Title: An Official American Thoracic Society Workshop Report: Chemical Inhalational Disasters. Biology of Lung Injury, Development of Novel Therapeutics, and Medical Preparedness.
Authors: Summerhill, Eleanor M; Hoyle, Gary W; Jordt, Sven-Eric; Jugg, Bronwen J; Martin, James G; Matalon, Sadis; Patterson, Steven E; Prezant, David J; Sciuto, Alfred M; Svendsen, Erik R; White, Carl W; Veress, Livia A; ATS Terrorism and Inhalational Disasters Section of the Environmental, Occupational, and Population Health Assembly
Published In Ann Am Thorac Soc, (2017 Jun)
Abstract: This report is based on the proceedings from the Inhalational Lung Injury Workshop jointly sponsored by the American Thoracic Society (ATS) and the National Institutes of Health (NIH) Countermeasures Against Chemical Threats (CounterACT) program on May 21, 2013, in Philadelphia, Pennsylvania. The CounterACT program facilitates research leading to the development of new and improved medical countermeasures for chemical threat agents. The workshop was initiated by the Terrorism and Inhalational Disasters Section of the Environmental, Occupational, and Population Health Assembly of the ATS. Participants included both domestic and international experts in the field, as well as representatives from U.S. governmental funding agencies. The meeting objectives were to (1) provide a forum to review the evidence supporting current standard medical therapies, (2) present updates on our understanding of the epidemiology and underlying pathophysiology of inhalational lung injuries, (3) discuss innovative investigative approaches to further delineating mechanisms of lung injury and identifying new specific therapeutic targets, (4) present promising novel medical countermeasures, (5) facilitate collaborative research efforts, and (6) identify challenges and future directions in the ongoing development, manufacture, and distribution of effective and specific medical countermeasures. Specific inhalational toxins discussed included irritants/pulmonary toxicants (chlorine gas, bromine, and phosgene), vesicants (sulfur mustard), chemical asphyxiants (cyanide), particulates (World Trade Center dust), and respirable nerve agents.
PubMed ID: 28418689
MeSH Terms: Accidents, Occupational*; Animals; Chemical Terrorism; Disaster Planning*; Disasters*; Environmental Exposure/adverse effects*; Humans; Lung Injury/chemically induced*; Lung/physiopathology*; Models, Animal; Societies, Medical; United States