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AuthorAlkhatib, Sami E.
AuthorTarlochan, Faris
AuthorMehboob, Hassan
AuthorSingh, Ramesh
AuthorKadirgama, Kumaran
AuthorHarun, Wan Sharuzi Bin Wan
Available date2020-05-14T09:55:43Z
Publication Date2019
Publication NameArtificial Organs
ResourceScopus
ISSN0160564X
URIhttp://dx.doi.org/10.1111/aor.13444
URIhttp://hdl.handle.net/10576/14824
AbstractThe mismatch between stiffness of the femoral dense stem and host bone causes complications to patients, such as aseptic loosening and bone resorption. Three‐dimensional finite‐element models of homogeneous porous (HGP) and functionally graded porous (FGP) stems incorporating body‐centered cubic (BCC) structures are proposed in this article as an alternative to the dense stems. The relationship between the porosity and strut thickness of the BCC structure was developed to construct the finite‐element models. Three levels of porosities (20%, 50%, and 80%) were modeled in HGP and FGP stems. The porosity of the stems was decreased distally according to the sigmoid function (n = 0.1, n = 1 and n = 10) with 3 grading exponents. The results showed that FGP stems transferred 120%‐170% higher stresses to the femur (Gruen zone 7) as compared to the solid stem. Conversely, the stresses in HGP and FGP stems were 12%‐34% lower than the dense stem. The highest micromotions (105‐147 µm) were observed for stems of 80% overall porosity, and the lowest (42‐46 µm) was for stems of 20% overall porosity. Finally, FGP stems with a grading exponent of n = 10 resulted in an 11%‐28% reduction in micromotions.
SponsorThis article was made possible by NPRP Grant No. NPRP 8-876-2-375 from Qatar National Research Fund (a member of Qatar Foundation). The findings achieved herein are solely the responsibility of the authors.
Languageen
PublisherBlackwell Publishing Inc.
Subjectbiomimetic femoral stem
body-centered cubic
finite-element analysis
functionally graded porosity
TitleFinite element study of functionally graded porous femoral stems incorporating body-centered cubic structure
TypeArticle
PaginationE152-E164
Issue Number7
Volume Number43


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