Following the suggestion that it was possible that cases of melioidosis amongst those who had been exposed abroad in the past, might be escaping notice, 487 Royal Marines were examined by indirect haemagglutination studies. Four hundred and eleven of these subjects had served for variable times in areas where melioidosis has been known to occur in Indonesia and Malaya, between 1960 and 1974, occupied in activities in the jungle and paddy fields during which exposure to the disease was to be expected. No evidence of residual subclinical melioidosis was found and it seems unlikely that recrudescent disease will prove to be a problem in the future for English servicemen who have been in South East Asia.
The nutritional status of 158 soldiers drawn from four army camps in Selangor, Negeri Sembilan and Pahang has been assessed by biochemical procedures, nutritional anthropometry and dietary (chemical) analysis. Biochemical assessment showed that with the exception of thiamin and riboflavin nutriture, the nutritional status of the soldiers appeared generally satisfactory and seemed to have improved slightly over those examined by the Inter-Departmental Committee on Nutrition and National Defence (ICNND), USA, in 1962 by similar methods. The anthropometric assessment indicated that the present day soldiers have the same mean height as those examined in 1962. Although they appeared slightly heavier, obesity did not seem to be a problem. Chemical analysis of their diet showed that there is room for improvement in the dietary supply of vitamin A and some of the water-soluble vitamins, particularly riboflavin, thiamin and vitamin C. There was also a significant discrepancy between the nutritional content of the chemically-analysed cooked meals and those calculated from the ration scales using Food Composition Tables, suggesting a need to review the current system of food supply,
preparation and food sertnce unthin army camps in
Malaysia.
The dynamic nature of modern warfare, including threats and injuries faced by soldiers, necessitates the development of countermeasures that address a wide variety of injuries. Tissue engineering has emerged as a field with the potential to provide contemporary solutions. In this review, discussions focus on the applications of stem cells in tissue engineering to address health risks frequently faced by combatants at war. Human development depends intimately on stem cells, the mysterious precursor to every kind of cell in the body that, with proper instruction, can grow and differentiate into any new tissue or organ. Recent reports have suggested the greater therapeutic effects of the anti-inflammatory, trophic, paracrine and immune-modulatory functions associated with these cells, which induce them to restore normal healing and tissue regeneration by modulating immune reactions, regulating inflammation, and suppressing fibrosis. Therefore, the use of stem cells holds significant promise for the treatment of many battlefield injuries and their complications. These applications include the treatment of injuries to the skin, sensory organs, nervous system tissues, the musculoskeletal system, circulatory/pulmonary tissues and genitals/testicles and of acute radiation syndrome and the development of novel biosensors. The new research developments in these areas suggest that solutions are being developed to reduce critical consequences of wounds and exposures suffered in warfare. Current military applications of stem cell-based therapies are already saving the lives of soldiers who would have died in previous conflicts. Injuries that would have resulted in deaths previously now result in wounds today; similarly, today's permanent wounds may be reduced to tomorrow's bad memories with further advances in stem cell-based therapies.
Malaysian, British and New Zealand soldiers were tested for evidence of infection with Rickettsia tsutsugamushi after several weeks' exposure to the infection during field exercises in Malaysia. 39 (5.0%) of 787 British and New Zealand soldiers developed immunofluorescent antibody (IFA) to R. tsutsugamushi to a titre of 1:50 and two (0.3%) to a titre of 1:100. 11 (1.5%) of 751 Malaysian soldiers also developed low titres less than or equal to 1:100. These low antibody levels were not correlated with clinical disease, and their significance is unknown. Seven (0.9%) of the Malaysians showed an IFA rise to greater than or equal to 1:200, and three of these experienced febrile illnesses, one lasting two weeks. An additional eight Malaysian soldiers had an IFA titre of greater than or equal to 1:400 when first tested and six of these also had a Proteus OXK agglutinin titre of greater than or equal to 1:160, indicating infection shortly before the study.
The rapid increase in the use of helicopters for hospital transport during the 1980s is the culmination of several hundred years of military medical innovation. Mass battefield casualties spurred both technologic and medical changes necessary for today's sophisticated helicopter systems in use worldwide, particularly in the United States. The Napoleonic Era and the American Civil War provided the framework for the evolution of today's state-of-the-art emergency medical techniques. The use of airplanes to evacuate the wounded eventually led to using helicopters for rescue missions in World War II. The combat experiences of the United States in Korea, the British in Malaya, and the French in Indochina proved that rotary-wing aircraft were invaluable in reducing battlefield death rates. Any skepticism about the efficacy of helicopter medical evacuation was erased during the Vietnam conflict. As an integral part of the modern battlefield, these specialized aircraft became a necessity. The observations and experience of American servicemen and medical personnel in Vietnam established the foundation for the acceptance of helicopter transport in modern hospital systems.
279 cases of pulmonary tuberculosis were diagnosed during a 10 year period from 1969 to 1978. 60% as a result of self-referral and 40% from mass miniature radiography of the chest. For every case of pulmonary tuberculosis picked up, the number of MMRs required has been steadily rising from 1 in 1900 to 1 in 6700. Using South Korea study figures, it costs US$42600 for a case of pulmonary tuberculosis detected by MMR. Besides being not cost effective, there is little advantage in early detection with regard to prognosis, in preventing subsequent cases and in picking up other lung or cardiac abnormalities. Unnecessary radiation results from frequent MMR whose dosage is 10 or more times greater than standard chest X-rays. MMR should be limited to. contact tracing, prior to overseas courses and on termination of service.
Study site: medical boards submitted to Medical Directorate, Ministry of Defence, Malaysia