Tactical Combat Casualty Care Research Articles

Development of virtual reality training system for combat musculoskeletal trauma care

Objective: A virtual reality (VR)-based training system for combat musculoskeletal trauma care (CMTC) was meticulously crafted to enhance trainees’ theoretical understanding, familiarity with care processes, and decision-making abilities in the realm of combat musculoskeletal trauma management. Method: Scenario scripts, descriptions of injuries, and foundational management plans for care under fire and tactical field care were constructed. Subsequently, the CMTC system was developed employing tools, such as Maya, Photoshop, Unity, SQLite, and Visual Studio. Finally, the system was tested by 30 civilian nurses. The trainees’ knowledge, satisfaction, and system usability were evaluated using the theoretical question bank module, questionnaire, and system usability scale (SUS). Results: This research resulted in the establishment of five types of processes for CMTC in the contexts of care under fire and tactical field care. The study indicated that the trainees’ scores after training (75.67 ± 6.91) was higher than before training (69.17 ± 10.91), p < 0.001, the t-statistic was −5.022. The resultant SUS score was 70.4 ± 9.40. An overwhelming 96.67% of the trainees expressed satisfaction with the teaching quality. Conclusion: The CMTC system, developed in alignment with Tactical Combat Casualty Care (TCCC) guidelines and infused with cutting-edge equipment and technologies, provides an interactive and modular simulation training experience. Its strengths include higher reality, enhanced safety, repeatability, cost-effectiveness, and the provision for performance analysis. Besides, it has good accessibility and reliability, and can cultivate students’ autonomous learning ability and deepen their understanding.

Addressing Differences in Knowledge and Experience in Trauma Care Capabilities Among an International Team of Military Medical Care Providers in a Deployed Setting.

Military medical personnel are crucial in providing life-saving care at the point of injury (POI) in challenging environments such as combat zones and disaster areas. This article examines the specialized training US Military medical personnel undergo before deployment and the increasing trend of deploying as part of multinational forces in operations like those in Afghanistan with NATO and non-NATO countries. Integrating medical teams from diverse backgrounds poses significant challenges in maintaining a cohesive and efficient team due to varying trauma management training standards and medical practices among the allied forces. Tactical Combat Casualty Care (TCCC) training and the development of clinical practice guidelines (CPG) by the US Joint Trauma Service have been key strategies by the US Military to standardize care. However, the variation in trauma management training among NATO allies and the differences in medical subspecialties and approaches can lead to inefficiencies and reduced effectiveness in a multinational trauma center setting. For instance, the approach to trauma care can significantly differ between the US and European countries, impacting the interoperability and teamwork in multinational medical teams. To address these challenges, the article highlights the importance of standardized medical training programs that include cultural awareness to enhance the effectiveness of multidisciplinary, multinational medical teams. It also underscores the necessity for standardized international trauma training in the face of increasing global conflicts and the potential for large-scale combat operations. The article discusses the "Trauma Tuesday" program implemented in Kabul, Afghanistan, as an example of how intensive training and simulation exercises can improve team dynamics, knowledge, and skills in trauma management among a diverse team from various nations. The need for ongoing education and developing a standard for managing trauma patients in international teams is emphasized to ensure effective communication and coordination. The article suggests that multinational trauma training can significantly improve team cohesion and critical life-saving skills, essential for future battlefields where access to definitive care may be delayed. Further research is recommended to explore the best methods for achieving effective multinational medical team integration and training standardization.

Implementing Tourniquet Conversion Guidelines for Civilian EMS and Prehospital Organizations : A Case Report and Review.

Since the first documented use of a tourniquet in 1674, the popularity of tourniquets has waxed and waned. During recent wars and more recently in Emergency Medical Services systems, the tourniquet has been proven to be a valuable tool in the treatment of life-threatening hemorrhage. However, tourniquet use is not without risk, and several studies have demonstrated adverse events and morbidity associated with tourniquet use in the prehospital setting, particularly when left in place for more than 2 h. Consequently, the US military's Committee on Tactical Combat Casualty Care has recommended guidelines for prehospital tourniquet conversion to reduce the risk of adverse events associated with tourniquets once the initial hemorrhage has been controlled. Emergency Medical Services systems that operate in rural, frontier, and austere environments, especially those with transport times to definitive care that routinely exceed 2 h, may consider implementing similar tourniquet conversion guidelines.

A Pilot Study Using a Standardized Trauma Assessment Tool After Tactical Combat Casualty Care Course: A Comparison of the United States and Ghana.

Assessment, monitoring, and evaluation have been a required part of Global Health Engagement but difficult to accomplish. The current assessment, monitoring, and evaluation frameworks require implementation at the start of the project and are not designed to use for already existing programs. Tactical Combat Casualty Care (TCCC) is a standardized course now offered in 89 countries, but there has not been a standardized method of evaluating the quality across programs. Ghana's TCCC program began in March 2022 and provides a platform for development of a new method of evaluation globally. In this study, a standardized trauma scenario was performed by two groups of students, one who completed a TCCC Medical Provider course in Fort Detrick, MD and one who completed the course in Accra, Ghana. The students were scored using a standardized Trauma Assessment Score Sheet and the scores compared across the two groups. The mean Trauma Assessment Score was 58.5% in the United States and 58.3% in Ghana, with no statistically significant difference between the two groups (P-valueof .97). When regressed for confounding variables such as years of experience and deployment, the two groups still had no statistically significant difference (P-valueof .783). The two groups achieved similar mean scores despite significantly different testing environments and experience levels. Written post-test scores did not correlate well due to multiple confounding factors and appear to be a less accurate representation of student understanding and application than the Trauma Assessment Score. This study demonstrates use of a standardized scenario with graded checklist to compare between international programs. This can be used to and expanded to compare programs and support quality assurance and medical interoperability.

Disguised Among the Sea: The Implications of Artificial Islands on Casualty Care in the Indo-Pacific.

As reported in the 2022 Biden-Harris National Security Strategy, China is perceived as the primary U.S. competitor with the intent and means to become the world's greatest superpower. China's efforts, which are at odds with America's ambition to maintain its global influence, are complemented by ostensibly harmless "gray zone tactics," defined as coercive geopolitical, economic, military, and cyber activities below the use of kinetic military force. Such tactics may be utilized with seemingly innocuous intentions, but in reality, they can complicate U.S. combat casualty care in the event of an Indo-Pacific conflict. One tactic of particular impact is China's development of artificial islands throughout the South China Sea. By creating these islands, China is expanding its reach beyond its continental borders. These islands, alongside China's well-developed naval and missile capabilities, will cause disruptions to U.S. casualty care staging, medical resupply, and aeromedical evacuations. To mitigate those threats, the USA should implement a robust regional Combatant Command Trauma System, improve global health security cooperation with local partner nations, and implement irregular or guerilla trauma systems that meet medical needs in impromptu, clandestine settings. Operational recommendations based on these efforts could include pre-positioning tactical combat casualty care and damage control resuscitation supplies and developing with nearby host-nation evacuation platforms such as small boat operators. These solutions, among others, require years of training, relationship-building, and capability development to institute successfully. As a result, U.S. Military leaders should act now to incorporate these strategies into their irregular warfare, low-intensity conflict, and large-scale combat operation toolkits.

Life Over Limb: Why Not Both? Revisiting Tourniquet Practices Based on Lessons Learned From the War in Ukraine.

The use of tourniquets for life-threatening limb hemorrhage is standard of care in military and civilian medicine. The United States (U.S.) Department of Defense (DoD) Committee on Tactical Combat Casualty Care (CoTCCC) guidelines, as part of the Joint Trauma System, support the application of tourniquets within a structured system reliant on highly trained medics and expeditious evacuation. Current practices by entities such as the DoD and North Atlantic Treaty Organization (NATO) are supported by evidence collected in counter-insurgency operations and other conflicts in which transport times to care rarely went beyond one hour, and casualty rates and tactical situations rarely exceeded capabilities. Tourniquets cause complications when misused or utilized for prolonged durations, and in near-peer or peer-peer conflicts, contested airspace and the impact of high-attrition warfare may increase time to definitive care and limit training resources. We present a series of cases from the war in Ukraine that suggest tourniquet practices are contributing to complications such as limb amputation, overall morbidity and mortality, and increased burden on the medical system. We discuss factors that contribute to this phenomenon and propose interventions for use in current and future similar contexts, with the ultimate goal of reducing morbidity and mortality.

Emergency Fresh Whole Blood Transfusion Training for Ukrainian Health Professionals in Austere Environments.

Blood is a highly valuable medical resource that necessitates strict guidelines to ensure the safety and well-being of the recipient. Since the onset of the war in Ukraine there has been an increased demand for training in emergency fresh whole blood transfusion (EFWBT) to improve damage control resuscitation capabilities. To meet this demand, we developed, implemented, and evaluated a training program aimed at enhancing Ukrainian EFWBT proficiency. Eight Ukrainian healthcare professionals (UHPs), including six physicians and two medics, completed our training, derived from the Joint Trauma System Clinical Practice Guidelines, Tactical Combat Casualty Care (TCCC) Guidelines, 75th Ranger Regiment Ranger O-Low Titer (ROLO) program, and Marine Corps Valkyrie program. Participants were assessed on their confidence in the practical application and administrative oversight requirements of an EFWBT program. A cross-comparison was conducted between a larger data set of third-year medical students from the Uniformed Services University and the UHPs to determine the statistical significance of the program. The difference in mean scores of UHPs during preand post-training was statistically significant (p<0.001). Additionally, the average rate of improvement was greater for the UHPs compared with the third-year medical students (p=0.000065). Our study revealed that the application of an EFWBT training program for UHPs can significantly increase confidence in their ability to conduct EFWBTs on the battlefield. Further larger-scale research is needed to determine the impact of this training on performance outcomes.

Tactical Combat Casualty Care (TCCC) Guidelines: 25 January 2024.

Tactical Combat Casualty Care (TCCC) Guidelines: 25 January 2024.

Prescreened Whole O Blood Group Walking Blood Bank Capabilities for Nontraditional Maritime Medical Receiving Platforms: A Case Series.

Tactical Combat Casualty Care (TCCC) guidelines recognize low-titer group O whole blood (LTOWB) as the resuscitative fluid of choice for combat wounded. Utilization of prescreened LTOWB in a walking blood bank (WBB) format has been well described by the Ranger O low-titer blood (ROLO) and the United States Marine Corps Valkyrie programs, but it has not been applied to the maritime setting. We describe three WBB experiences of an expeditionary resuscitative surgical system (ERSS) team, attached to three nontraditional maritime medical receiving platforms, over 6 months. Significant variations were identified in the number of screened eligible donors, the number of LTOWB donors, and the timely arrival at WBB activation sites between the platforms. Overall, 95% and 84% of the screened eligible group O blood donors on the Arleigh Burke Class Destroyer (DDG) and Nimitz Class Aircraft Carrier (CVN), respectively, were determined to be LTOWB. However, only 37% of the eligible screened group O blood donors aboard the Harper's Ferry Class Dock Landing Ship (LSD) were found to be LTOWB. Of the eligible donors, 66% did not complete screening, with 52% citing a correctable reason for nonparticipation. LTOWB attained through WBBs may be the only practical resuscitative fluid on maritime platforms without inherent blood product storage capabilities to perform remote damage control resuscitation. Future efforts should focus on optimizing WBBs through capability development, education, and training efforts.

Evaluation ofGender Disparity inTactical Combat Casualty Care.

Women comprise nearly 19% of the U.S. military and now serve in almost all operational roles, increasing their risk of combat trauma and injuries.3 Data from the Joint Trauma Registry during Operation Enduring Freedom shows that battle-injured females had a higher case fatality rate at 36% compared to their male counterparts at 17%.1 The Tactical Combat Casualty Care curriculum is used to prepare battlefield medics to provide immediate care to wounded service members, but fails to address differences in the care of female versus male casualties. The students, who are presented with life-threatening injuries in simulated trauma scenarios, may be slower to assess, identify, and treat injuries in female patients as compared with male patients. This observational program analysis was reviewed by the Uniformed Services University Human Research Protections Program and approved for execution as an exempt protocol under the provision of 32 CFR 219.104(d)(1). The study assessed the performance of male and female Mexican military personnel during a Tactical Combat Casualty Care course, using standardized trauma scenarios. Anatomically, correct male and female manikins were used to compare response time for different gender patients presenting with the same injuries. There was a statistically significant increase in time required to complete an initial blood sweep, identify a gunshot wound to the chest, and call for medical evacuation when treating a female patient compared to a male patient. A lack of female representation in trauma training may have contributed to the higher case fatality rate of female soldiers compared to male soldiers during Operation Enduring Freedom. Female live actors and Gender Retrofit Kits can augment trauma casualty assessment and treatment training scenarios and better prepare our forces to respond to life-threatening emergencies.

A modified chain-based sponge dressing controls junctional hemorrhage in the tactical combat casualty care simulation of pigs

BackgroundHemorrhage has always been the focus of battlefield and pre-hospitalization treatment. With the increasing fatality rates associated with junctional bleeding, treatment of bleeding at junctional sites has gradually gained attention in battlefield trauma emergency care. We designed a modified chain-based sponge dressing with a medical polyvinyl alcohol sponge that can be used to treat junctional hemorrhage and tested its hemostatic efficacy and biocompatibility.MethodsTwenty adult Bama miniature pigs were randomly divided into the modified chain-based sponge dressing (MCSD) and standard gauze (SG) groups. The right femoral artery of the pigs was shot at after anesthesia. The Bama miniature pigs were moved to the safety zone immediately to assess the condition according to the MARCH strategy, which evaluates massive hemorrhaging, airway obstruction, respiratory status, circulatory status, head injury & hypothermia. Hemoglobin and coagulation status were checked during the experiment.Among the pigs in which the inguinal hemorrhagic model based on bullet penetrating wounds was successfully established, those in the MCSD group received a disinfected MCSD for hemostasis, while those in the SG group received standard gauze in an imbricate manner to pack the bullet exit and entrance wounds to stop bleeding until the wound was filled, followed by compression for 3 min at sufficient pressure. CT scanning, transmission electron microscopy, and HE staining were conducted after experiment.ResultsThe MCSD group showed lower hemostasis time and blood loss than the gauze group. The MCSD group also showed a higher success rate of treatment,more stable vital signs and hemoglobin level. The CT scanning results showed tighter packing without large gaps in the MCSD group. The histopathological assessments and the transmission electron microscopy and HE staining findings indicated good biocompatibility of the polyvinyl alcohol sponge.ConclusionThe MCSD met the battlefield’s requirements of speedy hemostasis and biosafety for junctional hemorrhage in Bama miniature pigs. Moreover, in comparison with the conventional approach for hemostasis, it showed more stable performance for deep wound hemostasis. These findings provide the theoretical and experimental basis for the application of MCSD in the treatment of hemorrhage in the battlefield in the future.

TCCC Decision Support With Machine Learning Prediction ofHemorrhage Risk, Shock Probability.

Expected future delays in evacuation during near-peer conflicts in remote locales are expected to require extended care including prolonged field care over hours to days. Such delays can increase potential complications, such as insufficient blood flow (shock), bloodstream infection (sepsis), internal bleeding (hemorrhage), and require more complex treatment beyond stabilization. The Trauma Triage Treatment and Training Decision Support (4TDS) system is a real-time decision support system to monitor casualty health and identify such complications. The 4TDS software prototype operates on an Android smart phone or tablet configured for use in the DoD Nett Warrior program. It includes machine learning models to evaluate trends in six vital signs streamed from a sensor placed on a casualty to identify shock probability, internal hemorrhage risk, and need for a massive transfusion. The project team used a mixed methods approach to create and evaluate the system including literature review, rapid prototyping, design requirements review, agile development, an algorithm "silent test," and usability assessments with novice to expert medics from all three services. Both models, shock (showing an accuracy of 0.83) and hemorrhage/massive transfusion protocol, were successfully validated using externally collected data. All usability assessment participants completed refresher training scenarios and were able to accurately assess a simulated casualty's condition using the phone prototype. Mean responses to statements on evaluation criteria [e.g., fit with Tactical Combat Casualty Care (TCCC), ease of use, and decision confidence] fell at five or above on a 7-point scale, indicating strong support. Participatory design ensured 4TDS and machine learning models reflect medic and clinician mental models and work processes and built support among potential users should the system transition to operational use. Validation results can support 4TDS readiness for FDA 510k clearance as a Class II medical device.

Ruggedized Self-Propelling Hemostatic Gauze Delivers Low Dose of Thrombin and Systemic Tranexamic Acid and Achieves High Survival in Swine With Junctional Hemorrhage.

Hemorrhage is responsible for 91% of preventable prehospital deaths in combat. Bleeding from anatomic junctions such as the groin, neck, and axillae make up 19% of these deaths, and reports estimate that effective control of junctional hemorrhage could have prevented 5% of fatalities in Afghanistan. Hemostatic dressings are effective but are time-consuming to apply and are limited when proper packing and manual pressure are not feasible, such as during care under fire. CounterFlow-Gauze is a hemostatic dressing that is effective without compression and delivers thrombin and tranexamic acid into wounds. Here, an advanced prototype of CounterFlow-Gauze, containing a range of low thrombin doses, was tested in a lethal swine model of junctional hemorrhage. Outcomes were compared with those of Combat Gauze, the current dressing recommended by Tactical Combat Casualty Care. CounterFlow-Gauze containing thrombin doses of 0, 20, 200, and 500 IU was prepared. Swine received femoral arteriotomies, and CounterFlow-Gauze was packed into wounds without additional manual compression. In a separate study using a similar model of junctional hemorrhage without additional compression, CounterFlow-Gauze containing 500 IU thrombin was tested and compared with Combat Gauze. In both studies, the primary outcomes were survival to 3 h and volume of blood loss. CounterFlow-Gauze with 200 and 500 IU had the highest 3-h survival, achieving 70 and 75% survival, respectively. CounterFlow-Gauze resulted in mean peak plasma tranexamic acid concentrations of 9.6 ± 1.0 µg/mL (mean ± SEM) within 3 h. In a separate study with smaller injury, CounterFlow-Gauze with 500 IU achieved 100% survival to 3 h compared with 92% in Combat Gauze animals. An advanced preclinical prototype of CounterFlow-Gauze formulated with a minimized thrombin dose is highly effective at managing junctional hemorrhage without compression. These results demonstrate that CounterFlow-Gauze could be developed into a feasible alternative to Combat Gauze for hemorrhage control on the battlefield.

Usability Enhancements to a Prototype Clinical Decision Support System forCombat Medics.

A Clinical Decision Support System that provides just-in-time medical guidance at the point of injury is being developed. To develop a user interface, a user-centered design approach was taken. To evaluate the system, personas of the users were created, a comparative analysis of the system against the Tactical Combat Casualty Care Card and Battlefield Assisted Trauma Distributed Observation Kit was completed, and user testing was performed. Many design recommendations were gathered from the user-centered design approach including replacing buttons with a homunculus, replacing prompts with a tree and node system, and allowing more user freedom in working with the system. Through multiple different evaluations, design recommendations for a clinical decision support system were implemented in an iterative process. More iterations and more formalized user testing are planned to maximize the usability of the system.

Telemedicine-Guided Two-Incision Lower Leg Fasciotomy Performed by Combat Medics During Tactical Combat Casualty Care: A Feasibility Study.

During tactical combat casualty care, life- and limb-saving procedures might also be performed by combat medics. This study assesses whether it is feasible to use a head-mounted display (HMD) to provide telemedicine (TM) support from a consulted senior surgeon for combat medics when performing a two-incision lower leg fasciotomy. Nine combat medics were randomized into groups to perform a two-incision lower leg fasciotomy. One group used the Vuzix M400 and the second group used the RealWear HMT-1Z1. A third, control, group received no guidance. In the Vuzix M400 group and RealWear HMT-1Z1 group, a senior surgeon examined the results after the two-incision lower leg fasciotomy was finished to assess the release of compartments, possible collateral damage, and performance of the combat medics. In the control group, these results were examined by a surgical resident with expertise in two-incision lower leg fasciotomies. The resident's operative performance questionnaire was used to score the performance of the combat medics. The telehealth usability questionnaire was used to evaluate the usability of the HMDs as perceived by the combat medics. Combat medics using an HMD were considered competent in performing a two-incision lower leg fasciotomy (Vuzix: median 3 [range 0], RealWear: median 3 [range 1]). These combat medics had a significantly better score in their ability to adapt to anatomical variances compared to the control group (Vuzix: median 3 [range 0], RealWear: median 3 [range 0], control: median 1 [range 0]; P = .018). Combat medics using an HMD were faster than combat medics in the control group (Vuzix: mean 14:14 [SD 3:41], RealWear: mean 15:42 [SD 1:58], control: mean 17:45 [SD 2:02]; P = .340). The overall satisfaction with both HMDs was 5 out of 7 (Vuzix: median 5 [range 0], RealWear: median 5 [range 1]; P = .317). This study shows that it is feasible to use an HMD to provide TM support performance from a consulted senior surgeon for combat medics when performing a two-incision lower leg fasciotomy. The results of this study suggest that TM support might be useful for combat medics during tactical combat casualty care when performing life- and limb-saving procedures.

Associations with Prehospital Antibiotic Receipt among Combat Casualties with Open Wounds: A Department ofDefense Trauma Registry Study.

Current Tactical Combat Casualty Care (TCCC) guidelines recommend antibiotic administration for all open wounds to prevent infection. We identified associations between demographics, procedures, and medicines with the receipt of prehospital antibiotics among combat casualties. We used a series of emergency department procedure codes to identify adult subjects within the Department of Defense Trauma Registry from January 2007 to August 2016 who sustained open wounds. We compared demographics, procedures, and medicines administered among casualties receiving prehospital wound prophylaxis versus casualties not receiving antibiotic prophylaxis. We controlled for confounders with multivariable logistical regression. We identified 18,366 encounters meeting inclusion criteria. Antibiotic recipients (n = 2384) were comparable to nonrecipients (n = 15,982) with regard to age and sex. Antibiotic recipients were more likely to sustain injuries from firearms and undergo all procedures examined related to hemorrhage control, airway management, pneumothorax treatment, and volume replacement except for intraosseous access. Antibiotic recipients were less likely to sustain injuries from explosives. Antibiotic recipients had a modestly higher survival than nonrecipients (97.4% versus 96.0%). Associations with prehospital antibiotic receipt in multivariable logistic regression included non-North Atlantic Treaty Organization military force affiliation (odds ratio (OR) 4.65, 95% CI, 1.0-20.8), tachycardia (OR 3.4, 95% CI, 1.1-10.5), intubation (OR 2.0, 95% CI, 1.1-3.8), and administration of tranexamic acid (OR 5.6, 95% CI, 1.2-26.5). The proportion of combat casualties with open wounds receiving prehospital antibiotics was low despite published recommendations for early antibiotics in patients with open wounds. These findings highlight the ongoing need for additional educational and quality assurance initiatives to continue improving adherence to TCCC guidelines with regard to prehospital antibiotic administration. Future studies are necessary to determine reasons for suboptimal TCCC guideline compliance.

EDUCATION OF POLICE OFFICERS IN QUALIFIED FIRST AID

The article is an attempt at comparing and evaluating the Tactical Combat Casualty Care (TCCC) courseand the Qualified First Aid (QFA) course in terms of their usefulness in the daily service of Polish policeofficers. The research using the diagnostic survey technique was conducted in late 2022 and early 2023based on a survey questionnaire introduced in Google Forms. The research was carried out amongthe personnel of emergency medical teams performing medical rescue activities throughout Poland.As part of the preparation of the research design, it was assumed that a group of these respondentshave the necessary medical qualifications to assess the rescue activities of others. In addition, as partof their profession, the respondents often witness the actions of police officers providing first aid at thescene. The study compiled research material that allowed verifying the research hypothesis adoptedin the deliberations. Nonetheless, the authors are aware of the limitations of the adopted researchmethodology. The final part of the article presents conclusions and recommendations on the directionof proposed changes in police education in the field of qualified first aid.

Decision Support System Proposal for Medical Evacuations in Military Operations

The area of military operations is a big challenge for medical support. A particularly important factor that allows medical services to react quickly in the case of mass casualties is the ability to rapidly evacuation of wounded soldiers from a battlefield. To meet this requirement, an effective medical evacuation system is essential. The paper presented the architecture of the electronically supported decision support system for medical evacuation during military operations. The system can also be used by other services such as police or fire service. The system meets the requirements for tactical combat casualty care procedures and is composed of following elements: measurement subsystem, data transmission subsystem and analysis and inference subsystem. The system, based on the continuous monitoring of selected soldiers’ vital signs and biomedical signals, automatically proposes a medical segregation of wounded soldiers (medical triage). The information on the triage was visualized using the Headquarters Management System for medical personnel (first responders, medical officers, medical evacuation groups) and for commanders, if required. All elements of the architecture were described in the paper.

Casualty evacuation in arctic and extreme cold environments: A paradigm shift for traumatic hypothermia management in tactical combat casualty care

ABSTRACT In Arctic or extreme cold environments of Alaska, trauma care is complicated by large expanses of geography and lack of forward-positioned resources. This paper presents four hypothetical vignettes highlighting austere cold medical priorities: (1) traumatic hypothermia management as part of Tactical Combat Casualty Care (TCCC) is clinically and tactically important and hypothermia needs to be reprioritized in the MARCH algorithm to MhARCH; (2) at present it is unknown which TCCC recommended medical equipment/supplies will function as designed in the extreme cold; (3) ensuring advanced resuscitative care measures are available serves as a temporal bridge until casualties can receive damage control resuscitation (DCR); and (4) current systems for managing traumatic hypothermia in TCCC and casualty evacuation (CASEVAC) are insufficient. In conclusion, numerous assessments recognise the DoD’s current solutions for employing medical forces in Arctic operations are not optimally postured to save lives. There should be a joint standard for fielding an arctic supplement to current medical equipment sets. A new way of thinking in terms of an “ecosystem” approach of immediate casualty protection and movement in CASEVAC doctrine is needed to optimise these “Golden Minutes.”

Ukraine Report from the Field: TCCC in the Multidomain Battlespace

Introduction:Russia invaded Ukraine in February 2022, leading to significant preventable death across Defense forces and communities. When appropriate and adequate training has been provided, the use of point of injury (POI) care guidelines as exhibited by tactical combat casualty care (TCCC) and the implementation of damage control resuscitation (DCR) and damage control surgery (DCS) can reduce preventable morbidity and mortality in the far foreword environment. Background: Russia invaded Ukraine in 2014 exacting a heavy increase in preventable morbidity and mortality on the battlefield. Multiple global health engagement strategies by allied forces and health partners have focused on prehospital medicine. The most recent iteration of violence has seen a comprehensive invasion with the use of multi-domain battle and conventional weapons systems across nearly every state in Ukraine. These conventional weapon systems deployed by Russian forces exact a heavy lethality on all communities.Method:This report uses anecdotal data from undisclosed locations in Eastern Ukraine from the tactical evacuation care, Role 1, Role 2 to the Role 3 echelons of care as reported.Results:Appropriate application of combat application tourniquets (CATs), pressure dressings, access to tranexamic acid (TXA), antibiotics, basics of TCCC care and DCR/DCS, including access to blood as early as possible, save lives.Conclusion:Rapid access to tactical evacuation care and initiation of DCR/DCS from Role 1 to Role 2 has good effect. The Ukrainian armed forces have pushed damage control Resuscitation and Surgery as far forward as Role 1, which may require a paradigm shift within the NATO military medical standards and preparations for a peer conflict.Adequate TCCC, DCR and DCS training in the form of global health engagement have anecdotal success in the reduction of morbidity and mortality and in providing force health and medical readiness across NATO nations and partner forces such as Ukraine.