Dr Salvador Octavio Ramírez Valdivia

Dr Salvador Octavio Ramírez Valdivia
Cirugía de Rescate Articular en Tumores óseos Rodilla y Hombro por Artrocopia

sábado, 28 de marzo de 2015

International comparative evaluation of knee replacement with fixed or mobile-bearing posterior-stabilized prostheses

Fuente
Este artículo es originalmente publicado en:
http://www.ncbi.nlm.nih.gov/pubmed/25520420
http://jbjs.org/content/96/Supplement_1/59.long
De:
Graves S1Sedrakyan A2Baste V3Gioe TJ4Namba R5Martínez Cruz O6Stea S7Paxton E8Banerjee S2Isaacs AJ2Robertsson O9.
 2014 Dec 17;96 Suppl 1:59-64. doi: 10.2106/JBJS.N.00556.
Todos los derechos reservados para:
Copyright © 2015. All Rights Reserved The Journal of Bone and Joint Surgery, Inc.
STRIATUS Orthopaedic Communications

Abstract

BACKGROUND:

Posterior-stabilized total knee prostheses were introduced to address instability secondary to loss of posterior cruciate ligament function, and they have either fixed or mobile bearings. Mobile bearings were developed to improve the function and longevity of total knee prostheses. In this study, the International Consortium of Orthopaedic Registries used a distributed health data network to study a large cohort of posterior-stabilized prostheses to determine if the outcome of a posterior-stabilized total knee prosthesis differs depending on whether it has a fixed or mobile-bearing design.

METHODS:

Aggregated registry data were collected with a distributed health data network that was developed by the International Consortium of Orthopaedic Registries to reduce barriers to participation (e.g., security, proprietary, legal, and privacy issues) that have the potential to occur with the alternate centralized data warehouse approach. A distributed health data network is a decentralized model that allows secure storage and analysis of data from different registries. Each registry provided data on mobile and fixed-bearing posterior-stabilized prostheses implanted between 2001 and 2010. Only prostheses associated with primary total knee arthroplasties performed for the treatment of osteoarthritis were included. Prostheses with all types of fixation were included except for those with the rarely used reverse hybrid (cementless tibial and cemented femoral components) fixation. The use of patellar resurfacing was reported. The outcome of interest was time to first revision (for any reason). Multivariate meta-analysis was performed with linear mixed models with survival probability as the unit of analysis.

RESULTS:

This study includes 137,616 posterior-stabilized knee prostheses; 62% were in female patients, and 17.6% had a mobile bearing. The results of the fixed-effects model indicate that in the first year the mobile-bearing posterior-stabilized prostheses had a significantly higher hazard ratio (1.86) than did the fixed-bearing posterior-stabilized prostheses (95% confidence interval, 1.28 to 2.7; p = 0.001). For all other time intervals, the mobile-bearing posterior-stabilized prostheses had higher hazard ratios; however, these differences were not significant.

CONCLUSIONS:

Mobile-bearing posterior-stabilized prostheses had an increased rate of revision compared with fixed-bearing posterior-stabilized prostheses. This difference was evident in the first year.
Copyright © 2014 by The Journal of Bone and Joint Surgery, Incorporated.
PMID:
 
25520420
 
[PubMed - indexed for MEDLINE] 
PMCID:
 
PMC4271421
 [Available on 2015-12-17]

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