BACKGROUND: The Viscous Criterion (VC) is an experimental measure developed by the automotive industry to assess injury risks for high-speed impacts. The Blunt Criterion (BC) is a prospective measure developed by the Department of Defense to predict injury from blunt projectiles. METHODS: The range of applicability of BC was extended and compared with VC for its ability to assess injury risk using published cadaver and animal data. Department of Defense projectiles were 0.05 to 0.43 kg mass at velocities up to 86 m/s. VC data were generated from impacts with 1.75 to 23.4 kg at 3.6 to 10.2 m/s. Chest and abdominal injuries ranged from Abbreviated Injury Scale scores of 1 to 6. RESULTS: Both criteria correlated very well with the experimental data, demonstrating correlation coefficients of R = 0.84 to 0.96. The correlation between VC and BC was R = 0.99. Logistic probability curves were derived to predict blunt impact injuries of Abbreviated Injury Scale scores of 1 to 6 for the chest and abdomen. CONCLUSION: BC and VC are virtually identical in their ability to assess blunt and ballistic impact injury risks. They are different measures of impact energy absorbed by the body. One is predictive using input parameters, and the other measures the impact response of the body.
BACKGROUND: The Viscous Criterion (VC) is an experimental measure developed by the automotive industry to assess injury risks for high-speed impacts. The Blunt Criterion (BC) is a prospective measure developed by the Department of Defense to predict injury from blunt projectiles. METHODS: The range of applicability of BC was extended and compared with VC for its ability to assess injury risk using published cadaver and animal data. Department of Defense projectiles were 0.05 to 0.43 kg mass at velocities up to 86 m/s. VC data were generated from impacts with 1.75 to 23.4 kg at 3.6 to 10.2 m/s. Chest and abdominal injuries ranged from Abbreviated Injury Scale scores of 1 to 6. RESULTS: Both criteria correlated very well with the experimental data, demonstrating correlation coefficients of R = 0.84 to 0.96. The correlation between VC and BC was R = 0.99. Logistic probability curves were derived to predict blunt impact injuries of Abbreviated Injury Scale scores of 1 to 6 for the chest and abdomen. CONCLUSION:BC and VC are virtually identical in their ability to assess blunt and ballistic impact injury risks. They are different measures of impact energy absorbed by the body. One is predictive using input parameters, and the other measures the impact response of the body.
Authors: Matthias Frank; Oliver Jobski; Britta Bockholdt; Rico Grossjohann; Dirk Stengel; Axel Ekkernkamp; Peter Hinz Journal: Int J Legal Med Date: 2011-01-29 Impact factor: 2.686