Physiologic kinematics as a concept for better flexion in TKA.
about
In vivo kinematics after a cruciate-substituting TKA.High-flexion total knee arthroplasty: a systematic review.Total knee arthroplasty designed to accommodate the presence or absence of the posterior cruciate ligamentConsecutive series of 226 journey bicruciate substituting total knee replacements: early complication and revision rates.Short-term functional versus patient-reported outcome of the bicruciate stabilized total knee arthroplasty: prospective consecutive case seriesDistal femoral condyle is more internally rotated to the patellar tendon at 90° of flexion in normal knees.FEMORAL ROLL BACK IN TOTAL KNEE ARTHROPLASTY: COMPARISON BETWEEN PROSTHESES THAT PRESERVE AND SACRIFICE THE POSTERIOR CRUCIATE LIGAMENT.Patient-reported outcome correlates with knee function after a single-design mobile-bearing TKA.Kinematic analysis of anterior cruciate ligament reconstruction in total knee arthroplastyPlain radiographs underestimate the asymmetry of the posterior condylar offset of the knee compared with MRIBi-cruciate substituting total knee arthroplasty improved medio-lateral instability in mid-flexion range.Kinematic behaviour and soft tissue management in guided motion total knee replacement.Bicruciate substituting total knee replacement: how effective are the added kinematic constraints in vivo?In vivo kinematics of knee replacement during daily living activities: Condylar and post-cam contact assessment by three-dimensional fluoroscopy and finite element analyses.Constraints in posterior-stabilised TKA kinematics: a comparison of two generations of an implant.Tibiofemoral forces for the native and post-arthroplasty knee: relationship to maximal laxity through a functional arc of motion.Gait Analysis of Conventional Total Knee Arthroplasty and Bicruciate Stabilized Total Knee Arthroplasty Using a Triaxial Accelerometer.Optimisation of the posterior stabilised tibial post for greater femoral rollback after total knee arthroplasty--a finite element analysisJoint line level in revision total knee replacement: assessment and functional results with an average of seven years follow-up.Is there a relationship between the load distribution on the tibial plateau and hip knee ankle angle after TKA?Kinematic analysis of stair climbing in rotating platform cruciate-retaining and posterior-stabilized mobile-bearing total knee arthroplasties.Influence of increasing construct constraint in the presence of posterolateral deficiency at knee replacement: A biomechanical study.Effect of tibial slope changes on femorotibial contact kinematics after cruciate-retaining total knee arthroplasty.Short-term safety and effectiveness of a second-generation motion-guided total knee system.In-vivo knee kinematics in rotationally unconstrained total knee arthroplastyIndividualized alignment in total knee arthroplasty using image-based robotic assistance : Video article
P2860
Q30492998-40EC78A5-3AE6-4CF0-905D-4A4433CFA2A9Q33969952-9D3BDCE4-2B59-438F-903C-AB5C2BA766C4Q34390746-BD644039-8795-41C3-80AF-91736679A226Q34897077-034CFA95-6E7F-4C76-9381-013D5C7F83B7Q34991723-DC979329-ECB1-42EE-B3F4-D0636D3E4C94Q35541362-A07D1A51-3187-4E50-A626-03F983DEAF9AQ36704676-D5810225-A4EB-4138-9BEE-FD414BA7C25FQ36931411-B8A76D93-CB7E-44C6-AFBF-D143E61AD874Q36964164-29F8DBFF-072B-432E-8FF2-3ABD1CA21314Q37469067-CF6C37C7-A748-4819-8147-12C9CF1189E3Q38558418-82F63622-7B8F-40AA-AB07-B3A9446A4383Q38563968-F0ABC688-1E53-4CB9-B216-C63EF03B88D2Q38568078-8DCAC7C3-C0B9-4E88-B529-810C56880F7DQ39443217-890B5476-A943-4FF9-B725-38E514FB0E62Q39539157-8427B7F8-36C7-4F3E-B3B5-ABFD046B8CDFQ39872976-2D316C43-1867-4A83-B184-9060B90AF9D9Q41038438-7F534BB0-B192-4B49-A891-DE9B1374718EQ42066597-6A20C942-08AF-4703-AEA8-6778EBD45911Q48267018-E5F20DFF-B3ED-4D01-9713-EDBC26300ECEQ50098003-E6960FE8-DF32-4FFA-87ED-AC23717CECD3Q50960763-BD6F060B-A4CC-4157-A9E5-A220F5739783Q51811612-CF1ABB94-B596-4DF1-93B4-CDB99CAD0C9BQ53548992-421F1398-C951-4D4B-8B65-95DCAEF7834CQ55286952-70FF7AD2-73FB-41FA-993A-9089DD0295BFQ56984370-B6CFEDCA-2584-45D3-831B-ABBB22D488E0Q58738251-411707A7-E10D-45A4-A40B-BC131CB6AACD
P2860
Physiologic kinematics as a concept for better flexion in TKA.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Physiologic kinematics as a concept for better flexion in TKA.
@ast
Physiologic kinematics as a concept for better flexion in TKA.
@en
type
label
Physiologic kinematics as a concept for better flexion in TKA.
@ast
Physiologic kinematics as a concept for better flexion in TKA.
@en
prefLabel
Physiologic kinematics as a concept for better flexion in TKA.
@ast
Physiologic kinematics as a concept for better flexion in TKA.
@en
P1476
Physiologic kinematics as a concept for better flexion in TKA.
@en
P2093
Jan Victor
Johan Bellemans
P356
10.1097/01.BLO.0000238792.36725.1E
P407
P577
2006-11-01T00:00:00Z