Military medicine, 175, 8: 118, 2010 118 military medicine
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120 MILITARY
MEDICINE, Vol. 175, August Supplement 2010 as medical director and inspector of hospitals demonstrate a concerted effort to improve soldier fi tness on a broad scope. 11 Scientifi c predictability, however, remained elusive for mil- itary physicians of the early and mid-19th century. During this era, John Dalton introduced atomic theory; Friedrich Woehler established organic chemistry, Justus von Liebig began study- ing the chemical components of food, and Claude Bernard established physiology as a science. Furthermore, Britain and America were embracing a more humanitarian approach to social problems. The wretched working conditions of indus- trial factories were exposed, poverty became associated with disease, as did fi lth and immorality, and a growing public con- sciousness and responsibility for these issues arose. SCIENCE-BASED FITNESS Before the new science or social consciousness could impact the military, the Crimean War intervened and proved to be a powerful catalyst for change in the British Army Medical Service. The 18th century line–medical relationship had van- ished, concern for the common soldier was nonexistent, the supply system failed miserably, and evacuation was inade- quate. Cholera, malaria, dysentery, and scurvy soon inundated the ranks compounding the supply and transport problems, overcrowding the hospitals, and increasing the mortality rates. The British minister of war dispatched Florence Nightingale and the English Sanitary Commission to re-establish order and effi ciency. In 1857, a royal commission was appointed to inquire about the sanitary condition of the British army and prepared a new edition of the Queen’s hospital regulations. 12 The new regulations made the medical offi cer an advisor to the commanding offi cer “in all matters affecting the health of troops whether as regards garrisons, stations, camps and barracks, or diet, clothing, drills, duties, or exercises.” The commission also recommended the establishment of an Army medical school in which “the specialties of military medi- cine, surgery, hygiene, and sanitary science” could be taught to new medical offi cers. 12 To assist with this educational task, Edmund A. Parkes wrote Practical Hygiene , a text book that addressed the medical offi cer’s duties and responsibilities in recruiting, feeding, clothing, training, and quartering the sol- dier, based on science and experience. The time between the work of the royal commission and Parkes’ text and the beginning of the American Civil War was too short to impact the U.S. Army Medical Department. Medical care at First Bull Run was as disastrous as the battle. This led to the creation of the U.S. Sanitary Commission, a civilian directed organization with semioffi cial government status and plenty of political clout, which they used to have William Hammond inserted as surgeon general. Hammond’s tenure would be short—he and Secretary of War Stanton never got along, but his ideas for the administration, education, and operational employment of the department make him one of the U.S. Army’s fi nest surgeons general. In the spring of 1862, he ordered the establishment of an army medical museum, directed a medical history of the war be prepared, and planned for a postgraduate army medical school. The following year he published A Treatise on Hygiene and had it issued to med- ical offi cers. In it he defi ned the parameters of the military physical examination, temperament, heredity, and the impact of age, etc., on recruits and reasons for their rejection. 13 In the 40 years following the Civil War, a wide range of technical sciences developed that changed the organization and operations of our military and naval forces. Likewise, physiology, bacteriology, and immunology began to redefi ne the practice of surgery, medicine, and public health. In both the military and in medicine, these new sciences created a special- ized body of knowledge that required specifi c and continued education. While this fostered a new sense of professional- ism, it also broadened the intellectual gap between line and medical offi cers. The expanse of that gap became apparent in our war with Spain in 1898. Yellow fever terrorized our army on Cuba, but malaria brought it to its knees. Simultaneously typhoid fever ravaged state volunteers in mobilization camps where sanitation and hygiene discipline had been ignored by troops, commanders, and regimental surgeons alike. 14 In the aftermath, the Dodge Commission investigated why the army and its medical department had not covered them- selves with glory. Many recommendations were forthcom- ing regarding medical personnel, supplies, reporting, etc., and Surgeon General George M. Sternberg added an addi- tional responsibility: education of the line offi cer concern- ing soldier health. This revival of 18th century thought was supported in full by Edward Munson’s comprehensive text, Military Hygiene , in 1901 as he noted it was meant as “a practical guide to offi cers of the line.” 15 In it he discussed rations, clothing, equipment and weight, marching, camps, etc. Four years later courses in sanitation and hygiene, taught by medical corps offi cers, were begun at West Point, and in 1914 a textbook was published for the cadets. 16 In 1908, Captain Munson was detailed to the School of the Line at Fort Leavenworth where he worked with Major John Morrison to integrate soldier health into the military art curriculum and educate the commander about his sanitary assets, responsi- bilities, and the value of his medical staff. 17 The benefi cial results of their efforts—as well as medical advances, such as water chlorination, typhoid immunization, and the Lyster bag, which prevented diseases common to soldiers—were seen during the expedition to Mexico in 1916 and continued as we deployed soldiers to the war torn fi elds of France the following year. World War I was a watershed in military and military medical history, the fi rst industrial war. The use of automatic weapons, heavy artillery, submarines, aircraft, and chemi- cal weapons became routine and lethal, and medical science achieved a tremendous amount of predictability. Medical examinations were now more effi cient at fi ltering out recruits mentally and physically unfi t for service, typhoid immuniza- tion, and camp sanitation and hygiene became standard prac- tices. The First World War was also a laboratory for learning Downloaded from https://academic.oup.com/milmed/article/175/suppl_8/118/4344680 by guest on 06 September 2023 |
