Design Rationale
Design surgeon list Smith & Nephew thanks the following surgeons for their participation as part of the REDAPT Revision Acetabular System design team: Dr. Robert Bourne London, Ontario London Health Sciences, Univ. of Western Ontario Dr. Richard McCalden London, Ontario London Health Sciences, University of Western Ontario Dr. Andrew Shinar Nashville, TN Vanderbilt Orthopaedics Dr. Scott Marwin New York, NY NYU-Hospital Joint Diseases Dr. Steven Weeden Fort Worth, TX The Texas Hip & Knee Center Dr. Mathias Bostrom New York, NY Hospital for Special Surgery Dr. John Masonis Charlotte, NC OrthoCarolina Dr. James Waddell Toronto, Ontario University of Toronto, St. Michael s Hospital Dr. Craig Della Valle Chicago, IL Midwest Orthopaedics at RUSH Mr. Stephen Jones Cardiff, UK Univ. Hosp. of Wales and Univ. Hosp. Llandough Dr. David Campbell Adelaide, South Australia Wakefileld Ortho. Clinic Prof. Christian Götze Bad Oeynhausen, Germany Auguste-Viktoria-Klinik
REDAPT Fully Porous Revision Shell Our pioneering approach to the design of our products is vividly displayed through the REDAPT Fully Porous Cup, developed for use in revision cases where compromised bone makes implant fixation and stability more difficult. To allow ingrowth, an additive, or 3D, manufacturing process is used to produce an entirely porous implant that is intended to mimic the structure of cancellous bone. Additionally, new variable-angle locking screws can be used to enhance implant stability and minimize micromotion after surgery. Please utilize the QR Code here to view the Additive Manufacturing Video. CONCELOC Advanced Porous Titanium Material composition: Titanium Alloy CONCELOC is made from Ti-6Al-4V and meets the ASTM and ISO standards for that alloy, which has been shown to be biocompatible and has a good clinical history with over 40 years of use in medical devices.¹ Porosity: Up to 80% CONCELOC Advanced Porous Titanium has an interconnected network of pores with a porosity of up to 80% in the near-surface regions, where the initial fixation will occur and an overall porosity of up to about 67%.² These porosities are similar to the wide range of 60-80% porosity reported for other advanced porous structures currently on the market.³ - Pore size: 202μm to 934μm The literature suggests that pore sizes greater, CONCELOC Advanced Porous Titanium has an average pore size that ranges from 202 to 342m overall and from 484 to 934μm at the surfaces of the porous structure.², CONCELOC at 25x magnification CONCELOC at 80x magnification
Stability Variable angle locking screws For bone ingrowth to occur, it is critical that implants remain stable. It has been reported that as little as 150 microns of motion can interrupt the process of bone ingrowth.¹¹ Screws have historically been used as a means to provide adjunctive fixation. The introduction of REDAPT Variable Angle Locking Screws gives the surgeon the option to further enhance the rigidity of the construct. Our internal testing has shown that REDAPT Variable Angle Locking Screws create a construct with greater than 7x the rigidity of a construct using non-locking screws.¹² Increased stiffness in static bending compared to non-locking screws 1000 800 600 400 200 * 741 * 936 6.5mm cancellous thread Lengths: 15mm 50mm 0 94.7 Non-Locking Screws Locking Screws at 35in-lbf Locking Screws at 50in-lbf Bending stiffness data for locking and non-locking screws. REDAPT *Represents significant difference from non-locking screws. High friction surface The high friction surface of the CONCELOC Advanced Porous Titanium is designed to aid in achieving the initial stability needed to hold the implant in place upon insertion. Topographically mapped bumps on all bone-interfacing surfaces Three dimensional model before and after application of friction bumps. Patented design feature Benefit of additive manufacturing
Adaptability Optimized screw hole pattern 12-hole pattern Designed to reduce the risk of drill through 9-hole pattern Cemented liners Multiple size options Self aligning flange built into rim Uniform 1.5mm cement mantle Neutral liner Reproducibility Solid reinforcement features Solid reinforcement features internalized Balances demand between solid support features and porous ingrowth surfaces High-demand areas bolstered for added strength Threaded Apex Hole Designed to simplify technique through compatibility with standard shell impactor instrumentation Designed to enhance visualization Consistent joint stability assessment using available screw-in trial liners
Implant overview REDAPT Fully Porous Shell 48mm 80mm Cemented XLPE Liners 28mm 32mm 36mm 40mm 48mm 50mm 52mm 54mm 56mm 58mm 60mm 62mm 64mm 66-68mm 70-74mm 76-80mm 0 0 0 0 0 Cemented XLPE liner Locking Screws 15 50mm Porous Cup Hole Cover REDAPT Hole Cover Kit REDAPT Hole Cover
Notes:
References: 1. D.F. Williams, Titanium and Titanium Alloys, in Biocompatibility of Clinical Implant Materials, D. F. Williams, Eds., Boca Raton, FL: CRC Press, Inc., 1981. 2. Smith & Nephew Research report. OR-14-091A. 3. J.E. Minter, K. Rivard and B. Aboud, "Characterization of a new rougher porous coating for revision reconstructive surgery," Orthop Res Soc, San Francisco, CA, Mar 2-5, 2008, 1870. 5. H. Liu, "Porous metal foam structures and methods," USA Patent 2008/0199720, 2008. 6. "Tritanium primary acetabular shells," Stryker, 2008, SODTR-SS. 7. D. Scholvin, D. Linton and J. Moseley, "Bonding of titanium foam to cobalt chrome substrates," Orthop Res Soc, San Antonio, TX, Jan 26-29, 2013, 0459. 8. J.D. Bobyn, R.M. Pilliar, H.U. Cameron and G.C. Weatherly, "The optimum pore size for the fixation of porous-surfaced metal implants by the ingrowth of bone," Clin 10. Smith & Nephew Research report. OR-15-119. 11. R.M. Pilliar, J.M. Lee and C. Maniatopoulos, "Observations on the effect of movement on bone ingrowth into porous-surfaced implants," Clin Orthop Relat Res, 1986;208:108-113. 12. Smith & Nephew Research report. TM-15-043. Supporting healthcare professionals for over 150 years Smith & Nephew, Inc. 7135 Goodlett Farms Parkway Cordova, TN 38016 USA www.smith-nephew.com Telephone: 1-901-396-2121 Information: 1-800-821-5700 Orders and Inquiries: 1-800-238-7538 Trademark of Smith & Nephew. 2016 Smith & Nephew, Inc. All rights reserved. 06331 V1 09/16