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Barclay R. Davis
Researcher at Pennsylvania State University
Publications - 6
Citations - 726
Barclay R. Davis is an academic researcher from Pennsylvania State University. The author has contributed to research in topics: Bone cell & Finite element method. The author has an hindex of 5, co-authored 6 publications receiving 703 citations. Previous affiliations of Barclay R. Davis include Penn State Milton S. Hershey Medical Center.
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Journal ArticleDOI
Differential effect of steady versus oscillating flow on bone cells
Christopher R. Jacobs,Clare E. Yellowley,Barclay R. Davis,Zhiyi Zhou,John M. Cimbala,Henry J. Donahue +5 more
TL;DR: The hypothesis that the response of bone cells to fluid flow is dependent on chemotransport effects is support by exposing osteoblast-like hFOB 1.19 cells to precisely controlled dynamic fluid flow profiles.
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The consequences of anterior femoral notching in total knee arthroplasty. A biomechanical study.
Mark L. Lesh,David J. Schneider,Gurvinder S. Deol,Barclay R. Davis,Christopher R. Jacobs,Vincent D. Pellegrini +5 more
TL;DR: Biomechanical testing demonstrated that notching of the anterior femoral cortex significantly lessens the load to failure following total knee arthroplasty and influences the subsequent fracture pattern.
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The impact of boundary conditions and mesh size on the accuracy of cancellous bone tissue modulus determination using large-scale finite-element modeling
TL;DR: This project demonstrates the feasibility of this approach by quantifying its best-case accuracy in determining the trabecular hard tissue modulus of analogues fabricated of a material with known material properties determined independently by direct testing.
Journal ArticleDOI
The contribution of the ossific nucleus to the structural stiffness of the capital femoral epiphysis: a porcine model for DDH
Lee S. Segal,David J. Schneider,Joshua M. Berlin,Anthony Bruno,Barclay R. Davis,Christopher R. Jacobs +5 more
TL;DR: The hypothesis that the presence of the ossific nucleus may protect the capital femoral epiphysis (CFE) from compressive ischemic injury in the treatment of DDH is supported.
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Microcatheter adhesion of cyanoacrylates: comparison of normal butyl cyanoacrylate to 2-hexyl cyanoacrylate.
TL;DR: Compared to normal butyl cyanoacrylate, the most widely used liquid acrylic agent for microcatheter embolization, catheter adhesion was significantly decreased relative to pure Histoacryl or equivalent mixtures of HistoACryl and Ethiodol.