H
H.B. Skinner
Researcher at University of California, San Francisco
Publications - 46
Citations - 4225
H.B. Skinner is an academic researcher from University of California, San Francisco. The author has contributed to research in topics: Bone cement & Femur. The author has an hindex of 26, co-authored 44 publications receiving 4020 citations. Previous affiliations of H.B. Skinner include University of California & United States Department of Veterans Affairs.
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Journal ArticleDOI
Prediction of femoral fracture load using automated finite element modeling.
Joyce H. Keyak,Joyce H. Keyak,Joyce H. Keyak,Stephen A Rossi,Stephen A Rossi,Kimberly A Jones,H.B. Skinner,H.B. Skinner,H.B. Skinner +8 more
TL;DR: Results indicate that this sophisticated technique, which is still early in its development, can achieve precision comparable to that of densitometry and can predict femoral fracture load to within -40% to +60% with 95% confidence.
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Proprioception in the anterior cruciate deficient knee
TL;DR: Proprioception was quantified in a group of patients who had documented complete ACL tears andMultivariate analysis demonstrated that changes recorded in the propriocep tion of the injured knee were attributable to the loss of the ACL rather than to other variables.
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Automated three-dimensional finite element modelling of bone: a new method.
TL;DR: A new, automated method of generating patient-specific three-dimensional finite element models of bone is presented--it uses digital computed tomographic (CT) scan data to drive the geometry of the bone and to estimate its inhomogeneous material properties.
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Effect of fatigue on joint position sense of the knee
TL;DR: It is concluded that muscle receptors are a prominent, if not primary, determinant of joint position sense, and capsular receptors may have a secondary role.
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Correlations between orthogonal mechanical properties and density of trabecular bone: Use of different densitometric measures
TL;DR: The strong correlation between density from QCT and ash density indicates that these measures can be used with nearly equal precision in estimating modulus and strength of tibial trabecular bone.