Your search keyword '"Chevalier, Yan"' showing total 12 results

1. Internal femoral component malrotation in TKA significantly alters tibiofemoral kinematics

Author

Heyse, Thomas J., El-Zayat, Bilal F., De Corte, Ronny, Chevalier, Yan, Fuchs-Winkelmann, Susanne, and Labey, Luc

Published

2018

2. UKA closely preserves natural knee kinematics in vitro

Author

Heyse, Thomas J., El-Zayat, Bilal F., De Corte, Ronny, Chevalier, Yan, Scheys, Lennart, Innocenti, Bernardo, Fuchs-Winkelmann, Susanne, and Labey, Luc

Published

2014

3. Biomechanical Testing of Distal Radius Fracture Treatments: Boundary Conditions Significantly Affect the Outcome of In Vitro Experiments.

Author

Synek, Alexander, Chevalier, Yan, Schröder, Christian, Pahr, Dieter H., and Baumbach, Sebastian F.

Subjects

BIOMECHANICS, FRACTURE fixation, BONE fractures, PROBABILITY theory, RADIUS bone injuries, REGRESSION analysis, TREATMENT effectiveness, DATA analysis software, MANN Whitney U Test

Abstract

The variety of experimental setups used during in vitro testing of distal radius fracture treatments impairs interstudy comparison and might lead to contradictory results. Setups particularly differ with respect to their boundary conditions, but the influence on the experimental outcome is unknown. The aim of this biomechanical study was to investigate the effects of 2 common boundary conditions on the biomechanical properties of an extra-articular distal radius fracture treated using volar plate osteosynthesis. Uniaxial compression tests were performed on 10 synthetic radii that were randomized into a proximally constrained group (ProxConst) or proximally movable group (ProxMove). The load was applied distally through a ball joint to enable distal fragment rotation. A significantly larger (ProxConst vs ProxMove) stiffness (671.6 ± 118.9 N⋅mm-1 vs 259.6 ± 49.4 N⋅mm-1), elastic limit (186.2 ± 24.4 N vs 75.4 ± 20.2 N), and failure load (504.9 ± 142.5 N vs 200.7 ± 49.0 N) were found for the ProxConst group. The residual tilt did not differ significantly between the 2 groups. We concluded that the boundary conditions have a profound impact on the experimental outcome and should be considered more carefully in both study design and interstudy comparison. [ABSTRACT FROM AUTHOR]

Published

2016

4. Biodegradable spacer reduces the subacromial pressure: A biomechanical cadaver study.

Author

Chevalier, Yan, Pietschmann, Matthias F., Thorwächter, Christoph, Chechik, Ofir, Adar, Eliyahu, Dekel, Assaf, and Müller, Peter E.

Subjects

*BIOMECHANICS, *DEAD, *RANGE of motion of joints, *ROTATIONAL motion, *ABDUCTION (Kinesiology), *COMPRESSIVE strength, *SUPRASPINATUS muscles, *SURGERY

Abstract

Background Failure after rotator cuff repair remains a major clinical problem and could be related to excessive pressures from the acromion. Previous studies with irreparable tears showed good clinical results of tendon healing with arthroscopic insertion of a protective biodegradable spacer balloon between the repaired tendon and the acromion. One hypothesis is that compression pressures on the repaired tendon will be reduced by the spacer. This cadaver study aimed to investigate the effects of this subacromial spacer on compression pressures over a repaired supraspinatus tendon in passive motion. Methods Rotator cuff tear and repair were performed in six fresh-frozen cadaveric shoulders, followed by insertion of a biodegradable subacromial spacer. Specimens were tested using a passive shoulder simulator for abduction-adduction, flexion-extension and internal-external rotations. A sensor positioned below the acromion was used to measure compression pressure changes through passive range of motion before and after placement of a subacromial spacer. Peak pressures were measured in adduction-abduction motion, near 90° abduction. Findings Both the mean and peak pressures in abduction-adduction were significantly reduced after insertion of the subacromial spacer (from mean 121.7 (SD 9.5) MPa to 51.5 (SD 1.2) MPa and from peak 1749.6 (SD 80.7) MPa to 535.1 (SD 27.6) MPa) (P < 0.0001). Interpretation The reduced peak pressures and wider load distributions over the sensor during both passive abduction-adduction and flexion-extension motions suggest that the use of the spacer will lead to reduced wear of the repair in patients, and potentially prevent rotator cuff re-tear after surgical repair. [ABSTRACT FROM AUTHOR]

Published

2018

5. Using self-drilling screws in volar plate osteosynthesis for distal radius fractures: a feasibility study.

Author

Synek, Alexaner, Borgmann, Lars, Traxler, Hannes, Huf, Wolfgang, Euler, Ekkehard, Chevalier, Yan, and Baumbach, Sebastian F.

Subjects

INTERNAL fixation in fractures, EXTENSOR muscles, BIOMECHANICS, STATISTICAL correlation, CLUSTER analysis (Statistics)

Abstract

Background: Symptomatic extensor tendon irritation is a frequent complication in volar plate osteosynthesis of distal radius fractures. It is typically caused by dorsal screw protrusion and overdrilling of the dorsal cortex. The use of self-drilling locking screws (SDLS) could overcome both causes. The practical applicability of SDLS depends on two prerequisites: (1) the feasibility of preoperative distal screw length determination, and (2) sufficient primary biomechanical stability of SDLS compared to standard locking screws (SLS). Methods: We first assessed the feasibility of preoperative screw length determination (1): Distal radius width, depth and distal screw lengths were measured in 38 human radii. Correlations between distal radius width and depth were assessed, a cluster analysis (Ward's method and squared Euclidean distance) for distal radius width conducted, and intra-cluster screw lengths analyzed (ANOVA). The biomechanical performance of SDLS (2) was assessed by comparison to SLS in a distal radius fracture model (AO-23 A3). 75 % distal screw length was chosen for both groups to simulate a worst-case scenario. Uniaxial compression tests were conducted to measure stiffness, elastic limit, maximum force and residual tilt. Statistics comprised of independent sample t-tests and a Bonferroni correction (p < 0.0125). Results: (1) Distal radius width and depth showed a high correlation (R (2)  = 0.79; p < 0.001). Three distal radius width clusters could be identified: small <34 mm; medium 34-36.9 mm; large >36.9 mm. ANOVA and Tukey post-hoc analysis revealed significantly different volar-dorsal depths (p < 0.05) for nearly all screws. (2) To assess biomechanical stability nine specimens were tested each; no significant differences were found between the SDLS and SLS groups. Conclusions: This feasibility study demonstrates that (1) distal radius width can be used as a predictor for distal screw length and (2) that SDLS provides mechanical stability equivalent to SLS. These results highlight the feasibility of applying SDLS screws in volar plate osteosynthesis at least in extraarticular fractures. [ABSTRACT FROM AUTHOR]

Published

2016

6. The Initial Slope of the Variogram, Foundation of the Trabecular Bone Score, Is Not or Is Poorly Associated With Vertebral Strength.

Author

Maquer, Ghislain, Zysset, Philippe K, Lu, Yongtao, Dall'Ara, Enrico, Yang, Lang, Eastell, Richard, Chevalier, Yan, Krause, Matthias, and Lippuner, Kurt

Abstract

ABSTRACT Trabecular bone score (TBS) rests on the textural analysis of dual-energy X-ray absorptiometry (DXA) to reflect the decay in trabecular structure characterizing osteoporosis. Yet, its discriminative power in fracture studies remains incomprehensible because prior biomechanical tests found no correlation with vertebral strength. To verify this result possibly owing to an unrealistic setup and to cover a wide range of loading scenarios, the data from three previous biomechanical studies using different experimental settings were used. They involved the compressive failure of 62 human lumbar vertebrae loaded 1) via intervertebral discs to mimic the in vivo situation ('full vertebra'); 2) via the classical endplate embedding ('vertebral body'); or 3) via a ball joint to induce anterior wedge failure ('vertebral section'). High-resolution peripheral quantitative computed tomography (HR-pQCT) scans acquired from prior testing were used to simulate anterior-posterior DXA from which areal bone mineral density (aBMD) and the initial slope of the variogram (ISV), the early definition of TBS, were evaluated. Finally, the relation of aBMD and ISV with failure load (Fexp) and apparent failure stress (σexp) was assessed, and their relative contribution to a multilinear model was quantified via ANOVA. We found that, unlike aBMD, ISV did not significantly correlate with Fexp and σexp, except for the 'vertebral body' case ( r2 = 0.396, p = 0.028). Aside from the 'vertebra section' setup where it explained only 6.4% of σexp ( p = 0.037), it brought no significant improvement to aBMD. These results indicate that ISV, a replica of TBS, is a poor surrogate for vertebral strength no matter the testing setup, which supports the prior observations and raises a fortiori the question of the deterministic factors underlying the statistical relationship between TBS and vertebral fracture risk. © 2015 American Society for Bone and Mineral Research. [ABSTRACT FROM AUTHOR]

Published

2016

7. The influence of distal screw length on the primary stability of volar plate osteosynthesis--a biomechanical study.

Author

Baumbach, Sebastian F., Synek, Alexander, Traxler, Hannes, Mutschler, Wolf, Pahr, Dieter, and Chevalier, Yan

Subjects

BONE screws, BIOMECHANICS, BONE fractures, INTERNAL fixation in fractures, ORTHOPEDIC surgery, RADIUS bone injuries, RESEARCH funding, T-test (Statistics), BONE density, DESCRIPTIVE statistics, MANN Whitney U Test, DISEASE complications

Abstract

Background: Extensor tendon irritation is one of the most common complications following volar locking plate osteosynthesis (VLPO) for distal radius fractures. It is most likely caused by distal screws protruding the dorsal cortex. Shorter distal screws could avoid this, yet the influence of distal screw length on the primary stability in VLPO is unknown. The aim of this study was to compare 75 to 100 % distal screw lengths in VLPO. Methods: A biomechanical study was conducted on 11 paired fresh-frozen radii. HRpQCT scans were performed to assess bone mineral density (BMD) and bone mineral content (BMC). The specimens were randomized pairwise into two groups: 100 % (group A) and 75 % (group B) unicortical distal screw lengths. A validated fracture model for extra-articular distal radius fractures (AO-23 A3) was used. Polyaxial volar locking plates were mounted, and distal screws was inserted using a drill guide block. For group A, the distal screw tips were intended to be flush or just short of the dorsal cortex. In group B, a target screw length of 75 % was calculated. The specimens were tested to failure using a displacement-controlled axial compression test. Primary biomechanical stability was assessed by stiffness, elastic limit, and maximum force as well as with residual tilt, which quantified plastic deformation. Results: Nine specimens were tested successfully. BMD and BMC did not differ between the two groups. The mean distal screw length of group A was 21.7 ± 2.6 mm (range: 16 to 26 mm), for group B 16.9 ± 1.9 mm (range: 12 to 20 mm). Distal screws in group B were on average 5.6 ± 0.9 mm (range: 3 to 7 mm) shorter than measured. No significant differences were found for stiffness (706 ± 103 N/mm vs. 660 ± 124 N/mm), elastic limit (177 ± 25 N vs. 167 ± 36 N), maximum force (493 ± 139 N vs. 471 ± 149 N), or residual tilt (7.3° ± 0.7° vs. 7.1° ± 1.3°). Conclusion: The 75 % distal screw length in VLPO provides similar primary stability to 100 % unicortical screw length. This study, for the first time, provides the biomechanical basis to choose distal screws significantly shorter then measured. [ABSTRACT FROM AUTHOR]

Published

2015

8. Rapid Prototyping for In Vitro Knee Rig Investigations of Prosthetized Knee Biomechanics: Comparison with Cobalt-Chromium Alloy Implant Material.

Author

Schröder, Christian, Steinbrück, Arnd, Müller, Tatjana, Woiczinski, Matthias, Chevalier, Yan, Weber, Patrick, Müller, Peter E., and Jansson, Volkmar

Subjects

ANALYSIS of variance, BIOMECHANICS, BIOMEDICAL materials, BODY weight, CONFIDENCE intervals, DEAD, HUMAN anatomical models, KINEMATICS, METALS, POLYMERS, PROSTHETICS, REGRESSION analysis, STATISTICS, STATURE, T-test (Statistics), TOTAL knee replacement, PILOT projects, DATA analysis, MOTION capture (Human mechanics), DATA analysis software, DESCRIPTIVE statistics, IN vitro studies

Abstract

Retropatellar complications after total knee arthroplasty (TKA) such as anterior knee pain and subluxations might be related to altered patellofemoral biomechanics, in particular to trochlear design and femorotibial joint positioning. A method was developed to test femorotibial and patellofemoral joint modifications separately with 3D-rapid prototyped components for in vitro tests, but material differences may further influence results. This pilot study aims at validating the use of prostheses made of photopolymerized rapid prototype material (RPM) by measuring the sliding friction with a ring-on-disc setup as well as knee kinematics and retropatellar pressure on a knee rig. Cobalt-chromium alloy (standard prosthesis material, SPM) prostheses served as validation standard. Friction coefficients between these materials and polytetrafluoroethylene (PTFE) were additionally tested as this latter material is commonly used to protect pressure sensors in experiments. No statistical differences were found between friction coefficients of both materials to PTFE. UHMWPE shows higher friction coefficient at low axial loads for RPM, a difference that disappears at higher load. No measurable statistical differences were found in knee kinematics and retropatellar pressure distribution. This suggests that using polymer prototypes may be a valid alternative to original components for in vitro TKA studies and future investigations on knee biomechanics. [ABSTRACT FROM AUTHOR]

Published

2015

9. Biomechanical effects of teriparatide in women with osteoporosis treated previously with alendronate and risedronate: Results from quantitative computed tomography-based finite element analysis of the vertebral body

Author

Chevalier, Yan, Quek, Evelyn, Borah, Babul, Gross, Gary, Stewart, John, Lang, Thomas, and Zysset, Philippe

Subjects

*BIOMECHANICS, *OSTEOPOROSIS in women, *FINITE element method, *TOMOGRAPHY, *BIOMARKERS, *RECOMBINANT proteins, *VERTEBRAE, *DIPHOSPHONATES, *THERAPEUTICS

Abstract

Abstract: Previous antiresorptive treatment may influence the anabolic response to teriparatide. The OPTAMISE (Open-label Study to Determine How Prior Therapy with Alendronate or Risedronate in Postmenopausal Women with Osteoporosis Influences the Clinical Effectiveness of Teriparatide) study reported greater increases in biochemical markers of bone turnover and volumetric bone mineral density (BMD) when 12 months of teriparatide treatment was preceded by 2 years or more of risedronate versus alendronate treatment. The objective of this study was to use quantitative computed tomography (CT)-based nonlinear finite element modeling to evaluate how prior therapy with alendronate or risedronate in postmenopausal women with osteoporosis influences the biomechanical effectiveness of teriparatide. Finite element models of the L1 vertebra were created from quantitative CT scans, acquired before and after 12 months of therapy with teriparatide, from 171 patients from the OPTAMISE study. These models were subjected to uniaxial compression. Total BMD-derived bone volume fraction (BV/TVd, i.e., bone volume [BV]/total volume [TV]), estimated from quantitative CT-based volumetric BMD, vertebral stiffness, and failure load (strength) were calculated for each time measurement point. The results of this study demonstrated that 12 months of treatment with teriparatide following prior treatment with either risedronate or alendronate increased BMD-derived BV/TVd, the predicted vertebral stiffness, and failure load. However, the effects of teriparatide were more pronounced in patients treated previously with risedronate, which is consistent with the findings of the OPTAMISE study. The mean (±standard error) increase in stiffness was greater in the prior risedronate group than the prior alendronate group (24.6±3.2% versus 14.4±2.8%, respectively; p =0.0073). Similarly, vertebral failure load increased by 27.2±3.5% in the prior risedronate group versus 15.3±3.1% in the prior alendronate group (p =0.0042). The mechanical variables increased in greater proportion than BV/TVd, which increased by 6.9±0.9% versus 4.6±0.8% in the prior-risedronate and prior-alendronate groups, respectively (p =0.0290). Our finding indicated that while teriparatide can be used with success on patients who have previously undergone treatment with risedronate and alendronate, it demonstrated greater anabolic effect on biomechanical properties in prior-risedronate patients in the first year of teriparatide treatment. [Copyright &y& Elsevier]

Published

2010

10. Cement Distribution, Volume, and Compliance in Vertebroplasty.

Author

Chevalier, Yan, Pahr, Dieter, Charlebois, Mathieu, Heini, Paul, Schneider, Erich, and Zysset, Philippe

Subjects

*BIOMECHANICS, *FINITE element method, *SPINE, *VERTEBRAE, *BONES

Abstract

The article investigates the biomechanics of vertebral bodies augmented with real distributions of cement using nonlinear finite element analysis. It compares stiffness, strength and stress transfer of augmented versus nonaugmented osteoporotic vertebral bodies under compressive loading. It examines how cement distribution, volume and compliance affect the biomechanical variables.

Published

2008

11. Metaphyseal anchoring short stem hip arthroplasty provides a more physiological load transfer: a comparative finite element analysis study.

Author

Yan, Shuang G., Chevalier, Yan, Liu, Fanxiao, Hua, Xingyi, Schreiner, Anna, Jansson, Volkmar, and Schmidutz, Florian

Subjects

*FEMUR physiology, *BIOMECHANICS, *COMPARATIVE studies, *COMPUTED tomography, *FINITE element method, *PROSTHETICS, *TOTAL hip replacement, *PHYSIOLOGIC strain, *WEIGHT-bearing (Orthopedics)

Abstract

Background: Short stem total hip arthroplasty (SHA) preserves femoral bone stock and is supposed to provide a more natural load transfer compared to standard stem total hip arthroplasty (THA). As comparative biomechanical reference data are rare we used a finite element analysis (FEA) approach to compare cortical load transfer after implantations of a metaphyseal anchoring short and standard stem in native biomechanical femora. Methods: The subject specific finite element models of biomechanical femora, one native and two with implanted metaphyseal anchoring SHA (Metha, B. Braun Aesculap) and standard THA (CLS, Zimmer-Biomet), were generated from computed tomography datasets. The loading configuration was performed with an axial force of 1400 N. Von Mises stress was used to investigate the change of cortical stress distribution. Results: Compared to the native femur, a considerable reduction of cortical stress was recorded after implantation of SHA and standard THA. The SHA showed less reduction proximally with a significant higher metaphyseal cortical stress compared to standard THA. Moreover, the highest peak stresses were observed metaphyseal for the SHA stem while for the standard THA high stress pattern was observed more distally. Conclusions: Both, short and standard THA, cause unloading of the proximal femur. However, the metaphyseal anchoring SHA features a clearly favorable pattern in terms of a lower reduction proximally and improved metaphyseal loading, while standard THA shows a higher proximal unloading and more distal load transfer. These load patterns implicate a reduced stress shielding proximally for metaphyseal anchoring SHA stems and might be able to translate in a better bone preservation. [ABSTRACT FROM AUTHOR]

Published

2020

12. Biomechanics of medial unicondylar in combination with patellofemoral knee arthroplasty.

Author

Heyse, Thomas J., El-Zayat, Bilal F., De Corte, Ronny, Scheys, Lennart, Chevalier, Yan, Fuchs-Winkelmann, Susanne, and Labey, Luc

Subjects

*OSTEOARTHRITIS treatment, *PATELLOFEMORAL joint, *TOTAL knee replacement, *BIOMECHANICS, *QUADRICEPS muscle, *COLLATERAL ligament, *ORTHOPEDICS, *SURGERY

Abstract

Purpose: Modular bicompartmental knee arthroplasty (BKA) for treatment of medio-patellofemoral osteoarthritis (OA) should allow for close to normal kinematics in comparison with unicondylar knee arthroplasty (UKA) and the native knee. There is so far no data to support this. Scope: Six fresh frozen full leg cadaver specimens were prepared and mounted in a kinematic rig with six degrees of freedom for the knee joint. Three motion patterns were applied with the native knee and after sequential implantation of medial UKA and patellofemoral joint replacement (PFJ): passive flexion-extension, open chain extension, and squatting. During the loaded motions, quadriceps and hamstrings muscle forces were applied. Infrared cameras continuously recorded the trajectories of marker frames rigidly attached to femur, tibia and patella. Prior computer tomography allowed identification of coordinate frames of the bones. Strains in the collateral ligaments were calculated from insertion site distances. Results: UKA led to a less adducted and internally rotated tibia and a more strained medial collateral ligament (MCL). Addition of a patellofemoral replacement led to a more posterior position of both femoral condyles, a more dorsally located tibiofemoral contact point and higher MCL strain with squatting. Conclusion: In comparison to UKA modular BKA leads to a more dorsal tibial contact point, a medial femoral condyle being located more posteriorly, and more MCL strain. Mainly the changes to the trochlear anatomy as introduced by PFJ may account for these differences. [ABSTRACT FROM AUTHOR]

Published

2014