key: cord-0692127-oxrjer1b authors: Clodfelter, Kayla L.; Mailey, Brian; Hassanein, Aladdin H. title: Plastic Surgery Innovation through War, Disaster, and Pandemic date: 2021-12-27 journal: Plast Reconstr Surg DOI: 10.1097/prs.0000000000008749 sha: 9acaac2924fe080f6192b703fc74ad6ec3e47352 doc_id: 692127 cord_uid: oxrjer1b nan wound dressings, and portable negative-pressure wound therapy. Two publications described surgical staff collaboration modeling and recruitment from terrorist attacks. Our results show war was a significant contributor during the first half of the twentieth century; however, the last few decades show a shift toward other disaster types. Sir Harold Gillies became a dedicated reconstructive surgeon to restore deformed soldiers in World War I. In 1917, he developed his tubed pedicle flap, which provided the ability to close difficult wounds with poor local options. 2 Berkman inserted wires laterally through metacarpals, allowing patients to have enough extension and flexion to carry out minor duties the next day. 3 Ralph Millard, whose cleft repair is still widely performed, was also shaped by his experiences in the Korean conflict. War is not the only disaster to influence changes in our practice. More recently, terrorist attacks have led to new ways of organizing surgical staff during mass casualties. 4 The modern field of plastic surgery originated from the global catastrophic events of World War I and continues to progress from innovations devised during disasters. Our study has highlighted advancements that have arisen from tragedy. We found war has been the greatest motivator of ingenuity. Terrorism and natural disasters have emerged as events leading to innovation during the last few decades. The current COVID-19 pandemic may alter practice as well. An electroceutical fabric dressing designed for chronic wounds was adapted as a face mask effective at eliminating COVID-19. 5 The widespread use of telemedicine from COVID-19 will expand the reach of plastic surgical evaluation to smaller communities. Plastic surgery procedures that may have resulted in a short admission may become outpatient on a more universal level as a result of attempts to limit hospitalizations during COVID-19. Our field must do what it has always done: use a major crisis to spark innovation to improve the care of patients. T he coronavirus disease of 2019 (COVID-19) pandemic has impacted the practice of medicine. Historically, the field of plastic surgery has been influenced by catastrophic events. Modern warfare in World War I resulted in mass casualties and survivors with deformities. Plastic surgery arose as a distinct specialty to restore form and function in these wounded soldiers. 1 Subsequent crises have provided challenges to drive development of new plastic surgical solutions. The purpose of this study was to (1) assess innovations in plastic surgery that emerged from disasters and (2) identify possible ideas that may arise from the COVID-19 situation. PubMed and Ovid databases were searched for articles documenting origination of plastic surgery ideas during a disaster using search terms "disaster," "war," "plastic," "burn," "terror," and/or "novel." Types of "disasters" were categorized as war, terrorism, accident, and natural disaster. Articles were included if they discussed novel therapies that emerged in association with the disaster. Eighteen articles met inclusion criteria (Table 1) . Eleven papers described innovations during war, including percutaneous fixation of hand fractures with use of Kirschner wires, delayed wound closure, cleft lip repair, vascular repair of traumatic injuries, mafenide acetate Table 1 Tubed pedicle skin flap graft (Gillies, 1932 Delayed wound closure in compound hand fractures (Cleveland and Grove Internal fixation of metacarpals with k-wire Hand surgery becomes distinct specialty (Carter Vascular Repair of Acute Trauma in Upper Extremities Sulfamylon (mafenide acetate) antibiotics for burns Artery anastomosis débridement to grossly normal tissue PMID: 21200282) War in Afghanistan 2001-Present Collaboration model of surgical staff for mass casualties Social networking for rapid recruitment of surgical staff Leap motor control improves hand function in burn victims Cultured epithelial autograft in mass disaster Cultured epithelial autograft device for resource-poor areas Telemedicine as novel plastic surgery tool Plastic surgery in the two world wars and in the years between Plastic Surgery of the Face. London: The Joint Committee of Henry Frowde, Hodder and Stoughton Internal fixation of metacarpal fractures exclusive of the thumb Boston bombings: A surgical view of lessons learned from combat casualty care and the applicability to Boston's terrorist attack Electroceutical fabric lowers zeta potential and eradicates coronavirus infectivity upon contact This project was funded in part with support from the Indiana Clinical and Translational Sciences Institute and in part by the National Institutes of Health (grant UL1TR002529). The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. None of the authors has a financial interest to declare in relation to the content of this article.