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Other racial/ethnic minorities and those with misconduct separations were more likely to receive PTSD diagnoses and awards. Further study is merited to explore variation in awarding SCDB. © Association of Military Surgeons of the United States 2020. All rights reserved. For permissions, please e-mail journals.permissions@oup.com.INTRODUCTION Ex-vivo normothermic limb perfusion (EVNLP) has been proven to preserve limb viability better than standard cold storage. Perfusates containing packed red blood cells (pRBC) improve outcomes when compared to acellular perfusates. Limitations of pRBC-based perfusion include limited availability, need for cross match, mechanical hemolysis, and activation of pro-inflammatory proteins. Hemoglobin-based oxygen carrier (HBOC)-201 (Hemopure) is a solution of polymerized bovine hemoglobin, characterized by low immunogenicity, no risk of hemolytic reaction, and enhanced convective and diffusive oxygen delivery. This is a preliminary study on the feasibility of EVNLP using HBOC-201 as an oxygen carrier. MATERIALS AND METHODS Three porcine forelimb perfusions were performed using an established EVNLP model and an HBOC-201-based perfusate. The perfusion circuit included a roller pump, oxygenator, heat exchanger, and reservoir. Electrolytes, limb temperature, weight, compartment pressure, nerve conduction, and perfusion indicated by indocyanine green angiography and infra-red thermography were monitored. Histological evaluation was performed with hematoxylin and eosin and electron microscopy. RESULTS Three limbs were perfused for 21.3 ± 2.1 hours. Muscle contractility was preserved for 10.6 ± 2.4 hours. Better preservation of the mitochondrial ultrastructure was evident at 12 hours in contrast to crystallization and destruction features in the cold-storage controls. CONCLUSIONS An HBOC-201-EVNLP produced outcomes similar to RBC-EVNLP with preservation of muscle contractility and mitochondrial structure. © The Author(s) 2020. selleck Published by Oxford University Press on behalf of the Association of Military Surgeons of the United States. All rights reserved. For permissions, please e-mail journals.permissions@oup.com.INTRODUCTION The peripheral auditory system and various structures within the central auditory system are vulnerable to blast injuries, and even blast overpressure is at relatively mild traumatic brain injury (TBI) level. However, the extent of hearing loss in relation to blast number and time course of post-blast is not well understood. This study reports the progressive hearing damage measured in chinchillas after multiple blast exposures at mild TBI levels (103-138 kPa or 15-20 psi). MATERIALS AND METHODS Sixteen animals (two controls) were exposed to two blasts and three blasts, respectively, in two groups with both ears plugged with foam earplugs to prevent the eardrum from rupturing. Auditory brainstem response (ABR) and distortion product otoacoustic emission (DPOAE) were measured in pre- and post-blasts. Immunohistochemical study of chinchilla brains were performed at the end of experiment. RESULTS Results show that the ABR threshold and DPOAE level shifts in 2-blast animals were recovered after 7 days. In 3-blast animals, the ABR and DPOAE shifts remained at 26 and 23 dB, respectively after 14 days. Variation of auditory cortex damage between 2-blast and 3-blast was also observed in immunofluorescence images. CONCLUSIONS This study demonstrates that the number of blasts causing mild TBI critically affects hearing damage. © Association of Military Surgeons of the United States 2020. All rights reserved. For permissions, please e-mail journals.permissions@oup.com.Small, well prepared, culturally competent, and embedded health engagement teams (EHET) tailored to work within a partner health system, rather than outside of it, will achieve greater mutual benefit, desired military objectives, and better health outcomes for the United States Department of Defence and its partners. EHETs have significant advantages over traditional methods of choice for health security cooperation and humanitarian assistance missions. These advantages include enhanced capability and capacity building, greater trust through intentional cultural expertise, a ready platform for enduring relationships, enhanced host nation legitimacy, and flexibility to target specific issues with greater fidelity. We must first define a prototype EHET, compare the concept against prior units that have executed health engagement, and test it prospectively in employment. The U.S. military and the civilian business world each have extensive experience in employing small teams that the health community can emulate. The ideal EHET should have the following nine characteristics 12 people or fewer, skillsets for the tasks, global health knowledge, be multidisciplinary, a balance of experience, local language capability, geopolitical and cultural competence, targeted preparation for specific security and health objectives, and joint representation. This paper will explore these components of the prototype EHET as it will be tested in our research project. © Association of Military Surgeons of the United States 2020. All rights reserved. For permissions, please e-mail journals.permissions@oup.com.INTRODUCTION Blast overpressure health hazard assessment is required prior to fielding of weapon systems that produce blast overpressures that pose risk of auditory and nonauditory blast lung injuries. The anthropomorphic blast test device (ABTD) offers a single device solution for collection of both auditory and nonauditory data from a single blast at anthropometrically correct locations for injury risk assessment. It also allows for better replication of personnel positioning during weapons firings. The ABTD is an update of the blast test device (BTD), the current Army standard for collection of thoracic blast loading data. Validation testing of the ABTD is required to ensure that lung injury model validated using BTD collected test data and sheep subjects is still applicable when the ABTD is used. METHODS Open field validation blast tests were conducted with BTD and ABTD placed at matching locations. Tests at seven blast strength levels were completed spanning the range of overpressures for occupational testing.