Ballistic protective properties of material representative of English civil war buff-coats and clothing.

One type of clothing system used in the English Civil War, more common amongst cavalrymen than infantrymen, was the linen shirt, wool waistcoat and buff-coat. Ballistic testing was conducted to estimate the velocity at which 50% of 12-bore lead spherical projectiles (V50) would be expected to perforate this clothing system when mounted on gelatine (a tissue simulant used in wound ballistic studies). An estimated six-shot V50 for the clothing system was calculated as 102 m/s. The distance at which the projectile would have decelerated from the muzzle of the weapon to this velocity in free flight was triple the recognised effective range of weapons of the era suggesting that the clothing system would provide limited protection for the wearer. The estimated V50 was also compared with recorded bounce-and-roll data; this suggested that the clothing system could provide some protection to the wearer from ricochets. Finally, potential wounding behind the clothing system was investigated; the results compared favourably with seventeenth century medical writings.

A brief history of medical uniforms: from ancient history to the COVID-19 time.

Medical Uniforms date back from medieval times. Nursing uniforms were based on nuns clothes whereas doctors used the famous "plague costumes" and black "frock" coats from about 15th to early 19th century. In latter half 19th century medical uniforms started to change. Nursing uniforms gradually lost their similarities to religious outfits. Doctors started to use white clothing. With great emphasis on hygiene and sanitation, the idea of personal protective equipment (PPE) started to evolve with William Stewart Halsted introducing the use of rubber gloves in 1889. In the 1960s-1970s it became more usual to wear green and blue `scrubs in order to look for a greater contrast in clothing with the all-white hospital environment. In contemporary times, some specialties even stopped using specific uniforms, while others still use them. At the same time, PPE became more and more important, up to nowadays "plague costume" in the combat of the COVID-19 epidemics.

[The "Plague Doctor's Mask" in the German Museum for the History of Medicine, Ingolstadt]. / Die Pestarztmaske im Deutschen Medizinhistorischen Museum Ingolstadt.

This paper is part of Forum COVID-19: Perspectives in the Humanities and Social Sciences. The figure of the plague doctor with the beak mask has become the symbol of the plague par excellence. It's little wonder that the plague mask in the collection of the German Museum of the History of Medicine in Ingolstadt (Bavaria) is one of the museum's most popular objects and motifs. This forum paper investigates the figure of the plague doctor on several levels: first, it analyses contemporary textual and image sources in regard to protective clothing used in times of plague and the respective role of the beak-like part of the mask. Then it takes a close look at the Ingolstadt specimen. By examining the mask's materiality and fabrication, questions of its authenticity and practicability are raised. Finally, the Ingolstadt mask is compared with the specimen at the German Historical Museum in Berlin.The conclusion: the beak mask is not mentioned before the mid-seventeenth century, and then only in Italy and Southern France. There is no proof at all of its use during plague outbreaks in Middle Europe. And the specimens in Ingolstadt and Berlin? Both masks present details which suggest that they were not used as protective clothing at all. We do not know, however, if they were produced as replicas for historic reasons or as fakes for the modern art market.

A brief history of medical uniforms: from ancient history to the COVID-19 time / Uma breve história de uniformes médicos: da história antiga aos tempos da COVID-19

ABSTRACT Medical Uniforms date back from medieval times. Nursing uniforms were based on nuns clothes whereas doctors used the famous "plague costumes" and black "frock" coats from about 15th to early 19th century. In latter half 19th century medical uniforms started to change. Nursing uniforms gradually lost their similarities to religious outfits. Doctors started to use white clothing. With great emphasis on hygiene and sanitation, the idea of personal protective equipment (PPE) started to evolve with William Stewart Halsted introducing the use of rubber gloves in 1889. In the 1960s-1970s it became more usual to wear green and blue `scrubs in order to look for a greater contrast in clothing with the all-white hospital environment. In contemporary times, some specialties even stopped using specific uniforms, while others still use them. At the same time, PPE became more and more important, up to nowadays "plague costume" in the combat of the COVID-19 epidemics.

RESUMO Uniformes da área médica datam desde os tempos medievais. Uniformes de enfermeiras eram baseados em roupas de freiras, enquanto o de médicos eram caracterizados pelas "vestimentas da praga" e fraques pretos de meados do século 15 até o início do século 19. No final do século 19, os uniformes começaram a mudar. A vestimenta de enfermeiras perderam suas similaridades com vestes religiosas. Médicos começaram a usar roupas brancas. Com o aumento da ênfase em higiene e no sanitarismo, começa a evoluir a ideia do uso de equipamento de proteção individual (EPI), com William Stewart Halsted utilizando luvas de borracha pela primeira vez em 1889. Nas décadas de 1960 e 1970 começa a se tornar mais usual a adesão ao pijama cirúrgico verdes e azul como roupa hospitalar, devido ao contraste com o ambiente branco já presente. Na contemporaneidade, algumas especialidades deixaram de usar uniformes específicos, enquanto outras ainda a usam. Ao mesmo tempo, EPIs tornaram-se mais e mais importantes, até, hoje em dia, surgir as "vestimentas da praga" atualizadas para o combate da epidemia do COVID-19.

[From Leonardo Da Vinci to present days; from the history of antiplague costume].

As a prototype of the antiplague costume can be considered a special clothing, which physicians in medieval Europe wear for protection in plague nidus. Inventor of the first antiplague costume is considered to be a French doctor Charles de Lorme (1619). Much later, in 1878, a Russian professor Pashutin V V offered to use a costume, which looked like a hermetically sealed "bag" with a special breathing device aimed at protection of medical staff. Later, professor O.I. Dogel's respirator became well-known (1889). At the beginning of 20th century as part of the antiplague costume was used a charcoal filter mask, invented by Zelinsky N.D. Requirements to order the use of modern means of individual protection when working in nidus of especially dangerous infections identified sanitary-epidemiological rules, which reflect issues of laboratory workers working and protective clothing, respiratory protection, and view, especially operation, the procedure of putting on, removing and disinfecting antiplague costumes, pneumocostumes, pneumohelmets, isolation suits, gas-protection boxes, etc.

Uncovering the History of Operating Room Attire through Photographs.

BACKGROUND: Although early proponents for each of the four basic articles of operating room clothing--gowns, caps, masks, and gloves--can be identified, it is unclear from historical commentaries when each article achieved general acceptance and was consistently worn by surgeons and by anesthesia providers. METHODS: Historical photographs were identified from the Web sites of the National Library of Medicine, Google, and the archives of the Wood Library-Museum of Anesthesiology for the 11 decades 1860 to 1970. The presence or absence of each article of clothing was then determined for the surgical and anesthesia providers depicted. RESULTS: Over 1,000 photographs were identified and examined. Photographs were then eliminated for repetition, lack of available dating, questionable dating, and poor quality. In 338 remaining photographs that met inclusion criteria, 640 surgical providers and 219 anesthesia providers were depicted and used in the analysis. Statistical definitions for historical terms general acceptance and routine use were proposed. The probability that a surgeon was wearing nonstreet clothes (gown) was 0.66 (95% CI, 0.22 to 0.93) in 1863. The years (95% lower bound to 95% upper bound) associated with a 0.5 probability for wearing cap, gloves, and mask were 1900 (1896 to 1904), 1907 (1903 to 1910), and 1916 (1913 to 1919), respectively. The years associated with a 0.5 probability that an anesthesia provider would be wearing nonstreet clothes (gown), cap, and mask were 1883 (1863 to 1889), 1905 (1900 to 1911), and 1932 (1929 to 1937), respectively. CONCLUSION: Timelines for the adoption of each basic article of surgical attire by surgeons and anesthesia providers were determined by analysis of historical operating room photographs from 1863 to 1969.

Perimortem trauma in King Richard III: a skeletal analysis.

BACKGROUND: Richard III was the last king of England to die in battle, but how he died is unknown. On Sept 4, 2012, a skeleton was excavated in Leicester that was identified as Richard. We investigated the trauma to the skeleton with modern forensic techniques, such as conventional CT and micro-CT scanning, to characterise the injuries and establish the probable cause of death. METHODS: We assessed age and sex through direct analysis of the skeleton and from CT images. All bones were examined under direct light and multi-spectral illumination. We then scanned the skeleton with whole-body post-mortem CT. We subsequently examined bones with identified injuries with micro-CT. We deemed that trauma was perimortem when we recorded no evidence of healing and when breakage characteristics were typical of fresh bone. We used previous data to identify the weapons responsible for the recorded injuries. FINDINGS: The skeleton was that of an adult man with a gracile build and severe scoliosis of the thoracic spine. Standard anthropological age estimation techniques based on dry bone analysis gave an age range between 20s and 30s. Standard post-mortem CT methods were used to assess rib end morphology, auricular surfaces, pubic symphyseal face, and cranial sutures, to produce a multifactorial narrower age range estimation of 30-34 years. We identified nine perimortem injuries to the skull and two to the postcranial skeleton. We identified no healed injuries. The injuries were consistent with those created by weapons from the later medieval period. We could not identify the specific order of the injuries, because they were all distinct, with no overlapping wounds. Three of the injuries-two to the inferior cranium and one to the pelvis-could have been fatal. INTERPRETATION: The wounds to the skull suggest that Richard was not wearing a helmet, although the absence of defensive wounds on his arms and hands suggests he was still otherwise armoured. Therefore, the potentially fatal pelvis injury was probably received post mortem, meaning that the most likely injuries to have caused his death are the two to the inferior cranium. FUNDING: The University of Leicester.

Military medical advances resulting from the conflict in Korea, Part I: Systems advances that enhanced patient survival.

The Korean War started several years after the World War II had ended and no recognition of the threat or preparation was made for this possibility. The military and its medical service had been downsized after World War II and had to quickly ramp up to meet the surprise attack. The war provided the laboratory for trials and experimentation with the new technological developments of the era. The Korean conflict led to numerous advances in medical systems and patient care. The Mobile Army Surgical Hospital came of age, and was instrumental in saving many lives. Helicopters saw their first regular use as flying ambulances to take the injured to definitive care in a timely fashion. The national blood banking program was rapidly geared up and new techniques such as plastic bags for collection and delivery resulted. Body armor was developed that would allow mobility while offering protection and was widely used for the first time. Each of these systems improvements saved the lives of soldiers in combat and were soon to be used in the civilian sector to save and improve lives around the world.

Origin of the 44-mm behind-armor blunt trauma standard.

A number of armed assaults on public officials occurred in the early 1970s, which prompted the Lightweight Soft Body Armor Program to develop modern, concealable, soft body armor. Methodology needed to be developed to (1) determine the effectiveness of the soft body armor to stop bullet penetration and (2) assess the potential injury from nonpenetrating blunt impacts to the body. Extensive research was performed under the program to develop methodologies to assess soft body armor, including behind-armor blunt trauma (BABT) evaluation. This methodology is still used today, and it has been applied extensively beyond the original intent. However, the origin of this methodology is not well understood by many researchers in the various fields in which it is being applied because the original documentation is difficult to obtain. Therefore, the purpose of this article is to provide a comprehensive review of the BABT to offer researchers information about its history and limitations.

United States Army Research Institute of Environmental Medicine: Warfighter research focusing on the past 25 years.

The United States Army Research Institute of Environmental Medicine (USARIEM) celebrated its 50th anniversary on July 1, 2011. This article reviews its history, evolution, and transition of its research programs as well as its scientific and military accomplishments, emphasizing the past 25 yr. During the 1990s, USARIEM published a series of pocket guides providing guidance for sustaining Warfighter health and performance in Southwest Asia, Somalia, the former Republic of Yugoslavia, Rwanda, and Haiti. Issues identified during Operation Desert Storm elicited research that improved nutritional guidelines for protracted desert operations; safer use of nuclear, chemical, and biological protective clothing; equipment, development, and fielding of efficient microclimate cooling systems; and effective evaluation of pharmaceuticals to protect soldiers from chemical and biological threats. During the first decade of the 21st century, USARIEM and the Department of the Army published official medical/performance doctrines for operations in the heat and cold and at high altitude. The current Global War on Terrorism focused research to improve doctrines for hot, cold, and high-altitude operations, reduce musculoskeletal training injuries, provide improved field nutrition, more efficient planning for operational water requirements, and improve both military clothing and materiel. This article also describes the critically important interactions and communications between USARIEM and deployed units and the benefits to Warfighters from this association. This report presents USARIEM's unique and world-class facilities, organizational changes, scientific and support personnel, and major research accomplishments, including the publication of 2,200 scientific papers over the past 25 yr.

Reflexiones nerviosas: La importancia de la ropa: (I). Pacientes y médicos / No disponible

No disponible