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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™ 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™ Revision Femoral System Decreases the Incidence of Subsidence
This retrospective, observational study compares rates of subsidence >5mm in modular versus non-modular tapered, fluted, titanium (TFT) stems.
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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 Stem Subsidence Evidence
READAPT™ Revision Femoral Stem -- stable fixation with low subsidence at 1 year.
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REDAPT™ Revision Femoral System Demonstrates Stable Fixation
This is a multicentre, retrospective study investigating short-term outcomes in 153 consecutive patients receiving REDAPT™ Revision Femoral System.
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REDAPT™ Revision Acetabular Stiffness Comparison
This document explores the stiffness comparison of REDAPT™ Locking Screws and non-locking screws utilized with the REDAPT™ variable angle locking feature.
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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™ Revision Acetabular Shell Surgical Technique
This document highlights the surgical technique when using the Redapt™ Revision Acetabular Shell.
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REDAPT™ Acetabular Augment Surgical Technique
This document presents the surgical technique when using the Redapt™ Revision Acetabular System.
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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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Biologic Fixation of Additive Manufactured CONCELOC™ Advanced Porous Titanium in a Load-Bearing Animal Model
The REDAPT™ Fully Porous Shell is fabricated through additive manufacturing, which permits greater design flexibility compared to standard, subtractive manufacturing (i.e., machining).