Head impact accelerations for brain strain-related responses in contact sports: a model-based investigation
Abstract Both linear (a _ lin)(a lin) and rotational (a _ rot)(a rot) accelerations contribute to
head impacts on the field in contact sports; however, they are often isolated in injury studies …
head impacts on the field in contact sports; however, they are often isolated in injury studies …
[PDF][PDF] Head impact accelerations for brain strain-related responses in contact sports: a model-based investigation
S Ji, W Zhao, Z Li, TW McAllister - Biomech Model Mechanobiol, 2014 - researchgate.net
Both linear (alin) and rotational (arot) accelerations contribute to head impacts on the field in
contact sports; however, they are often isolated in injury studies. It is critical to evaluate the …
contact sports; however, they are often isolated in injury studies. It is critical to evaluate the …
Head impact accelerations for brain strain-related responses in contact sports: a model-based investigation.
S Ji, W Zhao, Z Li, TW McAllister - Biomechanics and Modeling in …, 2014 - europepmc.org
Both linear (a lin) and rotational (a rot) accelerations contribute to head impacts on the field
in contact sports; however, they are often isolated in injury studies. It is critical to evaluate the …
in contact sports; however, they are often isolated in injury studies. It is critical to evaluate the …
[HTML][HTML] Head impact accelerations for brain strain-related responses in contact sports: a model-based investigation
S Ji, W Zhao, Z Li, TW McAllister - Biomechanics and modeling in …, 2014 - ncbi.nlm.nih.gov
Both linear (a lin) and rotational (a rot) accelerations contribute to head impacts on the field
in contact sports; however, they are often isolated in injury studies. It is critical to evaluate the …
in contact sports; however, they are often isolated in injury studies. It is critical to evaluate the …
[PDF][PDF] Head impact accelerations for brain strain-related responses in contact sports: a model-based investigation
S Ji, W Zhao, Z Li, TW McAllister - Biomech Model …, 2014 - scholarworks.indianapolis.iu.edu
Both linear (alin) and rotational (arot) accelerations contribute to head impacts on the field in
contact sports; however, they are often isolated in injury studies. It is critical to evaluate the …
contact sports; however, they are often isolated in injury studies. It is critical to evaluate the …
[PDF][PDF] Head impact accelerations for brain strain-related responses in contact sports: a model-based investigation
S Ji, W Zhao, Z Li, TW McAllister - 2014 - scholarworks.iupui.edu
Both linear (alin) and rotational (arot) accelerations contribute to head impacts on the field in
contact sports; however, they are often isolated in injury studies. It is critical to evaluate the …
contact sports; however, they are often isolated in injury studies. It is critical to evaluate the …
Head impact accelerations for brain strain-related responses in contact sports: a model-based investigation.
S Ji, W Zhao, Z Li, T McAllister - Biomechanics & Modeling in …, 2014 - search.ebscohost.com
Abstract Both linear $$(\mathbf {a} _ {\mathrm {lin}}) $$ and rotational $$(\mathbf {a} _
{\mathrm {rot}}) $$ accelerations contribute to head impacts on the field in contact sports; …
{\mathrm {rot}}) $$ accelerations contribute to head impacts on the field in contact sports; …
Head impact accelerations for brain strain-related responses in contact sports: a model-based investigation
S Ji, W Zhao, Z Li, TW McAllister - Biomechanics and Modeling in …, 2014 - infona.pl
Both linear $$(\mathbf {a} _ {\mathrm {lin}}) $$(a lin) and rotational $$(\mathbf {a} _ {\mathrm
{rot}}) $$(a rot) accelerations contribute to head impacts on the field in contact sports; …
{rot}}) $$(a rot) accelerations contribute to head impacts on the field in contact sports; …
Head impact accelerations for brain strain-related responses in contact sports: a model-based investigation
S Ji, W Zhao, Z Li, TW Mcallister - Biomechanics and Modeling …, 2014 - search.proquest.com
Both linear (alin) and rotational (arot) accelerations contribute to head impacts on the eld in
contact sports; however, they are often isolated in injury studies. It is critical to evaluate the …
contact sports; however, they are often isolated in injury studies. It is critical to evaluate the …
Head impact accelerations for brain strain-related responses in contact sports: a model-based investigation
S Ji, W Zhao, Z Li, TW McAllister - Biomechanics and modeling in …, 2014 - safetylit.org
Both linear [Formula: see text] and rotational [Formula: see text] accelerations contribute to
head impacts on the field in contact sports; however, they are often isolated in injury studies …
head impacts on the field in contact sports; however, they are often isolated in injury studies …