controversial and constantly changing; for those who work in prehospital and battlefield medicine, change is the only constant on which we rely, and without provocative discussion that makes our systems and practice more robust, we will fail.
Schermerhorn SM, Auchincloss PJ, Kraft K, Nelson KJ, Pamplin JC 18(1). 142 - 144 (Journal Article)
Objective: Review the management of a patient with acute patella fracture supported by telemedical consultation. Clinical Context: Regionally Aligned Forces (RAF) supporting US Army Africa/Southern European Task Force (USARAF/ SETAF) in Africa Command area of responsibility. Care was provided by a Role I facility on the compound. Organic Expertise: Three 68W combat medics; one Special Operations Combat Medic (SOCM). Closest Medical Support: Organic battalion physician assistant (PA) located in the United States; USARAF PA located in a European country; French Role II located in nearby West African country; telemedical consults via e-mail, phone, or videoteleconsultation. Earliest Evacuation: Estimated at 12 to 24 hours with appropriate clearances.
DeFeo DR, Givens ML 18(1). 118 - 123 (Journal Article)
The authors would like to introduce TCCC [Tactical Combat Casualty Care] + CBRN [chemical, biological, radiological, and nuclear] = (MARCHE)2 as a conceptual model to frame the response to CBRN events. This model is not intended to replace existing and well-established literature on CBRNE events but rather to serve as a response tool that is an adjunct to agent specific resources.
Knapik JJ, Bedno SA 18(1). 108 - 112 (Journal Article)
Surveys indicated that 24% of military personnel are current cigarette smokers. Smoking is well known to increase the risk of cancers, cardiovascular and respiratory diseases, reproductive problems, and other medical maladies, but one of the little known effects of smoking is that on injuries. There is considerable evidence from a variety of sources that (1) smoking increases overall injury risk, (2) the greater the amount of smoking, the higher is the injury risk, and (3) smoking is an independent injury risk factor. Smoking not only affects the overall injury risk but also impairs healing processes following fractures (e.g., longer healing times, more nonunions, more complications), ligament injury (e.g., lower subjective function scores, greater joint laxity, lower subsequent physical activity, more infections), and wounding (e.g., delayed healing, more complications, less satisfying cosmetic results). Smoking may elicit effects on fractures through low bone mineral density (BMD), lower dietary intake of calcium and vitamin D, altered calcium metabolism, and effects on osteogenesis and sex hormones. Effects on wound healing may be mediated through altered neutrophils and monocytes functions resulting in reduced ability to fight infections and remove damaged tissue, reduced gene expression of cytokines important for tissue healing, and altered fibroblast function leading to lower density and amount of new tissue formation. Limited data suggest smoking cessation has favorable effects on various aspects of bone health over periods of 1 to 30 years. Favorable effects on neutrophil and monocyte functions may occur as early as 4 weeks, but fibroblast function and collagen metabolism (important for wound remodeling) appear to take considerably longer and may be dependent on the amount of prior smoking. Part 2 of this series will use this information to explore the possibility of a causal relationship between smoking and injuries.
Palmer LE 18(1). 91 - 98 (Journal Article)
The intent of the Operational K9 (OpK9) ongoing series is to provide the Special Operations Medical Association community with clinical concepts and scientific information on preventive and prehospital emergency care relevant to the OpK9. Often the only medical support immediately available for an injured or ill OpK9 in the field is their handler or the human Special Operations Combat Medic or civilian tactical medic attached to the team (e.g., Pararescueman, 18D, SWAT medic). The information is applicable to personnel operating within the US Special Operations Command as well as civilian Tactical Emergency Medical Services communities that may have the responsibility of supporting an OpK9.
Worthington D, Deuster PA 18(1). 100 - 105 (Journal Article)
Spirituality is a key interweaving and interacting domain, and an integral component for maintaining Special Operations Forces readiness; however, it remains an under-researched and likely one of the most poorly understood domains of Preservation of the Force and Family and Total Force Fitness initiatives. Although there are numerous factors that contribute to spiritual performance or spiritual fitness, core values and value-directed living are essential. An initial step toward spiritual performance or fitness is developing core values and identity, followed by a second step toward spiritual performance or fitness, which is developing an increased awareness and deeper understanding of those values. This process of developing core values and identity, and building awareness can be enhanced through cognitive flexibility and agility (psychological performance domain). This article explains the importance of "spirituality" as a component of Special Operations Forces performance and describes approaches to enhancing performance through various spiritual activities, including mindfulness, meditation, and prayer. These three practices can be adapted and modified to be more vertical or more horizontal in their application.
Paz DA, Thomas KE, Primakov DG 18(1). 77 - 80 (Journal Article)
In support of Operation Enduring Freedom, American, North American Treaty Organization (NATO) Coalition, and Afghan forces worked together in training exercises and counterinsurgency operations. While serving at the NATO Role 3 Multinational Medical Unit, Kandahar, Afghanistan, numerous patients with explosive blast injuries (Coalition and Afghan security forces, and insurgents) were treated. A disparity was noted between the ocular injury patterns of US and Coalition forces in comparison with their Afghan counterparts, which were overwhelmingly influenced by the use, or lack thereof, of eye protection. Computed tomography imaging coupled, with a correlative clinical examination, demonstrated the spectrum of ocular injuries that can result from an explosive blast. Patient examination was performed by Navy radiologists and an ophthalmologist. A cultural analysis by was performed to understand why eye protection was not used, even if available to Afghan forces, by the injured patients in hope of bridging the gap between Afghan cultural differences and proper operational risk management of combat forces.
Brandon JW, Solarczyk JK, Durrani TS 18(1). 81 - 87 (Journal Article)
Lead toxicity is an important environmental disease and its effects on the human body can be devastating. Unique exposures to Special Operations Forces personnel may include use of firing ranges, use of automotive fuels, production of ammunition, and bodily retention of bullets. Toxicity may degrade physical and psychological fitness, and cause long-term negative health outcomes. Specific effects on fine motor movements, reaction times, and global function could negatively affect shooting skills and decision-making. Biologic monitoring and chelation treatment are poor solutions for protecting this population. Through primary prevention, Special Operations Forces personnel can be protected, in any environment, from the devastating effects of lead exposure. This article offers tools to physicians, environmental service officers, and Special Operations Medics for primary prevention of lead poisoning in the conventional and the austere or forward deployed environments.
Schauer SG, Pfaff JA 18(1). 88 - 90 (Journal Article)
Background: Heat injuries are common in the military training environment. Base policies often mandate that heat causalities require evaluation at a higher level of care, which comes at significant use of resources. Laboratory studies are often ordered routinely, but their utility is unclear at this time. Methods: This project evaluated the use of screening laboratory studies for heat casualties brought to Bayne-Jones Army Community Hospital, Fort Polk, Louisiana. Casualties brought from the field directly to the emergency department (ED) were included. Abnormalities in laboratory study findings, admission/discharge rates, and length of stay were documented. Results: From May through September 2014, 104 casualties were seen in the ED because of heat injury. Laboratory tests were ordered for 101 patients. Of these, 11 patients were admitted to the hospital because of laboratory, history, and/or physical examination abnormalities. Nine were discharged in less than 24 hours. The remaining two were discharged within 48 hours; both had documented altered mental status on arrival to the ED. Laboratory test abnormalities were seen in most of the patients and appeared to have no impact on the decision to admit. Conclusion: Routine laboratory studies appeared to have low clinical utility in this patient population. A more targeted approach based on the history and physical examination may reduce military resource use.
Lyon RF, Schwan C, Zeal J, Kharod C, Staak B, Petersen C, Rush SC 18(1). 70 - 73 (Journal Article)
Effective analgesia is a crucial part of the care and resuscitation of a traumatically injured patient. These secondary effects of pain may increase morbidity and mortality in the acutely injured patient. When ketamine is administered appropriately in the clinical setting, it can provide analgesia, anxiolysis, and amnesia for patients with less respiratory depression and hypotension than equivalent doses of opioid analgesics.
Reid P, George C, Byrd CM, Miller L, Lee SJ, Motsinger-Reif A, Breen M, Hayduk DW 18(1). 74 - 76 (Journal Article)
Special Operations Forces and their accompanying tactical multipurpose canines (MPCs) who are involved in repeated live-fire exercises and military operations have the potential for increased blood lead levels and toxicity due to aerosolized and environmental lead debris. Clinical lead-toxicity symptoms can mimic other medical disorders, rendering accurate diagnosis more challenging. The objective of this study was to examine baseline lead levels of MPCs exposed to indoor firing ranges compared with those of nontactical military working dogs (MWDs) with limited or no exposure to the same environment. In the second part of the study, results of a commercially available, human-blood lead testing system were compared with those of a benchtop inductively coupled plasma-mass spectrometry (ICP-MS) analysis technique. Blood samples from 18 MPCs were tested during routine clinical blood draws, and six samples from a canine group with limited exposure to environmental lead (nontactical MWDs) were tested for comparison. There was a high correlation between results of the commercial blood-testing system compared with ICP-MS when blood lead levels were higher than 4.0µg/dL. Both testing methods recorded higher blood lead levels in the MPC blood samples than in those of the nontactical MWDs, although none of the MPC samples tested contained lead levels approaching those at which symptoms of lead toxicity have previously been reported in animals (i.e., 35µg/dL).