Israel Medical Association Journal

War is as old as history. Some may say it is older. The first Biblical war, dated 1880–1875 BCE, is depicted in the book of Genesis between nine kings in the vicinity of the Jordan river near Jericho. By the end of the war, Abraham (Abram) gets involved in saving his nephew Lot.

In addition to war, military medicine also has its roots in historical times. Hippocrates (460–377 BCE), the father of medicine, derived his medical knowledge from the battlefield, and Sushruta [1], the father of plastic surgery, mentioned the physician's preventive role in noting environmental hazards: "A common practice of the enemy is to poison the wells on the roadside, the articles of food, the shades of trees, and the fuel and forage for cattle; hence, it is incumbent on a physician marching with the troops to inspect, examine, and purify these before using any of them, in case they are poisoned."

The Greeks stated new ideas of military health, pointing to fitness promotion, gymnastics, and healthy diets to prevent illness. Over the centuries, from Alexander the Great to Napoleon’s army and wars in the 20th century, military conflicts have led to the death of hundreds of millions of people from trauma and war-related disease. Amazingly analyses of the 18th and 19th centuries have shown that 80% of the soldiers died from disease, and historians and military personnel agree that during armed conflicts in known history, only a minority of soldiers perished by the sword.

In Israel, the Israel Defense Forces-Medical Corps (IDF-MC) holds a unique position embedded in military and civilian national medicine. All medical personnel (e.g., physicians, nurses, technicians, veterinarians) who work in the IDF-MC receive their diplomas from civilian universities, train in civilian hospitals, and continue to practice in the national health system. The majority of these professionals continue to work in different civilian medical platforms in Israel after finishing their mandatory service. The IDF-MC's primary mission is to provide optimal medical care to IDF soldiers at all times (including wartime), to prevent disease and promote health, advance military medicine, and aid the civilian sector as ordered by the Government of Israel.

In this special issue of Israel Medical Association Journal (IMAJ) is to expose readers to the continuous efforts of the IDF-MC to fulfill its mission by promoting research in multiple medical fields, including trauma, ambulatory care, health administration. In addition, in this issue of IMAJ, authors discuss the unique collaboration with the civilian system during the coronavirus disease 2019 (COVID-19) pandemic.

Trauma and trauma-related injuries are the main focus of military medical research. Ben-Avi and colleagues [2] described outcomes of emergent exploratory thoracotomies on military casualties and addresses parameters that may impact the survival of these casualties. Minervini [3] further discussed the issue. Bez et al. [4] researched the impact of isolated versus non-isolated traumatic brain injuries on injury identification and decision-making by care providers in austere scenarios. Tsur and co-authors [5] described the characteristics of a unique type of terror attack: vehicle ramming.

Additional examples of treatments provided in the military prehospital arena were analyzed by Nakar and colleagues [6] who discussed how to assess pain medications administered to trauma casualties in the past two decades by IDF-MC care providers. Rittblat et al. [7] further described the use of freeze-dried plasma, a blood component used in the prehospital arena and administered via intraosseous vascular access.

The IDF-MC is a continuously changing organization emphasizing the adoption of advanced technologies and devices. Chen et al. [8] presented a blinded study on the use of point-of-care ultrasound and remote telementored ultrasound by inexperienced operators, and Sorkin et al. [9] described the BladeShield 101: a novel device for the battlefield designed to continuously measure vital signs and medical treatment provided and to transfer data through roles of care.

In this special issue of IMAJ, authors also discusse gender-related aspects at the core of medical treatment. Segal et al. [10] examined whether missed injuries were related to the medical provider's gender, while Gelikas et al. [11] assessed whether treatment with analgesia was associated with casualty gender in the military prehospital trauma setting

Over the past two and a half years, the COVID-19 pandemic has been a significant part of our lives. During these years, medical systems and teams throughout Israel and around the world struggled to adapt to this new disease and save lives fighting the pandemic. Geva et al. [12] and Shental et al. [13] discussed the impact of COVID-19 on the IDF medical system, lessons learned during the outbreak, and effects of different diseases during these times on medical treatment provided by the IDF to soldiers.

Background: To mitigate the spread of coronavirus disease 2019 (COVID-19), national guidelines, in accordance with international health authorities, mandated 14 days of quarantine for every close contact of a confirmed COVID-19 patient. Although health benefits are obvious, consequences are profound, especially for organizations required to maintain operational preparedness.

Objectives: To present the Israel Defense Force (IDF) experience with outbreaks regarding quarantined individuals. To weigh the consequences of quarantined individuals needed for workforce and operation.

Methods: All positive COVID-19 cases in the IDF, as measured by a positive rRT-PCR test result, between 29 February and 18 May 2020 were evaluated. Numbers of positive individuals, quarantined individuals, and confirmatory exams conducted were collected. We compared the events in four units with the largest outbreaks and assessed the impact of confirmed cases, tests conducted, and workforce loss due to quarantine.

Results: Of the 187 soldiers who tested positive for COVID-19, source of infection was traced to 140 soldiers (75%). Almost no medical treatment was delivered, and hospitalization was rare. We found a median of 15.2% (interquartile range 5.3–34) for decline in unit workforce due to quarantine measures. Maximum reduction reached 47% of the workforce in one unit.

Conclusions: Despite a relatively small number of confirmed cases, units underwent a substantial change in mode of operation due to the toll of quarantined individuals. In certain populations and organizations, perhaps a more liberal application of isolation and contact tracing is suitable due to the heavy economic burden and consequences in term of operational readiness.

Background: The Israeli Defense Forces-Medical Corps (IDF-MC) focuses on reducing preventable death by improving prehospital trauma care. High quality documentation of care can serve casualty care and to improve future care. Currently, paper casualty cards are used for documentation. Incomplete data acquisition and inadequate data handover are common. To resolve these deficits, the IDF-MC launched the BladeShield 101 project.

Objectives: To assess the quality of casualty care data acquired by comparing standard paper casualty cards with the BladeShield 101.

Methods: The BladeShield 101 system consists of three components: a patient unit that records vital signs and medical care provided, a medical sensor that transmits to the patient unit, and a ruggedized mobile device that allows providers to access and document information. We compared all trauma registries of casualties treated between September 2019 and June 2020.

Results: The system was applied during the study period on 24 patients. All data were transferred to the military trauma registry within one day, compared to 72% (141/194) with a paper casualty card (P < 0.01). Information regarding treatment time was available in 100% vs. 43% (P < 0.01) of cases and 98% vs. 67% (P < 0.01) of treatments provided were documented comparing BladeShield 101 with paper cards, respectively.

Conclusions: Using an autonomous system to record, view, deliver, and store casualty information may resolve most current information flow deficits. This solution will ultimately significantly improve individual patient care and systematic learning and development processes.