Zobrazeno 1 - 10
of 21
pro vyhledávání: '"Kyle A Ott"'
Autor:
Eyal Bar-Kochba, Alexander S Iwaskiw, Jenna M Dunn, Kyle A Ott, Timothy P Harrigan, Constantine K Demetropoulos
Publikováno v:
PLoS ONE, Vol 19, Iss 5, p e0303325 (2024)
Since the 19th century, underwater explosions have posed a significant threat to service members. While there have been attempts to establish injury criteria for the most vulnerable organs, namely the lungs, existing criteria are highly variable due
Externí odkaz:
https://doaj.org/article/efbdf1bbbf204b1e812849640a4c2948
Autor:
Carl S. Miller, Constantine K. Demetropolous, Jonathan D. Rupp, John M. Cavanaugh, Lauren Wood Zaseck, Kyle A. Ott, Matthew P. Reed, Anne C Bonifas, Don Sherman
Publikováno v:
Annals of Biomedical Engineering. 49:3031-3045
Previous studies involving whole-body post-mortem human surrogates (PHMS) have generated biomechanical response specifications for physically simulated accelerative loading intended to reproduce seat and floor velocity histories occurring in under-bo
Publikováno v:
Annals of Biomedical Engineering. 49:3118-3127
The lower extremity is the most frequently injured body region to mounted soldiers during underbody blast (UBB) events. UBB events often produce large deformations of the floor and subsequent acceleration of the lower limb that are not sufficiently m
Autor:
Jack M. Titus, Kyle A. Ott, Mary E. Luongo, David G. Drewry, Constantine K. Demetropoulos, Andrew C. Merkle
Publikováno v:
Annals of Biomedical Engineering. 49:3099-3117
It is critical to understand the relationship between under-body blast (UBB) loading and occupant response to provide optimal protection to the warfighter from serious injuries, many of which affect the spine. Previous studies have examined component
Autor:
Kyle A, Ott, Constantine K, Demetropoulos, Mary E, Luongo, Jack M, Titus, Andrew C, Merkle, David G, Drewry
Publikováno v:
Annals of biomedical engineering. 49(11)
It is critical to understand the relationship between under-body blast (UBB) loading and occupant response to provide optimal protection to the warfighter from serious injuries, many of which affect the spine. Previous studies have examined component
Autor:
J Andrist, Mary E. Luongo, Kyle A. Ott, Constantine K. Demetropoulos, David G. Drewry, Robert S. Armiger, J Titus
Publikováno v:
Journal of Biomechanical Engineering. 142
Impact biomechanics research in occupant safety predominantly focuses on the effects of loads applied to human subjects during automotive collisions. Characterization of the biomechanical response under such loading conditions is an active and import
Autor:
Jonathan D. Rupp, Nathanael P Kuo, Mary E. Luongo, Joseph R Andrist, Matthew P. Reed, David G. Drewry, Andrew C. Merkle, Carl S. Miller, Leah M Strohsnitter, Christopher J. Dooley, Nichole R. Orton, Constantine K. Demetropoulos, Anne C Bonifas, Lauren Wood Zaseck, Kyle A. Ott
Publikováno v:
Stapp car crash journal. 63
Limited data exist on the injury tolerance and biomechanical response of humans to high-rate, under-body blast (UBB) loading conditions that are commonly seen in current military operations, and there are no data examining the influence of occupant p
Autor:
Don Sherman, Jonathan D. Rupp, Anne C Bonifas, Constantine K. Demetropoulos, John M. Cavanaugh, Kyle A. Ott, Lauren Wood Zaseck, Matthew P. Reed, Carl S. Miller
Publikováno v:
Annals of Biomedical Engineering. 49:3211-3211
Autor:
Robert S. Armiger, Kyle A. Ott, A. C. Wickwire, C. M. Carneal, Andrew C. Merkle, Vanessa D. Alphonse, Liming Voo, A. S. Iwaskiw
Publikováno v:
Shock Waves. 28:63-83
The experimental measurement of biomechanical responses that correlate with blast-induced traumatic brain injury (bTBI) has proven challenging. These data are critical for both the development and validation of computational and physical head models,
Publikováno v:
SAE International Journal of Passenger Cars - Mechanical Systems. 5:487-505
Objectives Examination of head injuries in the Pedestrian Crash Data Study (PCDS) indicates that many pedestrian head injuries are induced by a combination of head translation and rotation. The Simulated Injury Monitor (SIMon) is a computer algorithm