Search

Your search keyword '"De Corte R"' showing total 22 results
Start Over Author "De Corte R"
22 results on '"De Corte R"'

4. Kinematik nach medialem unikondylärem Gelenkersatz in vitro

Author

Heyse, TJ, El-Zayat, B, De Corte, R, Chevalier, Y, Scheys, L, Innocenti, B, Fuchs-Winkelmann, S, Labey, L, Heyse, TJ, El-Zayat, B, De Corte, R, Chevalier, Y, Scheys, L, Innocenti, B, Fuchs-Winkelmann, S, and Labey, L

Published
2014

10. Actuele en toekomstige problemen in het appartementenrecht

Author

Casman, Hélène, Dirix, E., Casman, H., De Corte, R., Privaat- en economisch recht, Privaatrecht, Vriendenkring VUB, and Ondernemingen & Contracten

Subjects
Gedwongen mede-eigendom
Abstract

Na de voorafgaande vraag wat onder appartementsrecht wordt begrepen, onderzoekt de auteur enkele problemen die bij het opstellen van de basisakte kunnen rijzen. Tevens komen actuele problemen die door komend recht kunnen worden opgelost indien het huidig ontwerp van wet wordt goedgekeurd aan bod.

Published
1992

11. Surgical approaches for pudendal nerve entrapment: insights from a systematic review and meta-analysis.

Author

Mylle T, De Corte R, Hervé F, Everaert K, and Bou Kheir G

Subjects
Humans, Laparoscopy methods, Pudendal Nerve surgery, Treatment Outcome, Postoperative Complications etiology, Postoperative Complications epidemiology, Pudendal Neuralgia surgery, Decompression, Surgical methods
Abstract

Background: Pudendal nerve entrapment (PNE) is an underdiagnosed condition affecting a spectrum of pelvic functions, primarily pain, as outlined by Nantes diagnostic criteria. Although numerous surgical decompression techniques are available for its management, consensus on efficacy and safety is lacking. This study conducts a systematic review and meta-analysis to assess the efficacy and complication rates of the main surgical decompression techniques., Methods: A comprehensive literature search was conducted in PubMed®, Embase®, Web of Science®, and ClinicalTrails.gov® on 19th of April 2023. Initial screening involved title and abstract evaluation, with subsequent retrieval and assessment of abstracts and full-text articles. Studies assessing pain outcomes before and after surgical release of the pudendal nerve were included. Studies without full-text, focusing on diagnostic methods or with outcomes relating solely to LUTS, digestive symptoms, or sexual dysfunction, were excluded. Risk of bias assessement was conducted using the National Institute of Health (NIH) Study Quality Assessment tool. Studies were categorized based on three surgical techniques: perineal, transgluteal, and laparoscopic transperitoneal. Random-effects meta-analysis with subgroup analysis were used. Meta-regression analyses were conducted to investigate the influence of covariates on the observed outcomes., Results: Nineteen studies, comprising 810 patients, were included. The overall significant pain relief rate across all techniques was estimated at 0.67 (95% CI 0.54 to 0.78) with considerable heterogeneity (I 2  = 80.4%). Subgroup analysis revealed success rate for different techniques: laparoscopic (0.91, 95% CI 0.64 to 0.98), perineal (0.69, 95% CI 0.52 to 0.82), and transgluteal (0.50, 95% CI 0.37 to 0.63). The laparoscopic technique exhibited a complication rate of 16.0%. Meta-regression indicated that patient age and median follow-up significantly influenced outcomes., Conclusion: While comparing surgical techniques is challenging, this meta-analysis highlights important outcome differences. The laparoscopic technique appears most promising for pain improvement. However, the study also emphasizes the need for further robust, long-term research due to significant heterogeneity across studies and prevelent risk of bias. PROSPERO database: CRD42023496564., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2024
Full Text
View/download PDF

12. Impact of increasing total knee replacement constraint within a single implant line on coronal stability: an ex vivo investigation.

Author

Berger P, Shah DS, Taylan O, Slane J, De Corte R, Scheys L, and Vandenneucker H

Subjects
Humans, Cadaver, Knee Joint surgery, Range of Motion, Articular, Biomechanical Phenomena, Arthroplasty, Replacement, Knee methods, Joint Instability surgery, Knee Prosthesis
Abstract

Introduction: Despite the existence of diverse total knee implant designs, few data is available on the relationship between the level of implant constraint and the postoperative joint stability in the frontal plane and strain in the collateral ligaments. The current study aimed to document this relation in an ex vivo setting., Materials and Methods: Six fresh-frozen lower limbs underwent imaging for preparation of specimen-specific surgical guides. Specimens were dissected and assessed for joint laxity using the varus-valgus stress tests at fixed knee flexion angles. A handheld dynamometer applied tensile loads at the ankle, thereby resulting in a knee abduction-adduction moment of 10 Nm. Tibiofemoral kinematics were calculated using an optical motion capture system, while extensometers attached to medial collateral (MCL) and lateral collateral ligament (LCL) measured strain. Native joint testing was followed by four TKA designs from a single implant line-cruciate retaining, posterior stabilised, varus-valgus constrained and hinged knee (HK)-and subsequent testing after each implantation. Repeated measures linear mixed-models (p < 0.05) were used to compare preoperative vs. postoperative data on frontal plane laxity and collateral ligament strain., Results: Increasing implant constraint reduced frontal plane laxity across knee flexion, especially in deep flexion (r 2  > 0.76), and MCL strain in extension; however, LCL strain reduction was not consistent. Frontal plane laxity increased with knee flexion angle, but similar trends were inconclusive for ligament strain. HK reduced joint laxity and ligament strain as compared to the native condition consistently across knee flexion angle, with significant reductions in flexion (p < 0.024) and extension (p < 0.001), respectively, thereby elucidating the implant design-induced joint stability. Ligament strain exhibited a strong positive correlation with varus-valgus alignment (r 2  = 0.96), notwithstanding knee flexion angle or TKA implant design., Conclusion: The study demonstrated that increasing the constraint of a TKA resulted in lower frontal plane laxity of the knee. With implant features impacting laxity in the coronal plane, consequentially affecting strain in collateral ligaments, surgeons must consider these factors when deciding a TKA implant, especially for primary TKA., Level of Evidence: V., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2023
Full Text
View/download PDF

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

Author

Heyse TJ, El-Zayat BF, De Corte R, Chevalier Y, Fuchs-Winkelmann S, and Labey L

Subjects
Aged, 80 and over, Arthroplasty, Replacement, Knee methods, Biomechanical Phenomena, Bone Malalignment surgery, Cadaver, Femur physiopathology, Humans, Knee Joint surgery, Male, Range of Motion, Articular, Rotation, Tibia surgery, Arthroplasty, Replacement, Knee adverse effects, Bone Malalignment physiopathology, Femur surgery, Knee Joint physiopathology, Knee Prosthesis adverse effects, Tibia physiopathology
Abstract

Purpose: Femoral component malrotation in total knee arthroplasty (TKA) is clinically proven to cause dissatisfaction and impaired function. This study is an attempt to characterize the tibiofemoral kinematics following femoral malrotation in posterior stabilized (PS) TKA. It was hypothesized that internal malrotation would introduce the most pronounced changes., Methods: Six fresh-frozen cadaver specimens were mounted in a kinematic rig. Three motion patterns were applied with the native knee and following PS TKA (passive motion, open chain extension, and squatting) while infrared cameras recorded the trajectories of markers attached to femur and tibia. Three different femoral implants were tested: a conventional posterior stabilized component, and adapted components of the same implant with 5° of intrinsic external and internal rotation, respectively., Results: The implantation of the PS TKA resulted in less tibial internal rotation (squat 33-70°, p < 0.05) and the medial femoral condyle shifted posteriorly especially in deep flexion (squat 84-111°, p < 0.05). Internal component malrotation caused internal rotation and abduction of the tibia in flexion (squat 33-111°, p < 0.05), an elevated (squat 43-111°, p < 0.05) and more anterior (passive 61-126°, p < 0.05) located medial femoral condyle and a lateral femoral condyle located more posterior and inferior (squat 73-111°, p < 0.05) than in the neutrally aligned TKA. External component malrotation caused only little changes under passive motion. Under a squat there was less internal rotation and more adduction to the tibia (33-111°, p < 0.05). The medial femoral condyle was moved more posterior (squat 59-97°, p < 0.05), the lateral femoral condyle more superior (squat 54-105°, p < 0.05) than in the neutrally aligned TKA., Conclusion: The greatest differences to the native tibiofemoral kinematics were introduced by internal rotation of the femoral component. Also neutrally and externally rotated femoral components introduce kinematic changes, but to a lesser extent. With respect to the alterations introduced to kinematics internal malrotation should be avoided when performing PS TKA.

Published
2018
Full Text
View/download PDF

14. Articulation of Native Cartilage Against Different Femoral Component Materials. Oxidized Zirconium Damages Cartilage Less Than Cobalt-Chrome.

Author

Vanlommel J, De Corte R, Luyckx JP, Anderson M, Labey L, and Bellemans J

Subjects
Animals, Arthroplasty, Replacement, Knee instrumentation, Cartilage, Cattle, Cobalt chemistry, Humans, Materials Testing, Patella, Swine, Zirconium chemistry, Cartilage, Articular drug effects, Chromium Alloys toxicity, Knee Prosthesis adverse effects, Zirconium toxicity
Abstract

Background: Oxidized zirconium (OxZr) is produced by thermally driven oxidization creating an oxidized surface with the properties of a ceramic at the top of the Zr metal substrate. OxZr is much harder and has a lower coefficient of friction than cobalt-chrome (CoCr), both leading to better wear characteristics. We evaluated and compared damage to the cartilage of porcine patella plugs, articulating against OxZr vs CoCr. Our hypothesis was that, owing to its better wear properties, OxZr would damage cartilage less than CoCr. If this is true, OxZr might be a better material for the femoral component during total knee arthroplasty if the patella is not resurfaced., Methods: Twenty-one plugs from porcine patellae were prepared and tested in a reciprocating pin-on-disk machine while lubricated with bovine serum and under a constant load. Three different configurations were tested: cartilage-cartilage as the control group, cartilage-OxZr, and cartilage-CoCr. Macroscopic appearance, cartilage thickness, and the modified Mankin score were evaluated after 400,000 wear cycles., Results: The control group showed statistically significant less damage than plugs articulating against both other materials. Cartilage plugs articulating against OxZr were statistically significantly less damaged than those articulating against CoCr., Conclusion: Although replacing cartilage by an implant always leads to deterioration of the cartilage counterface, OxZr results in less damage than CoCr. The use of OxZr might thus be preferable to CoCr in case of total knee arthroplasty without patella resurfacing., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2017
Full Text
View/download PDF

15. Balancing UKA: overstuffing leads to high medial collateral ligament strains.

Author

Heyse TJ, El-Zayat BF, De Corte R, Scheys L, Chevalier Y, Fuchs-Winkelmann S, and Labey L

Subjects
Aged, Biomechanical Phenomena physiology, Cadaver, Female, Humans, Knee Joint surgery, Male, Arthroplasty, Replacement, Knee adverse effects, Arthroplasty, Replacement, Knee methods, Medial Collateral Ligament, Knee physiopathology, Sprains and Strains physiopathology
Abstract

Purpose: Balancing unicondylar knee arthroplasty (UKA) is challenging. If not performed properly, it may lead to implant loosening or progression of osteoarthritis in the preserved compartment. This study was aimed to document the biomechanical effects of improper balancing. We hypothesised that overstuffing would lead to more valgus, higher strain in the medial collateral ligament (sMCL), and higher lateral contact force., Methods: Six fresh-frozen cadaver specimens were mounted in a kinematic rig. Three motion patterns were applied with the native knee and following medial UKA (passive motion, open-chain extension, and squatting), while infrared cameras recorded the trajectories of markers attached to femur and tibia. Three inlay thicknesses were tested (8, 9, 10 mm)., Results: Overstuffed knees were in more valgus and showed less tibial rotation and higher strains in the sMCL (p < 0.05). Lateral contact forces were higher in some specimens and lower in others. Stiffening of the medial compartment by UKA, even well balanced, already leads to a knee more in valgus with a more stressed sMCL. Overstuffing increases these effects. Knees with a tight sMCL may even see lower lateral contact force. Biomechanics were closest to the native knee with understuffing., Conclusion: The first two hypotheses were confirmed, but not the latter. This underlines the importance of optimal balancing. Overstuffing should certainly be avoided. Although kinematics is only slightly affected, contact forces and ligament strains are considerably changed and this might be of more clinical importance. It is advisable to use thinner inlays, if stability is not compromised.

Published
2016
Full Text
View/download PDF

16. All-polyethylene tibial components generate higher stress and micromotions than metal-backed tibial components in total knee arthroplasty.

Author

Brihault J, Navacchia A, Pianigiani S, Labey L, De Corte R, Pascale V, and Innocenti B

Subjects
Biomechanical Phenomena, Bone Cements, Bone Diseases, Metabolic, Finite Element Analysis, Humans, Metals, Models, Anatomic, Osteoporosis, Range of Motion, Articular, Arthroplasty, Replacement, Knee, Knee Prosthesis, Polyethylene, Prosthesis Design, Tibia
Abstract

Purpose: Most total knee arthroplasty tibial components are metal-backed, but an alternative tibial component made entirely of polyethylene (all-polyethylene design) exists. While several clinical studies have shown that all-poly design performs similarly to the metal-backed, the objective of this study is to perform a biomechanical comparison., Methods: Loads, constraints and geometries during a squat activity at 120° of flexion were obtained from a validated musculoskeletal model and applied to a finite element model. Stresses in the tibia and micromotions at the bone-implant interface were evaluated for several implant configurations: (1) three different thicknesses of the cement penetration under the baseplate (2, 3 and 4 mm), (2) the presence or absence of a cement layer around the stem of the tibial tray and (3) three different bone conditions (physiological, osteopenic and osteoporotic bone)., Results: All-polyethylene tibial components resulted in significantly higher (p < 0.001) and more uneven stress distributions in the cancellous bone under the baseplate (peak difference: +128.4 %) and fivefold increased micromotions (p < 0.001). Performance of both implant designs worsened with poorer bone quality with peaks in stress and micromotion variations of +40.8 and +54.0 %, respectively (p < 0.001). Performance improvements when the stem was cemented were not statistically significant (n.s.)., Conclusion: The metal-backed design showed better biomechanical performance during a squat activity at 120° of flexion compared to the all-polyethylene design. These results should be considered when selecting the appropriate tibial component for a patient, especially in the presence of osteoporotic bone or if intense physical activity is foreseen.

Published
2016
Full Text
View/download PDF

17. Restoration of constitutional alignment in TKA leads to more physiological strains in the collateral ligaments.

Author

Delport H, Labey L, Innocenti B, De Corte R, Vander Sloten J, and Bellemans J

Subjects
Aged, Aged, 80 and over, Biomechanical Phenomena physiology, Cadaver, Female, Humans, Male, Weight-Bearing physiology, Arthroplasty, Replacement, Knee methods, Collateral Ligaments physiopathology, Sprains and Strains physiopathology
Abstract

Purpose: Currently, controversy exists whether restoration of neutral mechanical alignment should be attempted in all patients undergoing TKA. Our hypothesis was that restoration of constitutional rather than neutral mechanical alignment may in theory lead to a more physiological strain pattern in the collateral ligaments; therefore, it could potentially be beneficial to patients. Thus, the aim of this study was to measure collateral ligament strains during three motor tasks in the native knee and compare them with the strains noted after TKA in different post-operative alignment conditions., Methods: Six cadaver specimens (approval number ML4190 from the Research Ethics Committee of University of Leuven, Belgium) were examined using a validated knee kinematics rig under physiological loading conditions. The effect of coronal malalignment was evaluated by using custom-made tibial implant inserts that induced different alignment conditions. The study of six specimens allows us to show that a difference in the mean strains in MCL and LCL of 3.6 and 5.8 %, respectively, was statistically significant with a probability (power) of 0.8., Results: The results indicated that after TKA insertion, the strains in the collateral ligaments closely resembled the pre-operative pattern of the native knee specimens when constitutional alignment was restored. Restoration to neutral mechanical alignment was associated with greater collateral strain deviations from the native knee., Conclusion: Based upon this study, it was concluded that restoration of constitutional alignment within a "safe zone" of ±2° during TKA leads to more physiological peri-articular soft tissue strains during loaded as well as unloaded motor tasks.

Published
2015
Full Text
View/download PDF

18. UKA closely preserves natural knee kinematics in vitro.

Author

Heyse TJ, El-Zayat BF, De Corte R, Chevalier Y, Scheys L, Innocenti B, Fuchs-Winkelmann S, and Labey L

Subjects
Aged, Aged, 80 and over, Biomechanical Phenomena, Cadaver, Female, Femur physiology, Femur physiopathology, Humans, Knee Joint surgery, Male, Middle Aged, Range of Motion, Articular physiology, Rotation, Tibia physiology, Tibia physiopathology, Arthroplasty, Replacement, Knee methods, Knee physiopathology, Knee Joint physiopathology
Abstract

Purpose: It is assumed that unicondylar knee arthroplasty (UKA) features kinematics close to the natural knee. Clinical studies have also shown functional benefits for UKA. There is to date only little biomechanical data to support or explain these findings. The purpose of this study was to investigate whether UKA is able to preserve natural knee kinematics or not., Methods: Six fresh frozen full leg cadaver specimens were prepared to be mounted in a kinematic rig with six degrees of freedom for the knee joint. Three motion patterns were applied before and after medial UKA: 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 and calculations of anatomical rotations and translations., Results: Native kinematics was reproduced after UKA in all the specimens. In the unloaded knee and during open chain extension, femoral rollback patterns after UKA were very close to those in the native knee. During squatting, the medial femoral condyle after UKA tended to be more posterior and superior with flexion and there was less tibial internal rotation. The tibia was found to be more in valgus after UKA during all motion patterns., Conclusion: As ligaments, lateral compartment and patellofemoral anatomy are preserved with UKA; the unloaded knee closely resembles native kinematics. The slight kinematic changes that were found under load are probably due to loss of the conforming medial meniscus and to the mismatch in geometry and stiffness introduced by UKA. These patterns resemble those found in knees with significant loss of function of the medial meniscus.

Published
2014
Full Text
View/download PDF

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

Author

Heyse TJ, El-Zayat BF, De Corte R, Scheys L, Chevalier Y, Fuchs-Winkelmann S, and Labey L

Subjects
Biomechanical Phenomena, Cadaver, Humans, Knee Joint physiopathology, Arthroplasty, Replacement, Knee methods, Femur surgery, Knee Joint surgery, Osteoarthritis, Knee surgery, Patella surgery, Range of Motion, Articular physiology, Tibia 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., (© 2014 Elsevier B.V. All rights reserved.)

Published
2014
Full Text
View/download PDF

20. Stemmed TKA in a femur with a total hip arthroplasty: is there a safe distance between the stem tips?

Author

Soenen M, Baracchi M, De Corte R, Labey L, and Innocenti B

Subjects
Biomechanical Phenomena physiology, Computer Simulation, Femoral Fractures epidemiology, Femur physiology, Finite Element Analysis, Gait physiology, Humans, Prosthesis Design, Risk Factors, Stress, Physiological physiology, Arthroplasty, Replacement, Hip instrumentation, Arthroplasty, Replacement, Knee instrumentation, Femoral Fractures prevention & control, Femur surgery, Hip Prosthesis, Knee Prosthesis
Abstract

When a stemmed TKA is needed in a femur in which a THA is already present, choosing an appropriate length for the TKA stem is crucial. Many surgeons intuitively fear that the distance between the stem tips correlates with the femur risk for fracture (RF). However, to date, no biomechanical data to support this intuition are available. Therefore, in this study, the RF in such a configuration was determined and compared for several activities, using a finite element modeling technique. During gait and sideways falling no difference in RF among different stem lengths was shown. However, a clear threshold appears during four-point bending. Stem tip distances shorter than 110 mm dramatically increased RF and, in osteoporotic bone, will certainly lead to fracture (RF>1) and thus should be avoided., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published
2013
Full Text
View/download PDF

21. Collateral ligament strains during knee joint laxity evaluation before and after TKA.

Author

Delport H, Labey L, De Corte R, Innocenti B, Vander Sloten J, and Bellemans J

Subjects
Biomechanical Phenomena, Cadaver, Humans, Joint Instability etiology, Knee Joint physiopathology, Knee Joint surgery, Range of Motion, Articular, Stress, Mechanical, Arthroplasty, Replacement, Knee adverse effects, Arthroplasty, Replacement, Knee methods, Collateral Ligaments physiopathology, Joint Instability physiopathology, Joint Instability prevention & control
Abstract

Background: Passive knee stability is provided by the soft tissue envelope. There is consensus among orthopedic surgeons that good outcome in Total Knee Arthroplasty requires equal tension in the medial/lateral compartment of the knee joint, as well as equal tension in the flexion/extension gap. The purpose of this study was to quantify the ligament laxity in the normal non-arthritic knee before and after Posterior-Stabilized Total Knee Arthroplasty. We hypothesized that the Medial/Lateral Collateral Ligament shows minimal changes in length when measured directly by extensometers in the native human knee during varus/valgus laxity testing. We also hypothesized that due to differences in material properties and surface geometry, native laxity is difficult to reconstruct using a Posterior-Stabilized Total Knee., Methods: Six specimens were used to perform this in vitro cadaver test using extensometers to provide numerical values for laxity and varus-valgus tilting in the frontal plane., Findings: This study enabled a precise measurement of varus-valgus laxity as compared with the clinical assessment. The strains in both ligaments in the replaced knee were different from those in the native knee. Both ligaments were stretched in extension, in flexion the Medial Collateral Ligament tends to relax and the Lateral Collateral Ligament remains tight., Interpretation: As material properties and surface geometry of the replaced knee add stiffness to the joint, we recommend to avoid overstuffing the joint, when using this type of Posterior-Stabilized Total Knee Arthroplasty, in order to obtain varus/valgus laxity close to the native joint., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2013
Full Text
View/download PDF

22. Cementing the tibial component in total knee arthroplasty: which technique is the best?

Author

Vanlommel J, Luyckx JP, Labey L, Innocenti B, De Corte R, and Bellemans J

Subjects
Arthroplasty, Replacement, Knee methods, Equipment Failure Analysis, Humans, Models, Anatomic, Polymethyl Methacrylate, Prosthesis Design, Arthroplasty, Replacement, Knee instrumentation, Bone Cements, Cementation methods, Knee Prosthesis, Tibia
Abstract

Aseptic loosening of the tibial component remains a major cause of failure in total knee arthroplasty and may be related, directly or indirectly, to micromotion. Therefore, good fixation of the tibial component is a prerequisite to achieve long-term success of the implant. Cementing technique is one of the factors that play a role in this respect. We investigated the effect of different cementing techniques on the cement penetration in the proximal tibia. We compared 5 different cementing techniques in an anatomical open pore sawbone model (n = 25), using a contemporary total knee arthroplasty design and standard polymethylmetacrylate cement. We demonstrated that applying cement to both the undersurface of the tibial baseplate and as well as onto the tibial bone, either by a spatula or fingerpacking technique, leads to an optimal cement penetration of 3 to 5 mm. When cement is applied only onto the tibial component, penetration is insufficient. When a cement gun is used, cement penetration is too excessive., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2011
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results