Pulmonary injury risk assessment for short-duration blasts

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Bass, Cameron R¹; Rafaels, Karin A.¹; Salzar, Robert S.¹

Pulmonary injury risk assessment for short-duration blasts

J Trauma. September 2008;65(3):604-615

©2008 Lippincott Williams & Wilkins

Affiliations

¹University of Virginia, Center for Applied Biomechanics, Charlottesville, Virginia
Abstract and keywords

Background: Blast injuries are becoming more common in modern war and terrorist action. This increasing threat underscores the importance of understanding and evaluating blast effects.

Methods: For this study, data on more than 2,550 large animal experiments were collected from more than 50 experimental studies on blast. From this dataset, over 1,100 large animal experiments were selected with positive phase overpressure durations of 30 milliseconds or less. A two variable nonlinear logistic regression was performed on the experimental data for threshold injury and lethality in terms of pressure and duration. The effects of mass, pressure, and duration scaling were all evaluated.

Results: New injury risk assessment curves were analyzed for both incident and reflected pressure conditions. Position dependent injury risk curves were also analyzed and were found to be unnecessary, at least for prone and side on conditions.

Conclusions: The injury risk assessment showed good correlation to some of the existing injury assessments. It also showed good correspondence to a reported human case of blast exposure. Pressure scaling was analyzed to be unnecessary for these short duration exposures. Recommended injury assessments for various orientations relative to the incoming blast wave are included.

Keywords: Blast; Lung injury; Injury risk
Links

DOI: 10.1097/TA.0b013e3181454ab4

PubMed: 18784574

WoS: 000259326400021

Ovid: 00005373-200809000-00014
History

Received: 2007-01-18

Accepted: 2007-06-19

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Cited By (22)

Year	Entry
2013	Wood GW, Panzer MB, Yu AW, Rafaels KA, Matthews KA, Bass CR. Scaling in blast neurotrauma. In: Proceedings of the 2013 International IRCOBI Conference on the Biomechanics of Injury. September 11-13, 2013; Gothenburg, Sweden.549-558.
2015	Boutillier J, Deck C, Magnan P, Willinger R, Naz P. Primary blast injury on thorax: a critical review of the studies and their outcomes. In: Proceedings of the 2015 International IRCOBI Conference on the Biomechanics of Injury. September 9-11, 2015; Lyon, France.708-721.
2016	Boutillier J, De Mezzo S, Deck C, Ehrhardt L, Magnan P, Naz P, Willinger R. Shock‐wave interaction with reduced‐scale simplified torso surrogates. In: Proceedings of the 2016 International IRCOBI Conference on the Biomechanics of Injury. September 14-16, 2016; Malaga, Spain.428-439.
2012	Bass CR, Panzer MB, Rafaels KA, Wood G, Shridharani J, Capehart B. Brain injuries from blast. Ann Biomed Eng. January 2012;40(1):185-202.
2012	Panzer MB, Myers BS, Capehart BP, Bass CR. Development of a finite element model for blast brain injury and the effects of CSF cavitation. Ann Biomed Eng. July 2012;40(7):1530-1544.
2011	Rafaels K, Bass CRD, Salzar RS, Panzer MB, Woods W, Feldman S, Cummings T, Capehart B. Survival risk assessment for primary blast exposures to the head. J Neurotrauma. November 2011;28(11):2319-2328.
2012	Panzer MB, Bass CR‘, Rafaels KA, Shridharani J, Capehart BP. Primary blast survival and injury risk assessment for repeated blast exposures. J Trauma Acute Care Surg. February 2012;72(2):454-466.
2012	Rafaels KA, Bass CRD, Panzer MB, Salzar RS, Woods WA, Feldman SH, Walilko T, Kent RW, Capehart BP, Foster JB, Derkunt B, Toman A. Brain injury risk from primary blast. J Trauma Acute Care Surg. October 2012;73(4):895-901.
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