A Brief Primer on the Concept of the Neuroweapon for U.S. Military Medical Personnel.

The malevolent application of neuroscience is an emerging threat to the U.S. military. At present, U.S. military medical personnel are not capable of adequately diagnosing or treating the injuries and illnesses that may result from exposure to potential neuroweapons. This fact was illustrated in 2016 when U.S. diplomats serving in Havana, Cuba reported hearing strange noises accompanied by a constellation of unexplained health effects. Similar incidents have been reported in China and Russia. Although various hypotheses have been put forward to explain these symptoms, none of them have been verified. The reported symptoms were analogous to the physiological responses that have been produced in the laboratory by exposing volunteers to pulsed microwave energy. However, these incidents of undetermined origin demonstrate that widespread neurological illness can be disruptive to U.S. government operations and that it is currently not possible to identify the cause, determine the correct treatment, or ascribe attribution to potential neuroweapon use in an overseas setting. Since it is likely that Special Operations medical personnel will be among the first to respond to neuroweapon attacks in the deployed environment, it is essential that they be made aware of this emerging threat and that efforts be made to incorporate potential directed energy neuroweapons and other neuroweapon configurations into future Chemical, Biological, Radiological, Nuclear, and high yield Explosives (CBRN-E) training modules. The intention of this article is to introduce the concept of the neuroweapon to military medical personnel and to provide a brief review of the relevant literature.

Stability of SARS-CoV-2 on the Army Combat Uniform and Recommendations for Cleaning.

SARS-CoV-2 is the virus responsible for the disease that is known as COVID-19. While there have been numerous studies detailing the survival rates of SARS-CoV-2 on various materials, there are currently no published data regarding whether this virus is stable on standard military uniforms. Consequently, there are no standard operating procedures for washing uniforms once exposed to the virus. This study aimed to determine whether SARS-CoV-2 could be removed from Army combat uniform material by washing with a commercially available detergent and tap water. Washing the fabric with detergent followed by a rinse step with tap water effectively removes detectable viral particles. Importantly, it was found that washing with hot water alone was not effective. Therefore, it is recommended that military personnel wash their uniforms with detergent and water as soon as possible after exposure to SARS-CoV-2; hot water should not be used as a substitute for detergent.

An Introduction to the Processionary Caterpillar, An Underrecognized Threat to US Military Personnel in Australia.

Processionary caterpillars are well-described threats to human and animal health. They are found throughout Central Asia, Northern Africa, and Southern Europe. However, US military personnel may not be familiar with the threat that these organisms pose in Australia. The larval form of the bag-shelter moth (Ochrogaster lunifer) is a processionary caterpillar that has been found throughout inland and coastal Australia. These organisms are habitually associated with Acacia and Eucalyptus trees and they tend to form long chains known as "processions" as they travel between nesting and pupating sites. They are covered with numerous hairs that can detach, become airborne, and cause potentially life-threatening inflammatory reactions and ocular trauma in susceptible personnel. They can also cause severe inflammatory reactions in military working animals. It is important that military and preventive medical personnel become aware of the presence of processionary caterpillars in Australia, and that they can identify aerial or ground-based nests so that these dangerous organisms can be avoided by both humans and animals. Early identification is important so that prompt medical treatment can be rendered in the event of an accidental exposure.

Detection of Potential Pathogenic Bacteria on the Surfaces of Female Urinary Diversion Devices Following a Short Duration Military Training Exercise.

BACKGROUND: Female Servicemembers are increasingly being incorporated into the combat arms and Special Operations communities. Female urinary diversion devices (FUDDs) have been used to facilitate urination in the austere environments that are encountered by Servicemembers. Importantly, the potential for the bacterial contamination of these devices has not been evaluated. The goals of this study were to determine whether microorganisms adhere to the surfaces of FUDDs in the field environment and to demonstrate the presence of potential pathogens on the used devices. MATERIALS AND METHODS: A total of 15 devices that were used in a comprehensive 18-24-hour military field exercise were tested for the presence of microorganisms. Briefly, each device was swabbed, and the swabs were used to inoculate blood agar plates to encourage bacterial growth. The resulting bacterial colonies were identified, and the surface topography of the devices was investigated with electron microscopy. RESULTS: Although microscopy revealed few surface features capable of facilitating bacterial attachment, several species were recovered. Significantly, a biofilm-forming strain of Proteus mirabilis (P. mirabilis) was detected on two of the devices. P. mirabilis is a mobile urinary pathogen that can potentially migrate from the surface of the device into the urinary tract of the user. CONCLUSION: Commercial FUDDs can support bacterial growth and harbor potential pathogens. Care should be taken to ensure that Servicemembers are aware of the importance of the proper care and cleaning of these devices in the field environment. To this end, standard operating procedures should be developed and distributed.

Human Bocavirus as a Possible Contributor to Respiratory Disease in the Georgian Military Population.

The coronavirus disease 2019 (COVID-19) pandemic has demonstrated that new and devastating respiratory pathogens can emerge without warning. It is therefore imperative that Special Operations medical personnel be aware of the presence of emerging pathogens within their area of operation. Human bocavirus (HBoV) is a newly described member of a family of viruses known as the Parvovirinae that are often associated with acute respiratory illness. The presence of HBoV in the country of Georgia has not been previously reported. Nasal and throat swabs were collected from 95 symptomatic members of the Georgian military. HBoV was detected in 11 of them (12%). To our knowledge, this is the first report of HBoV infection in the country of Georgia. This finding may have a significant impact on members of the Special Operations community who train in Georgia as more data concerning the transmission, pathogenesis, and treatment of HBoV are accumulated and the role of HBoV in human disease is more clearly defined.

An Unusual Wound Infection Due to Acinetobacter junii on the Island of Oahu: A Case Report.

The genus Acinetobacter has long been associated with war wounds. Indeed, A baumannii was responsible for so many infected wounds during Operation Iraqi Freedom that it was given the nickname "Iraqibacter." Therefore, it is important to monitor the occurrence and spread of Acinetobacter species in military populations and to identify new or unusual sources of infection. A junii is an infrequently reported human pathogen. Here, we report a case of a slow-healing wound infection with A junii in a woman on the island of Oahu. This case highlights the pathogenic potential of this organism and the need for proper wound care when dealing with slow-healing wounds of unknown etiology. It also underscores the need for identifying species of Acinetobacter that are not A baumannii to better understand the epidemiology of slow-healing wound infections.

Arthropod Borne and Zoonotic Infections Among Military Personnel in Georgia.

Military personnel are at an increased risk for exposure to arthropod- borne and zoonotic pathogens. The prevalence of these pathogens has not been adequately described in the country of Georgia. As the Georgian military moves toward an increased level of capability and the adoption of European Union and North Atlantic Treaty Organization standards, international field exercises will become more frequent and will likely involve an increasing number of international partners. This study was undertaken with the goal of defining the arthropod-borne and zoonotic pathogen threat in Georgia so force health protection planning can proceed in a rational and data-driven manner. To estimate disease burden, blood was taken from 1,000 Georgian military recruits between October 2014 and February 2016 and screened for previous exposure to a set of bacterial and viral pathogens using a antibody-based, serologic procedure. The highest rate of exposure was to Salmonella enterica serovar Typhi, and the lowest rate of exposure was to Coxiella burnettii (the causative agent of Q fever). These data provide insight into the prevalence of arthropod-borne infections in Georgia, fill a critical knowledge gap, will help guide future surveillance efforts, and will inform force health protection planning.

The Hidden Complexity of Biological "Dirty Bombs": Implications for Special Operations Medical Personnel.

The recent capture of a terrorist in Belgium carrying explosives, fecal matter, and animal tissue may indicate a shift from conventional weapons to crude bacteriological preparations as instruments of terror. It is important to note that although such weapons lack technological sophistication, bacteria are inherently complex, unpredictable, and undetectable in the field. Therefore, it is important that Special Operations medical personnel understand the complications that such seemingly simple devices can add to the treatment of casualties in the field and subsequent evaluation in the clinic.

Recovery of Bacteria and Fungi From a Leg Wound.

Acute and chronic wound infections can both be encountered in the deployed setting. These wounds are often contaminated by bacteria and fungi derived from the external environment. In this article, we present the case of a wound infection simultaneously colonized by Enterobacter cloacae (a bacterial pathogen) and Trichosporon asahii (an unusual fungal pathogen). We describe the examination and treatment of the patient and review the distinguishing characteristics of each organism.