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Wall PL, Buising CM, Sahr SM 19(3). 52 - 63 (Journal Article)

Tourniquet application to stop limb bleeding is conceptually simple, but optimal application technique matters, generally requires training, and is more likely with objective measures of correct application technique. Evidence of problems with application techniques, knowledge, and training can be ascertained from January 2007 to August 2018 PubMed peer-reviewed papers and in Stop The Bleed-related videos. Available data indicates optimal technique when not under fire involves application directly on skin. For nonelastic tourniquets, optimal application technique includes pulling the strap tangential to the limb at the redirect buckle (parallel to the limb-encircling strap entering the redirect buckle). Before engaging the mechanical advantage tightening system, the secured strap should exert at least 150mmHg inward, and skin indentation should be visible. For Combat Application Tourniquets, optimal technique includes the slot in the windlass rod parallel to the stabilization plate during the single 180° turn that should be sufficient for achieving arterial occlusion, which involves visible skin indentation and pressures of 250mmHg to 428mmHg on normotensive adult thighs. Appropriate pressures on manikins and isolated-limb simulations depend on how the under-tourniquet pressure response of each compares to the under-tourniquet pressure response of human limbs for matching tourniquet-force applications. Lack of such data is one of several concerns with manikin and isolated-limb simulation use. Regardless of model or human limb use, pictures and videos purporting to show proper tourniquet application techniques should show optimal tourniquet application techniques and properly applied, arterially occlusive limb tourniquets. Ideally, objective measures of correct tourniquet application technique would be included.

Kragh JF, Aden JK, Dubick MA 19(3). 45 - 50 (Journal Article)

Background: We sought opportunities to develop learning practices of individual first aid providers. In this study, we simulated deliberate practice in placing limb tourniquets. Methods: This study comprised tourniquet uses by two experienced persons. Their practice sessions focused on developing a motor skill with periodic coaching. The Combat Application Tourniquet is 1.5-inches wide and was used in a technique of loop passage around the end of the limb to place it 2-3 inches above the wound. The simulated limb was a Z-Medica Hemorrhage Control Trainer. Both users applied the tourniquet six times over 5 days to accrue 30 uses individually (N = 60 tourniquet applications for the study). Results: When represented as summary parameters, differences were small. For example, average ease of use was the same for both users, but such parameters only took a snapshot of performance, yielding a general assessment. However, for a learning curve by use number, a surrogate of experience accrual, application time revealed spiral learning. The amount that users compressed a limb averaged −15% compared with its unsqueezed state. Placement accuracy was classified relative to gap widths between the tourniquet and the wound, and of 60 performances, 55 were satisfactory and five were unsatisfactory (i.e., placement was <2 inches from the wound). When a tourniquet only overlaid the 2-inch edge of the placement zone (i.e., tourniquet was 2-3.5 inches away from the wound), no error was made, but errors were made in crossing that 2-inch edge. These gauging errors led us to create a template for learners to see and to demonstrate what the meaning of 2-3 inches is. Conclusion: Each metric had value in assessing first aid, but turning attention to gauging wound-tourniquet gaps revealed placement errors. Analysis of such errors uncovered what 2-3 inches meant in operation. Spiral learning may inform the development of best readiness practices such as coaching deliberate-practice sessions.

Burmeister DM, Little JS, Gomez BI, Gurney J, Chao T, Cancio LC, Kramer GC, Dubick MA 19(3). 76 - 81 (Journal Article)

Background: In recent combat operations, 5% to 15% of casualties sustained thermal injuries, which require resource-intensive therapies. During prolonged field care or when caring for patients in a multidomain battlefield, delayed transport will complicate the challenges that already exist in the burn population. A lack of resources and/or vascular access in the future operating environment may benefit from alternative resuscitation strategies. The objectives of the current report are 1) to briefly review actual and potential advantages/caveats of resuscitation with enteral fluids and 2) to present new data on palatability of oral rehydration solutions. Methods: A review of the literature and published guidelines are reported. In addition, enlisted US military active duty Servicemembers (N = 40) were asked to taste/rank five different oral rehydration solutions on several parameters. Results and Conclusions: There are several operational advantages of using enteral fluids including ease of administration, no specialized equipment needed, and the use of lightweight sachets that are easily reconstituted/ administered. Limited clinical data along with slightly more extensive preclinical studies have prompted published guidelines for austere conditions to indicate consideration of enteral resuscitation for burns. Gatorade® and Drip-Drop® were the overall preferred rehydration solutions based on palatability, with the latter potentially more appropriate for resuscitation. Taken together, enteral resuscitation may confer several advantages over intravenous fluids for burn resuscitation under resource-poor scenarios. Future research needs to identify what solutions and volumes are optimal for use in thermally injured casualties.

Moore A, Aden JK, Curtis R, Umar M 19(3). 71 - 75 (Journal Article)

Background: The laryngeal handshake method (LHM) may be a reliable standardized method to quickly and accurately identify the cricothyroid membrane (CTM) when performing an emergency surgical airway (ESA). However, there is currently minimal available literature evaluating the method. Furthermore, no previous CTM localization studies have focused on success rates of military prehospital providers. This study was conducted with the goal of answering the question: Which method is superior, the LHM or the traditional method (TM), for identifying anatomical landmarks in a timely manner when performed by US Army combat medic trainees? Methods: This prospective randomized crossover study was conducted at Ft Sam Houston, TX, in September 2018. Two Army medic trainees with similar body habitus volunteered as subjects, and the upper and lower borders and midline of their CTMs were identified by ultrasound (US). The participants were also recruited from the medic trainee population. After receiving initial training on the LHM and refresher training on the TM, participants were asked to localize the CTMs of each subject with one method per subject. Success was defined as a marking within the borders and 5mm of midline within 2 minutes. Results: Thirty-two combat medic trainees participated; 78% (n = 25) successfully localized the CTM using the TM versus 41% (n = 13) using the LHM (p = .002). Conclusion: Findings of this study support that at present the TM is a superior method for successful localization of the CTM when performed by Army combat medic trainees.

Schauer SG, Naylor JF, Chow AL, Maddry JK, Cunningham CW, Blackburn MB, Nawn CD, April MD 19(3). 86 - 89 (Journal Article)

Background: Airway compromise is the second leading cause of preventable death on the battlefield. Unlike a cricothyrotomy, supraglottic airway (SGA) placement does not require an incision and is less technically challenging. We compare survival of causalities undergoing cricothyrotomy versus SGA placement. Methods: We used a series of emergency department (ED) procedure codes to search within the Department of Defense Trauma Registry (DoDTR) from January 2007 to August 2016. This is a subanalysis of that dataset. Results: During the study period, 194 casualties had a documented cricothyrotomy and 22 had a documented SGA as the sole airway intervention. The two groups had similar proportions of explosive injuries (57.7% versus 63.6%, p = .328), similar composite injury severity scores (25 versus 27.5, p = .168), and similar AIS for the head, face, extremities, and external body regions. The cricothyrotomy group had lower AIS for the thorax (0 versus 3, p = .019) a trend toward lower AIS for the abdomen (0 versus 0, p = .077), more serious injuries to the head (67.5% versus 45.5%, p = .039), and similar rates of serious injuries to the face (4.6% versus 4.6%, p = .984). Glasgow Coma Scale (GCS) scores were similar upon arrival to the ED (3 versus 3, p = .467) as were the proportion of patients surviving to discharge (45.4% versus 40.9%, p = .691). On repeated multivariable analyses, the odds ratios (ORs) for survival were not significantly different between the two groups. Conclusion: We found no difference in short-term outcomes between combat casualties who received an SGA vs cricothyrotomy. Military prehospital personnel rarely used either advanced airway intervention during the recent conflicts in Afghanistan and Iraq.

Boever J, Krasowski MS, Brandt M, Woods T 19(3). 82 - 85 (Journal Article)

Lunasco T, Chamberlin RA, Deuster PA 19(3). 101 - 106 (Journal Article)

USSOCOM invests millions of dollars in the assessment, selection, and training of its Operators. Handpicked and forged to defend their nation, each Operator emerges from initial and career field training with unique skills and honed talents integral to their unit's effectiveness, sustainability, and mission success. The need for SOF unit commanders to optimize and preserve the talents of their Operators was highlighted as a top priority in the 2018 National Defense Strategy. Human performance optimization (HPO) offers a paradigm shift to support that priority by grounding health and performance services in the unique needs, cultures, skills, and missions of SOF Operators at the career field and unit level. Currently, HPO efforts continue to inform Military Health System (MHS) realignment efforts towards this paradigm shift; however, significant gaps still exist due to a lack of definitional clarity around HPO as a conceptual framework and to the unequal operationalization of HPO across the Department of Defense (DoD). To synergize health and performance efforts through HPO and provide SOF unit commanders with the tools they need to sustain the optimal performance of their operational forces over a career lifespan, this review builds upon previous work in HPO and highlights the operationalization of HPO on a tactical level to support units' Mission Essential Task List (METL) and Operator's Core Tasks (CT). Through returning to HPO's tenets, this review discusses how performance and health priorities of an Operational community can be identified in order to enhance the targeting of performance and health efforts. Last, we present a community-based model for mapping these priorities.

Reeves LK, Mora AG, Field A, Redman TT 19(3). 90 - 93 (Journal Article)

Introduction: The military working dog (MWD) has been essential in military operations such as Operation Iraqi Freedom (OIF) and Operation Enduring Freedom (OEF). MWDs sustain traumatic injuries that require point of injury and en route clinical interventions. The objective of this study was to describe the injuries and treatment military working dogs received on the battlefield and report their final disposition. Methods: This was a convenience sample of 11 injury and treatment reports of US MWDs from February 2008 to December 2014. We obtained clinical data regarding battlefield treatment from the 160th Special Operations Aviation Regiment (SOAR) database and supplemental operational sources. A single individual collected the data and maintained the dataset. The data collected included mechanism of injury, clinical interventions, and outcomes. We reported findings as frequencies. Results: Of the 11 MWD casualties identified in this dataset, 10 reports had documented injuries secondary to trauma. Eighty percent of the cases sustained gunshot wounds. The hindlegs were the most common site of injury (50%); however, 80% sustained injuries at more than one anatomical location. Seventy percent of cases received at least one clinical intervention before arrival at their first treatment facility. The most common interventions included trauma dressing (30%), gauze (30%), chest seal (30%), and pain medication (30%). The survival rate was 50%. Conclusion: The majority of the MWD cases in this dataset sustained traumatic injuries, with gunshot being the most common mechanism of injury. Most MWDs received at least one clinical intervention. Fifty percent did not survive their traumatic injuries.

Knapik JJ 19(3). 110 - 115 (Journal Article)

This article traces the early history of military airborne operations and examines studies that have provided overall incidences of parachute-related injuries over time. The first US combat parachute assault was proposed during World War I, but the war ended before the operation could be conducted. Experimental jumps were conducted near San Antonio, Texas, in 1928 and 1929, but it was not until 1939, spurred by the developments in Germany, that the US Army Chief of Infantry proposed the development of an "air infantry." An Airborne Test Platoon was instituted with 48 men at Fort Benning, Georgia, and mass training of paratroopers began in 1940. The US entered World War II in December 1941 with the attack on Pearl Harbor and declaration of war by Germany. In January 1942, US War Department directed that four parachute regiments be formed. The 509th Parachute Infantry Battalion made the first US Army combat jumps into Morocco and Algeria in November 1942. At the US Army Airborne School in the 1940-1941 period, the parachute-related injury incidence was 27 injuries/1000 jumps; by 1993 it was 10 injuries/1000 jumps and in 2005-2006, 6 injuries/1000 jumps. Analysis of time-loss injuries in operational units showed a decline in injuries from 6 injuries/1000 jumps to 3 injuries/1000 jumps to 1 injury/1000 jumps in the periods 1946-1949, 1956-1962, and 1962-1963, respectively. When all injuries (not just time-loss) experienced in operational units are considered, the overall injury incidence was about 8 injuries/1000 jumps in the 1993- 2013 period. In jump operations involving a larger number of risk factors (e.g., high winds, combat loads, rough drop zones) injury incidences was considerably higher. The few studies that have reported on parachute-related injuries in combat operations suggest injury incidence ranged from 19 to 401 injuries/ 1000 jumps, likely because of the number of known injury risk factors present during these jumps. Despite the limitations of this analysis stemming from different injury definitions and variable risk factors, the data strongly suggest that military parachute injuries have sharply declined over time. Part 2 of this series will discuss techniques and equipment that have likely improved the safety of parachute operations.

Crecelius EM, Burnett MW 19(3). 107 - 108 (Journal Article)

Nam JJ, Milia DJ, Diamond SR, Gourlay DM 19(3). 117 - 121 (Journal Article)

Theater Special Operations Force (SOF) medical planners have been using Army forward surgical teams (FSTs) to maintain a golden hour for US SOF during Operation Freedom's Sentinel in the form of Golden Hour Offset Surgical Treatment Teams (GHOST-Ts) in Afghanistan. Recently, the Special Operations Resuscitation Team (SORT) was designed to decompress and augment a GHOST-T to help extend a golden hour ring in key strategic locations. This article describes both teams working together in Operation Freedom's Sentinel while deployed in support of SOF in central Afghanistan during the summer fighting season.

Riesberg JC 19(3). 116 (Journal Article)

Fazekas L, McCown ME, Taylor JB, Ferland KA 19(1). 27 - 30 (Journal Article)

Our intent in presenting this information is to increase the awareness of the Special Operations Forces (SOF) medical community and the overall international medical/military communities about the North Atlantic Treaty Organization (NATO) military medicine's premiere Vigorous Warrior Exercises organized by NATO Centre of Excellence for Military Medicine (MILMED COE). The Vigorous Warrior medical exercise series is conducted biennially, with four successful iterations since 2011. These international medical exercises engage military medical elements that enhance NATO capabilities and ensure that new NATO medical concepts are being exercised and tested across the full capability-requirement spectrum. The primary aims of these exercises are to provide NATO and partner nations a multipurpose platform to collectively train their medical forces and personnel; test and experiment new concepts and doctrines; medically evaluate national or multinational medical treatment facilities in accordance with NATO doctrine; produce medical lessons identified and lessons learned; and provide the participants with multinational experience to enhance the provision of health care in NATO operations. These exercises directly strengthen partnerships, improve military medical interoperability, and demonstrate the Alliance's commitment to improving international military collaboration. More than 1,000 medical personnel from 26 NATO and partner nations successfully conducted the joint, multilevel, multinational, medical live exercise Vigorous Warrior 2017 (VW17) throughout three locations in Germany during 4-22 September 2017. This article details the highly successful VW17 and paves the way for a very bright future for the Alliance's military medicine as well as a Vigorous Warrior 2019.

Ho TT, Rocklein Kemplin K, Brandon JW 19(1). 23 - 26 (Case Reports)

Testicular cancer is the most common solid tumor and the most common cause of cancer mortality in men between 25 and 34 years of age. Limited data exist comparing testicular cancer in military Servicemembers and the general population. Research indicates that Navy, Air Force, and Coast Guard Servicemembers have a higher risk of testicular cancer than do members of the Army or Marines. A military lifestyle including operational tempo and long deployments may contribute to delayed diagnosis and subsequent treatment planning, potentially increasing morbidity and mortality. We used the National Institutes of Health case-study format recommendations as a framework for this presentation of the case of a 36-year-old US Special Forces Soldier who noticed new testicular masses while deployed in Iraq but did not seek help until 5 months later, upon redeployment home.

Kragh JF, Aden JK, Dubick MA 19(1). 35 - 43 (Journal Article)

Background: A tourniquet's readiness during emergencies depends on how it is configured. We investigated configuration so ways of improving readiness can be developed. Methods: This study was conducted at the Institute of Surgical Research in 2018 as sequential investigations by one user of Combat Application Tourniquets (C-A-Ts) in a band-and-rod design. Results: Each tourniquet comes packaged with paper instructions for use, which include directions on how to configure it in preparation for caregiving. The paper and video instructions for use omit tensioning of the tourniquet in configuration, and the video misconfigured a time strap over the rod. In first-aid classrooms, we saw unwitting learners troubleshoot that misconfiguration. Problems with configuration were also seen in caregiving and with tourniquets stowed in kits. In deliberate practice, we self-applied a tourniquet to a thigh. In configuration after each of 100 uses, tourniquet elongation due to tensioning averaged 2.4 in was important for restoring the tourniquet to its full length. During configuration, if the C-A-T's stabilization plate slid along the band, out of position, the user slid the plate back into position. In various ways of testing other C-A-Ts, elongations averaged from 0.4 in to 0.9 in, depending on whether the tourniquet was self-applied or applied to a firm manikin. Elongation increments accrued as the tourniquet's band flattened. Configuration time averaged 22 seconds, and accrued experience improved the compactness of configuration. Conclusion: People are too often unreliable at putting C-A-Ts into the optimal configuration for use. That ready-to-use configuration includes the tourniquet being at its full length, having the stabilization plate positioned correctly along the band, and having the strap fastened to its clip of origin. When used, tourniquets had normal, small elongations in part due to band flattening. This tourniquet study showed the importance of optimal configuration to first-aid readiness practices.

Springer B 19(1). 31 - 33 (Journal Article)

Schauer SG, Naylor JF, April MD, Fisher AD, Cunningham CW, Fernandez JD, Shreve BP, Bebarta VS 19(1). 52 - 55 (Journal Article)

Background: Peripheral intravenous (IV) cannulation is often difficult to obtain in a patient with hemorrhagic shock, delaying the appropriate resuscitation of critically ill patients. Intraosseous (IO) access is an alternative method. To date, few data exist on use of this procedure by ground forces in Afghanistan. Here, we compare patient characteristics and concomitant interventions among patients undergoing IO access versus those undergoing IV access only. Methods: We obtained data from the Prehospital Trauma Registry (PHTR). When possible, patients were linked to the Department of Defense Trauma Registry for outcome data. To develop the cohorts, we searched for all patients with documented IO or IV access placement. Those with both IO and IV access documented were placed in the IO group. Results: Of the 705 available patients in the PHTR, we identified 55 patients (7.8% of the population) in the IO group and 432 (61.3%) in the IV group. Among patients with documentation of access location, the most common location was the tibia (64.3%; n = 18). Compared with patients with IV access, those who underwent IO access had higher urgent evacuation rates (90.9% versus 72.4%; p = .01) and air evacuation rates (58.2% versus 14.8%; p < .01). The IO cohort had significantly higher rates of interventions for hypothermia, chest seals, chest tubes, needle decompressions, and tourniquets, but a significantly lower rate of analgesic administration (ρ ≤ .05). Conclusion: Within the registry, IO placement was relatively low (<10%) and used in casualties who received several other life-saving interventions at a higher rate than casualties who had IV access. Incidentally, lower proportions of analgesia administration were detected in the IO group compared with the IV group, despite higher intervention rates.

Antosh IJ, McGrane OL, Capan EJ, Dominguez JD, Hofmann LJ 19(1). 48 - 51 (Journal Article)

There are no established ground medical-evacuation systems within Special Operations Command Africa (SOCAFRICA), given the austere and varied environments. Transporting the injured casualty requires ingenuity and modification of existing vehicles. The Expeditionary Resuscitative Surgical Team (ERST) assigned to SOCAFRICA used four unconventional means for ground evacuation. This is a retrospective review of the various modes of ground transportation used by the ERST-3 during deployment with SOCAFRICA. All handcarried litter and air evacuation platforms were excluded. Over 9 months, four different ground casualty platforms were used after they were modified: (1) Mine-Resistant Ambush-Protected All-Terrain Vehicle (MAT-V; Oshkosh Defense); (2) MRZR-4 ("Razor"; Polaris Industries); (3) nonstandard tactical vehicles, (NSTVs; Toyota HiLux); and (4) John Deere TH 6x4 ("Gator"). Use of all vehicle platforms was initially rehearsed and then they were used on missions for transport of casualties. Each of the four methods of ground evacuation includes a description of the talon litter setup, the necessary modifications, the litter capacity, the strengths and weaknesses, and any summary recommendations for that platform. Understanding and planning for ground casualty evacuation is necessary in the austere environment. Although each modified vehicle was used successfully to transfer the combat casualty with an ERST team member, consideration should be given to acquisition of the MAT-V medical-specific vehicle. Understanding the currently available modes of ground casualty evacuation transport promotes successful transfer of the battlefield casualty to the next echelon of care.

Wall PL, Buising CM, Nelms D, Grulke L, Renner CH 19(1). 44 - 46 (Journal Article)

Background: In addition to a plethysmograph, Masimo pulse oximeters display a Perfusion Index (PI) value. This study investigated the possible usefulness of PI for monitoring limb tourniquet arterial occlusion. Methods: Tactical Ratcheting Medical Tourniquets were applied to the thighs of 15 subjects. Tightening ended at one ratchet-tooth advance beyond Doppler- indicated occlusion. The times and pressures of Doppler and PI signal absences and returns were recorded. Results: Intermittent PI signal error occurred in 149 of 450 runs (PI, 33% versus Doppler, 0%; p < .0001). PI signal loss lagged Doppler-indicated occlusion by 19 ± 15 seconds (mean ± standard deviation, p < .0001). PI Signal Return lagged tourniquet release by 13 ± 7 seconds (Doppler Signal Return took 1 ± 1 seconds following tourniquet release; p < .0001). PI failed to detect early Doppler audible pulse return in 30 of 39 occurrences. Conclusion: The PI available on Masimo pulse oximeters is not appropriate for monitoring limb tourniquet effectiveness

Taylor MK, Rolo C, Stump J, Mayo J, Hernandez LM, Gould DR 19(1). 61 - 65 (Journal Article)

Purpose: We describe the psychological strategies (PS) used by a specialized military population, US Navy explosive ordnance disposal (EOD), during training and military operations. We also aim to establish the relationship between PS and resilience. Methods: The Test of Performance Strategies was adapted to the military environment and subsequently was administered to 58 EOD Operators in conjunction with the 10-item Connor- Davidson Resilience Scale. Differences between high- and low-resilience Operators for PS were evaluated with discriminant models. Results: The PS of EOD Operators were comparable to those of Olympic athletes described in our prior study. The most frequently used strategies during training and military operations were goal setting and emotional control. Discriminant analysis indicated an overall difference between high- and low-resilience Operators with respect to the six training subscales (ρ < .05), with goal setting, emotional control, and attentional control contributing most to the discriminant function. Conclusion: EOD Operators' use of PS was comparable to that of elite athletes. We provide evidence that more-resilient EOD Operators differ from their less resilient counterparts in the strategies they use. These findings have implications for mental preparation strategies used during military training and operations.