Chris A. Van Ee

TL;DR: This work obtained accurate three-dimensional muscle geometry for 23 pairs of cervical muscles from a combination of human cadaver dissection and 50(th) percentile male human volunteer magnetic resonance imaging and incorporated those muscles into a computational model of the ligamentous spine that has been previously validated against humancadaver studies.

TL;DR: These pediatric head anthropomorphic, compression, and impact data will provide a basis to validate whole head models and compare with ATD performance in similar exposures.

TL;DR: This study investigated the frontal-impact fracture tolerance of the hip in nineteen tests performed on the KTH complexes from sixteen unembalmed human cadavers, suggesting that the mid and distal portions of the femur have a higher tolerance under these loading conditions than the pelvic and femoral portions ofThe hip.

TL;DR: The blunt criterion, peak force and principal strain were determined to be the best predictors of depressed comminuted fractures and an initial force tolerance level of 2346 N is established for the temporo-parietal region for blunt ballistic impact with a 38 mm diameter impactor.

TL;DR: Results from the study have been incorporated into a MS-Access based software package that allows researchers and modelers to generate cervical spine geometries for occupants of a specified age, gender, and stature.