Review
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Modular dual mobility (MDM) hip systems: Is there a risk of fretting corrosion?
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ROCKTITE Brochure: Is Your Fixation ROCKTITE?
REDAPT is a 3° tapered titanium stem with proprietary ROCKTITE distal flutes designed for stable diaphyseal fixation through major and minor splines.
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REDAPT Revision Femoral System Demonstrates Stable Fixation
A multicentre, retrospective study investigating short-term outcomes in 153 consecutive patients receiving REDAPT Revision Femoral System
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REDAPT Revision Femoral System Demonstrates Favourable Outcomes
The READAPT Femoral Revision System demonstrates favourable early clinical, radiological and patient-reported outcomes in revision total hip arthroplasty (rTHA).
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REDAPT Revision Femoral System Decreases the Incidence of Subsidence
Retrospective, observational study comparing rates of subsidence >5mm in modular versus non-modular tapered, f luted, titanium (TFT) stems
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REDAPT Revision Femoral Stem Subsidence Evidence
READAPT Revision Femoral Stem -- stable fixation with low subsidence at 1 year.
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REDAPT Revision Femoral Monolithic Surgical Technique
The technique description herein is made available to the healthcare professional to illustrate the suggested treatment for the uncomplicated procedure. In the final analysis, the preferred treatment is that which addresses the needs of the patient.
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REDAPT Revision Femoral Competitive Matrix
READAPT Revision Femoral System competitive matrix
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REDAPT Revision Acetabular Stiffness Comparison
Stiffness comparison of REDAPT Locking Screws and non-locking screws utilized with the REDAPT variable angle locking feature
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REDAPT Revision Acetabular Shell Surgical Technique
This surgical technique is for informational and educational purposes only
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REDAPT Revision Acetabular Design Rationale
The revision shells are developed for use in revision cases where compromised bone makes implant fixation and stability more difficult.
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REDAPT Revision Acetabular Augment Design Rationale
The REDAPT Acetabular Augments are developed for use in revision total hip arthroplasty cases where bone voids exist that may not be able to be addressed solely through placement of an acetabular shell.
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REDAPT Modular Shell Surgical Technique
The technique description herein is made available to the healthcare professional to illustrate the manufacturer’s suggested treatment for the uncomplicated procedure.
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REDAPT Fully Porous Shell with Polarcup
Instability after primary and revision total hip arthroplasty (THA) is a leading cause for revision.
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REDAPT CONCELOC Pre-Clinical Animal Study
Osseointegration of the CONCELOC Advanced Porous Titanium was assessed in a previously validated, load-bearing ovine model.
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REDAPT Blade Augment: Static and Fatigue Strength Testing
Buttress-type augments have successfully been used as part of acetabular revision surgery to prevent shell migration in severe acetabular defects (Paprosky Type IIIA/IIIB) with good short to mid-term outcomes.
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REDAPT Acetabular Augment Surgical Technique
The technique is for informational and educational purposes only
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A single centre, multi-surgeon, retrospective observational study on patients who underwent primary or revision THA with the uncemented R3 Acetabular System between January 2009 and December 2012 with a minimum of 7 years follow-up.
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Comparison of the corrosion and fretting performance of CoCrMo and DH-OXINIUM (97.5% zirconium [Zr], 2.5% niobium [Nb]) modular acetabular liners (n=3 each), interfaced with a Ti-6Al-4V acetabular shell, using a newly developed in vitro test method.
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As the number of cases and the age of patients broadens, orthopaedic applications demand a high performance implant material that can deliver proven clinical performance in hip and knee arthroplasty
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Smith + Nephew OR3O™ Dual Mobility with OXINIUM™ DH Liner Technology
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REDAPT Acetabular is lateralized at the base 4mm. By switching from R3 to REDAPT, your surgeon gains 2mm of offset.
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OR3O Dual Mobility with OXINIUM DH Linear Technology Tray Layout Guide and Ordering Information
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Modular Dual Mobility and Corrosion
Dual mobility (DM) acetabular components have been designed to deliver increased range of motion with good stability, whilst reducing wear in primary and revision total hip arthroplasty (THA) compared to standard implant designs.
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Dual mobility (DM) bearings are cost effective in patients aged <75 years undergoing revision total hip arthroplasty (rTHA) over an initial 5 year period, and cost saving from 10 years compared with conventional bearings
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CONCELOC Material Specifications
Through our pioneering approach to design, Smith & Nephew engineers have developed a patented method for creating a fully randomized porous structure with predictable porosity, pore size and node interconnectivity.
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Malseated liners may have a higher propensity for micromotion and corrosion leading to increased wear and osteolysis.
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Although standard porous coatings such as beads or fiber mesh have demonstrated clinical success, advanced porous structures can provide enhanced friction and biological fixation that could be beneficial in more challenging cases
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2-Year Retrospective Study of OR3O
The OR3O Dual Mobility System is a new modular system designed for use in patients at risk of instability following THA, available from January 2020 in the US
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Computer-guided THA is associated with reduced risk of revision and increased patient satisfaction compared to conventional THA in the National Joint Registry (NJR) of England, Wales and Northern Ireland
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RI.HIP Navigation: Collection of Evidence
THA is recognised as a highly successful operation, with a high survivorship at 15 years. The world's largest registry - the National Joint Registry (NJR) of England, Wales and Northern Ireland - reports.
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R3 Acetabular System with OXINIUM Technology: Optimized XLPE Liner Offering Chart
R3 Optimized XLPE Liners
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There are several reasons why OXINIUM Technology provides benefits beyond traditional cobalt chrome (CoCr) hip and knee components.
