Smith+Nephew raises the bar in knee revisions by launching new LEGION™ Hinged Knee System with OXINIUM™ Technology
02 Outubro 2024 - 9:00AM
Smith+Nephew (LSE:SN, NYSE:SNN), the global medical technology
company announced today that its LEGION Hinged Knee (HK) System is
now available in the United States with proprietary OXINIUM
(Oxidized Zirconium) implant technology that delivers the
durability of metals, the wear resistance of ceramics, and
corrosion resistance better than both.1-11 Part of the LEGION Total
Knee (TK) System, the LEGION HK System is designed to provide a
natural range of motion with medial pivot, lateral roll back, and
screw home. Since 2011, the LEGION HK System has enabled surgeons
to transition intraoperatively from a constrained revision knee
implant to a CoCr-hinged assembly.
The award winning OXINIUM Technology12 has demonstrated lower
inflammatory response,*6,7 superior wear resistance and reduced
surface damage,+3,4 and fewer signs of corrosion damage+9,13
compared to cobalt chrome, ultimately helping to mitigate common
risk factors associated with revision procedures.14,15 LEGION
revision with proprietary OXINIUM Technology has established itself
as the best performing bearing with the lowest risk of re-revision
compared to the class average.13,16
Dr. Kevin Hardt, MD, at Northwestern Memorial Hospital System
shares, “The LEGION HK System with OXINIUM Technology allows me to
achieve a stable reconstruction in the coronal and sagittal planes
despite my patient's multiple previous surgeries and ligamentous,
capsular deficiency. The innovative, posteriorly located,
rotational axis with the LEGION HK System provides an extension
moment to augment quad function. In addition, the instrumentation
is straightforward and compliments my normal revision
workflow.”
“Our proprietary OXINIUM Technology is ideal for revisions.
Building on the proven performance of our LEGION HK System, our
latest innovation allows Smith+Nephew to raise the bar in knee
surgery, delivering the most advanced material technology for
patients requiring a complex knee revision,” said Craig Gaffin,
President of Global Orthopaedics at Smith+Nephew. “It demonstrates
our commitment of Life Unlimited for patients requiring complex
knee procedures by providing solutions that address the risk
factors commonly associated with this type of surgery.” To learn
more about the LEGION HK System with OXINIUM, please visit
https://www.oxinium.com/ideal-for-revisions.
- ends –
Enquiries Media Dave Snyder
+1 (978)
749-1440 Smith+Nephew
david.snyder@smith-nephew.com
References
- Hunter G, Dickinson J, Herb B, et al. Creation of oxidized
zirconium orthopaedic implants. Journal of ASTM International.
2005;2:1-14.
- Long M, Riester L, Hunter G. Nano-hardness Measurements of
Oxidized Zr-2.5Nb and Various Orthopaedic Materials. Abstract
presented at: 24th Annual Meeting of the Society for Biomaterials.
April 22-26, 1998, San Diego, California.
- Parikh A, Hill P, Pawar V, Sprague J. Long-term Simulator Wear
Performance of an Advanced Bearing Technology for THA. Poster
presented at: 2013 Annual Meeting of the Orthopaedic Research
Society. Poster no. 1028.
- Papannagari R, Hines G, Sprague J, Morrison M. Long-term wear
performance of an advanced bearing technology for TKA. Poster
presented at: 2011 Annual Meeting of the Orthopaedic Research
Society. Poster no. 1141.
- Smith+Nephew 2010. OR-10-155.
- Dalal A, Pawar V, McAllister K, Weaver C, Hallab NJ. Orthopedic
implant cobalt-alloy particles produce greater toxicity and
inflammatory cytokines than titanium alloy and zirconium
alloy-based particles in vitro, in human osteoblasts, fibroblasts,
and macrophages. J Biomed Mater Res Part A.
2012;100A:2147-2158.
- Hallab NJ, McAllister H, Jacobs JJ, Pawar V. Zirconium-alloy
and zirconium-oxide particles produce less toxicity and
inflammatory cytokines than cobalt-alloy and titanium-alloy
particles in vitro, in human osteoblasts, fibroblasts and
macrophages. Annual Meeting of the Orthopaedic Research Society
(ORS), 2012. San Francisco, CA.
- Aldinger P, Williams T, Woodard E. Accelerated Fretting
Corrosion Testing of Zirconia Toughened Alumina Composite Ceramic
and a New Composition of Ceramicised Metal Femoral Heads. Poster
presented at: 2017 Annual Meeting of the Orthopaedic Research
Society. Poster no. 1037.
- Smith+Nephew 2016. OR-16-127.
- ASTM International Standard Specification for Wrought
Zirconium-2.5 Niobium Alloy for Surgical Implant Applications (UNS
R60901) Designation: F 2384 – 10.
- Patrick C, Delhougne G, Patel A. Retrospective Analysis of
Oxidized Zirconium Bearing Surface in Hip Replacement 90-Day
Episode Claims. ISPOR EU Poster, 2019.
- 2005 ASM International Engineering Materials Achievement
Award.
- Cartner J, Aldinger P, Newman M. Characterization of tapers in
TKA revisions from a 16-year retrieval database. Poster presented
at: Orthopaedic Research Society Annual Meeting; 2016; Orlando,
FL.
- Agarwal S, Kabariti R, Kakar R, Lopez D, Morgan-Jones R. Why
are revision knee replacements failing? The Knee.
2019;26:774-778.
- Yu S, Bolz N, Buza J, et al. Rerevision Total Knee
Arthroplasty: Epidemiology and Factors Associated with Outcomes.
Orthopaedic Proceedings. 2018;99-B:Supplement 6. Available at:
https://online.boneandjoint.org.uk/doi/abs/10.1302/1358992X.99BSUPP_6.ISTA2016-117.
- National Joint Registry for England, Wales and Northern
Ireland: LEGION revision OXINIUM (with revision tibial) implant
summary report 15 August 2024. Report available upon request.
*The results of in vitro cytokine expression analyses have not
been proven to quantitatively predict clinical cytokine
expression.
+The results of in vitro wear simulation testing have not been
proven to quantitatively predict clinical wear performance.
Products featured may not be available in individual markets due
to regulatory and/or medical practices. Please contact your
Smith+Nephew representative if you have questions about
availability of Smith+Nephew products in your area.
About Smith+Nephew
Smith+Nephew is a portfolio medical technology business focused
on the repair, regeneration and replacement of soft and hard
tissue. We exist to restore people’s bodies and their self-belief
by using technology to take the limits off living. We call this
purpose ‘Life Unlimited’. Our 18,000 employees deliver this mission
every day, making a difference to patients’ lives through the
excellence of our product portfolio, and the invention and
application of new technologies across our three global
business units of Orthopaedics, Sports Medicine & ENT and
Advanced Wound Management.
Founded in Hull, UK, in 1856, we now operate in more than 100
countries, and generated annual sales of $5.5 billion in 2023.
Smith+Nephew is a constituent of the FTSE100 (LSE:SN, NYSE:SNN).
The terms ‘Group’ and ‘Smith+Nephew’ are used to refer to Smith
& Nephew plc and its consolidated subsidiaries, unless the
context requires otherwise.
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