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Military medical facilities

With the changes in transportation capabilities and associated concepts of operations, the mobility of modern military forces has a tremendous impact on how a medical unit must function. It is essential that the medical facilities that are operating in close support of highly mobile forces be as mobile as those forces. This imposes severe restrictions on how long they can retain patients in one location. An efficient and flexible plan of evacuation is absolutely essential in order for forward medical facilities to retain mobility. [Pg.32]

The classical concept of military medical care has been that a chain of surface or ground evacuation is available. Using helicopter evacuation, immediate casualty collection points may be bypassed so that wounded personnel can be taken directly to well-equipped hospital facilities located relatively far to the rear reducing the need for an extensive ground evacuation system. However, reorganization of the medical evacuation system in which the intermediate elements are deleted, based primarily upon the proposed use of helicopter evacuation, may not be possible or desirable. Helicopter evacuation may become severely limited if nuclear weapons are used extensively, and the success of helicopter evacuation is certainly affected by weather conditions and enemy air capabilities. Therefore, a ground based evacuation system must be planned for since it could easily become the primary means of evacuation. [Pg.32]

It should be a disease against which there is no natural immunity. It should be highly infectious, and yet the enemy should not be able to produce a vaccine against it or be able to cure the disease with the medical facilities available to him. And from a military point of view, it should be a disease which was easy to reproduce, yet hardy enough to survive and reproduce itself outside the laboratory. [Pg.249]

Effective and efficient incident response depends on the rapid and accurate identification of the chemical agents involved. The protection of first responders and emergency medical personnel at local medical facilities, as well as the effective treatment of casualties, hinges on this critical capability. Various devices capable of detecting chemical agents in the environment are available to civilian communities. Many devices were designed for military applications but have now been adapted for civilian use. [Pg.428]

In the event of an enemy attack with chemical agents, those in the military medical departments must consider first aid, treatment, evacuation, and decontamination procedures of contaminated casualties—some of whom may have injuries made by conventional weapons in addition to their chemical injuries. The ultimate objective in the management of all contaminated casualties is to provide the earliest and most effective treatment without compounding injuries or contaminating medical personnel and treatment facilities. [Pg.326]

Yet, how unique is Britain s military medical ethics culture as reflected m work at Porton How do the findings for Britain s secret science facilities compare with other Allied military research establishments By examining the actors and agencies responsible for introducing changes in military... [Pg.17]

The incorporation of e-textiles into military uniforms has helped achieve sophisticated functions such as physiological status monitoring, wearable power supplies and electric resistive heating. A soldier should be in good physical condition to optimally perform his or her mission. Health monitoring can help to improve the promptness in provision of medical facilities in the treatment of casualties. [Pg.242]

Self-contained, man-portable Al-air alkaline batteries are widely used in battlefield applications and remote military locations. The battery units initially come with dry alkali contained in the cells, and water can be added when electrical power is desired. The modules can provide temporary electrical power for mobile shelters, command and control communications centers, and field medical facilities. The man-portable Al-air batteries can act as power supplies for unmanned vehicles. Specific details on the components used in the self-contained, man-portable Al-air battery are shown in Figure 6.3. Such a battery was designed and developed about 15 years ago for UAVs and UUWVs and is capable of providing a nominal power of 1.6 kW and a peak power of 4 kW. But, the next generation of such a battery with high-quality alloy is expected to have a peak power exceeding 5 kW. [Pg.234]

The battery system offers a modular design configuration, which is most ideal to provide temporary electrical power for mobile shelters in remote areas with no commercial power, command and covert communication centers, and portable field medical facilities. This battery can be deployed in air commercial and military aircraft, UAVs, and anti-improvised explosive device (lED) systems. [Pg.287]

U.S. airbase soldiers also carried battle dressings and 500 mL lactated Ringer s solution (for fluid replacement) [4]. Specialist medical trained soldiers (corpsmen) carried standard trauma packs, first aid kits and antibiotics, with the expectation that the seriously injured would be evacuated directly to a military facility by helicopter. [Pg.122]


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Medical facilities

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