FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2378092401> ?p ?o ?g. }

• W2378092401 endingPage "145" @default.
• W2378092401 startingPage "145" @default.
• W2378092401 abstract "Introduction Stress shielding is one of the major concerns of load bearing implants (e.g. hip prostheses). Stiff implants cause stress shielding, which is thought to contribute to bone resorption1. On the contrary, low-stiffness implants generate high interfacial stresses that have been related to pain and interfacial micro-movements². Different attempts have been made to reduce these problems by optimizing either the stem design3 or using functionally graded implants (FGI) where the stem9s mechanical properties are optimized4. In this way, new additive manufacturing technologies allow fabricating porous materials with well-controlled mesostructure, which allows tailoring their mechanical properties. In this work, Finite Element (FE) simulations are used to develop an optimization methodology for the shape and material properties of a FGI hip stem. The resorbed bone mass fraction and the stem head displacement are used as objective functions. Methodology The 2D-geometry of a femur model (Sawbones®) with an implanted Profemur-TL stem (Wright Medical Technology Inc.) was used for FE simulations. The stem geometry was parameterized using a set of 8 variables (Figure 1-a). To optimize the stem9s material properties, a grid was generated with equally spaced points for a total of 96 points (Figure 1-b). Purely elastic materials were used for the stem and the bone. Two bone qualities were considered: good (Ecortical=20 GPa, Etrabecular=1.5 GPa) and medium (Ecortical=15 GPa, Etrabecular=1 GPa). Poisson ratio was fixed to v=0.3. Loading corresponded to stair climbing. Hip contact force along with abductors, vastus lateralis and vastus medialis muscles were considered5 for a bodyweight of 847 N. The resorbed bone mass fraction was evaluated from the differences in strain energy densities between the intact bone and the implanted bone2. The displacement of the load point on the femoral head was computed. The optimization problem was formulated as the minimization of the resorbed bone mass fraction and the head displacement. It was solved using a genetic algorithm. Results For the Profemur-TL design, bone resorption was around 36% and 56% for good and medium bone qualities, respectively (Fig. 2). The corresponding head displacements were 11.75 mm and 21.19 mm. Optimized solutions showed bone resorption from 15% to 26% and from 44% to 65% for good and medium bone qualities, respectively. Corresponding head displacements ranged from 11.85 mm to 12.25 mm and from 16.9 mm to 22.6 mm. Conclusion The obtained set of solutions constitutes an improvement of the implant performance for this functionally graded implant (FGI) compared to the original implant for both bone qualities. From these simulations, the final solution for the FGI could be chosen based on manufacturing restrictions or another performance indicator." @default.
• W2378092401 created "2016-06-24" @default.
• W2378092401 creator A5070989038 @default.
• W2378092401 creator A5077839542 @default.
• W2378092401 date "2016-05-01" @default.
• W2378092401 modified "2023-09-26" @default.
• W2378092401 title "OPTIMISATION OF HIP STEM SHAPE AND MATERIAL PROPERTIES TO MINIMISE BONE RESORPTION AND HEAD DISPLACEMENT" @default.
• W2378092401 hasPublicationYear "2016" @default.
• W2378092401 type Work @default.
• W2378092401 sameAs 2378092401 @default.
• W2378092401 citedByCount "0" @default.
• W2378092401 crossrefType "journal-article" @default.
• W2378092401 hasAuthorship W2378092401A5070989038 @default.
• W2378092401 hasAuthorship W2378092401A5077839542 @default.
• W2378092401 hasConcept C127413603 @default.
• W2378092401 hasConcept C135628077 @default.
• W2378092401 hasConcept C136229726 @default.
• W2378092401 hasConcept C141071460 @default.
• W2378092401 hasConcept C155165730 @default.
• W2378092401 hasConcept C159985019 @default.
• W2378092401 hasConcept C192562407 @default.
• W2378092401 hasConcept C2778985418 @default.
• W2378092401 hasConcept C2779372316 @default.
• W2378092401 hasConcept C2780554211 @default.
• W2378092401 hasConcept C2781411149 @default.
• W2378092401 hasConcept C2781467495 @default.
• W2378092401 hasConcept C66938386 @default.
• W2378092401 hasConcept C71924100 @default.
• W2378092401 hasConceptScore W2378092401C127413603 @default.
• W2378092401 hasConceptScore W2378092401C135628077 @default.
• W2378092401 hasConceptScore W2378092401C136229726 @default.
• W2378092401 hasConceptScore W2378092401C141071460 @default.
• W2378092401 hasConceptScore W2378092401C155165730 @default.
• W2378092401 hasConceptScore W2378092401C159985019 @default.
• W2378092401 hasConceptScore W2378092401C192562407 @default.
• W2378092401 hasConceptScore W2378092401C2778985418 @default.
• W2378092401 hasConceptScore W2378092401C2779372316 @default.
• W2378092401 hasConceptScore W2378092401C2780554211 @default.
• W2378092401 hasConceptScore W2378092401C2781411149 @default.
• W2378092401 hasConceptScore W2378092401C2781467495 @default.
• W2378092401 hasConceptScore W2378092401C66938386 @default.
• W2378092401 hasConceptScore W2378092401C71924100 @default.
• W2378092401 hasLocation W23780924011 @default.
• W2378092401 hasOpenAccess W2378092401 @default.
• W2378092401 hasPrimaryLocation W23780924011 @default.
• W2378092401 hasRelatedWork W1271872694 @default.
• W2378092401 hasRelatedWork W1984469401 @default.
• W2378092401 hasRelatedWork W1990138403 @default.
• W2378092401 hasRelatedWork W2088412191 @default.
• W2378092401 hasRelatedWork W2158266980 @default.
• W2378092401 hasRelatedWork W2164451821 @default.
• W2378092401 hasRelatedWork W2187510672 @default.
• W2378092401 hasRelatedWork W2247723942 @default.
• W2378092401 hasRelatedWork W2369331616 @default.
• W2378092401 hasRelatedWork W2399900062 @default.
• W2378092401 hasRelatedWork W2471152497 @default.
• W2378092401 hasRelatedWork W2589370005 @default.
• W2378092401 hasRelatedWork W2765563169 @default.
• W2378092401 hasRelatedWork W2822401696 @default.
• W2378092401 hasRelatedWork W2955307469 @default.
• W2378092401 hasRelatedWork W2996950835 @default.
• W2378092401 hasRelatedWork W3016889257 @default.
• W2378092401 hasRelatedWork W3038976111 @default.
• W2378092401 hasRelatedWork W3133790484 @default.
• W2378092401 hasRelatedWork W3134888219 @default.
• W2378092401 isParatext "false" @default.
• W2378092401 isRetracted "false" @default.
• W2378092401 magId "2378092401" @default.
• W2378092401 workType "article" @default.