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    Effects of Fit and Bonding Characteristics of Femoral Stems on Adaptive Bone Remodeling

    Source: Journal of Biomechanical Engineering:;1994:;volume( 116 ):;issue: 004::page 393
    Author:
    H. Weinans
    ,
    H. J. Grootenboer
    ,
    R. Huiskes
    DOI: 10.1115/1.2895789
    Publisher: The American Society of Mechanical Engineers (ASME)
    Abstract: Bone atrophy caused by stress-shielding may cause serious complications for the long-term fixation of hip stems. In particular, uncemented total hip arthroplasty is threatened by this problem, because the stems are usually larger and, as a consequence, stiffer than those of cemented implants. In the present study, the effects of fit and bonding characteristics of femoral hip stems were investigated, using the (nonlinear) finite element method in combination with adaptive bone remodeling theory to predict the bone density distribution in a bone or bone/implant configuration. Unknown parameters used in the theory, such as a reference equilibrium loading stimulus and a threshold (dead) zone of this stimulus, were established (triggered) by using the method to predict the density distributions in the natural femur and around fully coated uncemented implants. The computer simulation method can provide long term predictions of remodeling patterns around various implant configurations. Several cases were analyzed, whereby the coating conditions (fully, partly, or noncoated) and the fit characteristics (press fitted or overreamed) were varied. The computer predictions showed that partly coating can only significantly reduce bone atrophy relative to fully coated stems, when the coating is applied at a small region at the utmost proximal part of the stem. For smooth press-fit stems the predicted amount of bone loss (35 percent in the proximal medial region) was less than for a one-third proximally coated or a fully coated stem (50 to 54 percent predicted bone loss in the proximal medial region). The results showed that overreaming the femoral canal in the press fit case can have important effects. Distal overreaming gave reduced proximal atrophy. Proximal overreaming (or undersizing) resulted in a distal jam of the stem, a proximal “stress-bypass,” and dramatic proximal bone loss (up to 90 percent).
    keyword(s): Bonding , Bone , Presses , Coating processes , Coatings , Density , Stress , Equilibrium (Physics) , Finite element methods , Canals , Computer simulation , Arthroplasty AND Computers ,
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      Effects of Fit and Bonding Characteristics of Femoral Stems on Adaptive Bone Remodeling

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    http://yetl.yabesh.ir/yetl1/handle/yetl/113213
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    • Journal of Biomechanical Engineering

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    contributor authorH. Weinans
    contributor authorH. J. Grootenboer
    contributor authorR. Huiskes
    date accessioned2017-05-08T23:43:32Z
    date available2017-05-08T23:43:32Z
    date copyrightNovember, 1994
    date issued1994
    identifier issn0148-0731
    identifier otherJBENDY-25945#393_1.pdf
    identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/113213
    description abstractBone atrophy caused by stress-shielding may cause serious complications for the long-term fixation of hip stems. In particular, uncemented total hip arthroplasty is threatened by this problem, because the stems are usually larger and, as a consequence, stiffer than those of cemented implants. In the present study, the effects of fit and bonding characteristics of femoral hip stems were investigated, using the (nonlinear) finite element method in combination with adaptive bone remodeling theory to predict the bone density distribution in a bone or bone/implant configuration. Unknown parameters used in the theory, such as a reference equilibrium loading stimulus and a threshold (dead) zone of this stimulus, were established (triggered) by using the method to predict the density distributions in the natural femur and around fully coated uncemented implants. The computer simulation method can provide long term predictions of remodeling patterns around various implant configurations. Several cases were analyzed, whereby the coating conditions (fully, partly, or noncoated) and the fit characteristics (press fitted or overreamed) were varied. The computer predictions showed that partly coating can only significantly reduce bone atrophy relative to fully coated stems, when the coating is applied at a small region at the utmost proximal part of the stem. For smooth press-fit stems the predicted amount of bone loss (35 percent in the proximal medial region) was less than for a one-third proximally coated or a fully coated stem (50 to 54 percent predicted bone loss in the proximal medial region). The results showed that overreaming the femoral canal in the press fit case can have important effects. Distal overreaming gave reduced proximal atrophy. Proximal overreaming (or undersizing) resulted in a distal jam of the stem, a proximal “stress-bypass,” and dramatic proximal bone loss (up to 90 percent).
    publisherThe American Society of Mechanical Engineers (ASME)
    titleEffects of Fit and Bonding Characteristics of Femoral Stems on Adaptive Bone Remodeling
    typeJournal Paper
    journal volume116
    journal issue4
    journal titleJournal of Biomechanical Engineering
    identifier doi10.1115/1.2895789
    journal fristpage393
    journal lastpage400
    identifier eissn1528-8951
    keywordsBonding
    keywordsBone
    keywordsPresses
    keywordsCoating processes
    keywordsCoatings
    keywordsDensity
    keywordsStress
    keywordsEquilibrium (Physics)
    keywordsFinite element methods
    keywordsCanals
    keywordsComputer simulation
    keywordsArthroplasty AND Computers
    treeJournal of Biomechanical Engineering:;1994:;volume( 116 ):;issue: 004
    contenttypeFulltext
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