0000000000525691

AUTHOR

Pablo Clavel

showing 3 related works from this author

Finite element analysis of a Bionate ring-shaped customized lumbar disc nucleus prosthesis

2021

[EN] Study design: Biomechanical study of a nucleus replacement with a finite element model. Objective: To validate a Bionate 80A ring-shaped nucleus replacement. Methods: The ANSYS lumbar spine model made from lumbar spine X-rays and magnetic resonance images obtained from cadaveric spine specimens were used. All materials were assumed homogeneous, isotropic, and linearly elastic. We studied three options: intact spine, nucleotomy, and nucleus implant. Two loading conditions were evaluated at L-3-L-4, L-4-L-5, and L-5-S-1 discs: a 1000 N axial compression load and this load after the addition of 8 Nm flexion moment in the sagittal plane plus 8 Nm axial rotation torque. Results: Maximum nuc…

finite element modelLumbar VertebraeINGENIERIA MECANICABiochemistry (medical)Finite Element AnalysisBiomedical EngineeringArtificial LimbsGeneral Chemistrymotion preservationArticleBiomechanical PhenomenaBiomaterialsdisc herniapolycarbonate urethanedegenerative disc diseaseHumansCirurgia Aparells i instrumentsRange of Motion Articularnucleus disc replacement
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Bionate Lumbar Disc Nucleus Prosthesis: Biomechanical Studies in Cadaveric Human Spines.

2022

Design: cadaveric spine nucleus replacement study. Objective: determining Bionate 80A nucleus replacement biomechanics in cadaveric spines. Methods: in cold preserved spines, with ligaments and discs intact, and no muscles, L3-L4, L4-L5, and L5-S1 nucleus implantation was done. Differences between customized and overdimensioned implants were compared. Flexion, extension, lateral bending, and torsion were measured in the intact spine, nucleotomy, and nucleus implantation specimens. Increasing load or bending moment was applied four times at 2, 4, 6, and 8 Nm, twice in increasing mode and twice in decreasing mode. Spine motion was recorded using stereophotogrammetry. Expulsion tests: cyclic c…

General Chemical EngineeringGeneral ChemistryOssos MalaltiesLumbàlgiaColumna vertebralACS omega
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Nucleus disc replacement : designs and material selection FEA analysis

2022

Study Design. We selected the materials and implant design and performed Finite Element Analysis (FEA) studies. Background. Nucleus disc replacements, implanted since 1960, have undergone continuous evolution in materials and designs, but subsidence, extrusion, and in vivo degradation limit widespread use. Aim. The aim of this study is to create a new nucleus disc replacement that avoids the abovementioned drawbacks. Material and Methods. We created eighteen designs with varied materials and analyzed them with FEA in compression and shear tests in a lumbar spine model programmed in Ansys Parametric Design Language. Results. Bionate® 80A had the closest mechanical characteristics to the inta…

Medicina InvestigacióArticle SubjectGeneral EngineeringGeneral Materials Science
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