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Smith+Nephew Raises the Bar in Knee Revisions by Launching New LEGION Hinged Knee System With OXINIUM Technology

Smith+Nephew Raises the Bar in Knee Revisions by Launching New LEGION Hinged Knee System With OXINIUM Technology

史密夫&尼福通過推出配備OXINIUm 科技的新LEGION 鉸鏈式膝關節系統,在膝關節修復領域再上新高度。
GlobeNewswire ·  10/02 20:00

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.

全球醫療科技公司Smith+Nephew(倫敦證券交易所:SN,紐約證券交易所:SNN)今天宣佈,其LEGION鉸接膝(HK)系統現在可以在美國使用,具備專有的OXINIUm(氧化鋯)植入技術,提供金屬的耐久性、陶瓷的耐磨性,以及優於兩者的抗腐蝕性能。1-11
作爲LEGION全膝(TK)系統的一部分,LEGION Hk系統旨在提供自然的運動範圍,具有內側旋轉支點、外側回滾和螺紋鎖定。自2011年以來,LEGION Hk系統使外科醫生能夠在術中從受限制的修復膝關節植入物過渡到CoCr鉸鏈組件。

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

屢獲殊榮的OXINIUm技術12已經證明比鈷鉻具有更低的炎症反應,*6,7更優質的耐磨性和減少表面損傷,+3,4以及比鈷鉻顯示更少的腐蝕損傷+9,13,最終有助於減輕與修復手術相關的常見風險因素。14,15具有專有OXINIUm技術的LEGION修復產品已經確立了作爲最佳性能軸承,與同類產品相比重新修復的風險最低。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."

西北紀念醫院系統的Kevin Hardt醫生(MD)表示:「具有OXINIUm技術的LEGION Hk系統使我能夠在冠狀面和矢狀面實現穩定的重建,儘管我的患者曾接受過多次前期手術且韌帶、關節囊存在缺陷。LEGION Hk系統具有創新的、後方位置的旋轉軸,可爲四頭肌功能增加延伸力矩。此外,器械操作簡單,與我的常規修復工作流程相輔相成。」

"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 .

Smith+Nephew全球骨科總裁Craig Gaffin表示:「我們的專有OXINIUm技術非常適用於修復手術。借鑑LEGION Hk系統已經驗證的性能,我們最新的創新使Smith+Nephew得以在膝關節手術領域樹立新標杆,爲需要進行復雜膝關節修復的患者提供最先進的材料技術。它展示了我們致力於幫助需要進行復雜膝關節手術的患者實現無限可能,爲此類型手術常見風險因素提供解決方案的承諾。」
要了解有關帶有OXINIUm的LEGION Hk系統的更多信息,請訪問 .

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- 結束 -

Enquiries
Media
Dave Snyder +1 (978) 749-1440
Smith+Nephew david.snyder@smith-nephew.com

諮詢
媒體
Dave Snyder +1 (978) 749-1440
Smith+Nephewdavid.snyder@smith-nephew.com

References

參考

  1. Hunter G, Dickinson J, Herb B, et al. Creation of oxidized zirconium orthopaedic implants. Journal of ASTM International. 2005;2:1-14.
  2. 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.
  3. 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.
  4. 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.
  5. Smith+Nephew 2010. OR-10-155.
  6. 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.
  7. 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.
  8. 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.
  9. Smith+Nephew 2016. OR-16-127.
  10. ASTM International Standard Specification for Wrought Zirconium-2.5 Niobium Alloy for Surgical Implant Applications (UNS R60901) Designation: F 2384 – 10.
  11. Patrick C, Delhougne G, Patel A. Retrospective Analysis of Oxidized Zirconium Bearing Surface in Hip Replacement 90-Day Episode Claims. ISPOR EU Poster, 2019.
  12. 2005 ASM International Engineering Materials Achievement Award.
  13. 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.
  14. Agarwal S, Kabariti R, Kakar R, Lopez D, Morgan-Jones R. Why are revision knee replacements failing? The Knee. 2019;26:774-778.
  15. 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: .
  16. 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.
  1. Hunter G, Dickinson J, Herb b等。氧化鋯骨科植入物的製備。ASTm國際雜誌。2005;2:1-14。
  2. Long m, Riester L, Hunter G。氧化鋯-2.5Nb和各種骨科材料的納米硬度測量。摘要發表在:生物材料學會第24屆年會。1998年4月22日-26日,加利福尼亞州聖地亞哥。
  3. Parikh A, Hill P, Pawar V, Sprague J。一種用於THA的先進軸承技術的長期模擬磨損性能。海報發表在:2013年度骨科研究學會年會。海報編號1028。
  4. Papannagari R,Hines G,Sprague J,Morrison m。長期佩戴績效高級軸承科技爲TKA。海報在:2011年度整形外科研究學會年會上展示。海報號碼1141。
  5. Smith+Nephew 2010。OR-10-155。
  6. Dalal A,Pawar V,McAllister k,Weaver C,Hallab NJ。在體外,正畸植入的鈷合金顆粒產生比鈦合金和鋯合金顆粒更大的毒性和炎症細胞因子,對人類成骨細胞、成纖維細胞和巨噬細胞。J生物醫學材料研究A部分。2012年;100A:2147-2158。
  7. Hallab NJ,McAllister H,Jacobs JJ,Pawar V。在體外,鋯合金和氧化鋯顆粒產生比鈷合金和鈦合金顆粒更少的毒性和炎症細胞因子,對人類成骨細胞、成纖維細胞和巨噬細胞。整形外科研究學會(ORS)年會,2012年。加利福尼亞州舊金山。
  8. Aldinger P,Williams t,Woodard E。鋯 Tough Alumina複合陶瓷和一種新的陶瓷化金屬股骨頭的加速微動腐蝕測試。海報在:2017年度整形外科研究學會年會上展示。海報號碼1037。
  9. Smith+Nephew 2016。OR-16-127。
  10. ASTm國際標準規範爲外科植入應用(UNS R60901)命名:F 2384 – 10,鋯2.5鈮合金軋製。
  11. Patrick C,Delhougne G,Patel A。氧化鋯軸承表面在髖關節置換90天Episode索賠的回顧性分析。ISPOR EU海報,2019。
  12. 2005年ASM國際工程材料成就獎。
  13. Cartner J, Aldinger P, Newman m. 從16年的檢索數據庫中對TKA修復中的錐形進行表徵。 海報在:整形外科研究協會年會上展示;2016年;佛羅里達州奧蘭多。
  14. Agarwal S, Kabariti R, Kakar R, Lopez D, Morgan-Jones R. 爲什麼複查膝關節置換手術失敗? 《膝關節》。 2019;26:774-778。
  15. Yu S, Bolz N, Buza J, 等。 複查全膝關節置換術:流行病學和與結果相關的因素。 《整形外科進程》。 2018;99-B:第6特刊。 可查閱: .
  16. 英格蘭、威爾士和北愛爾蘭國家關節登記處:LEGION修復OXINIUm(含修復脛骨)植入物摘要報告2024年8月15日。 報告可根據要求提供。

*The results of in vitro cytokine expression analyses have not been proven to quantitatively predict clinical cytokine expression.

*體外細胞因子表達分析的結果尚未被證明能定量預測臨床細胞因子表達。

+The results of in vitro wear simulation testing have not been proven to quantitatively predict clinical wear performance.

體外磨損模擬測試結果並未被證明能夠定量預測臨床磨損性能。

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.

因監管和/或醫療實踐原因,特色產品可能無法在個別市場上獲得。如果您對Smith+Nephew產品在您所在地區的可用性有疑問,請聯繫您的Smith+Nephew代表。

About Smith+Nephew

關於史密斯和內修

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.

史密斯和內修是一個投資組合醫療技術企業,專注於軟和硬組織的修復、再生和替換。我們的存在旨在通過使用技術消除生活的限制,恢復人們的身體和自信心。我們稱這個目的爲「無限生活」。我們的18000名員工每天執行着這個任務,通過我們產品組合的卓越性,以及在我們的三個全球業務板塊——骨科、運動醫學與耳鼻喉科以及先進創傷管理中發明和應用新技術,改變着病患的生命。

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.

成立於1856年於英國赫爾,如今我們在100多個國家和地區開展業務,2023年的年銷售額達55億美元。史密斯和內修是富時100指數的成分股(LSE:SN, NYSE:SNN)。「集團」和「史密斯和內修」一詞,除非上下文另有說明,否則均指Smith & Nephew plc及其合併子公司。

For more information about Smith+Nephew, please visit and follow us on X, LinkedIn, Instagram or Facebook.

欲了解更多史密斯和內修的信息,請訪問並關注我們X, LinkedIn, Instagram或。Facebook.

Forward-looking Statements
This document may contain forward-looking statements that may or may not prove accurate. For example, statements regarding expected revenue growth and trading profit margins, market trends and our product pipeline are forward-looking statements. Phrases such as "aim", "plan", "intend", "anticipate", "well-placed", "believe", "estimate", "expect", "target", "consider" and similar expressions are generally intended to identify forward-looking statements. Forward-looking statements involve known and unknown risks, uncertainties and other important factors that could cause actual results to differ materially from what is expressed or implied by the statements. For Smith+Nephew, these factors include: conflicts in Europe and the Middle East, economic and financial conditions in the markets we serve, especially those affecting healthcare providers, payers and customers; price levels for established and innovative medical devices; developments in medical technology; regulatory approvals, reimbursement decisions or other government actions; product defects or recalls or other problems with quality management systems or failure to comply with related regulations; litigation relating to patent or other claims; legal and financial compliance risks and related investigative, remedial or enforcement actions; disruption to our supply chain or operations or those of our suppliers; competition for qualified personnel; strategic actions, including acquisitions and disposals, our success in performing due diligence, valuing and integrating acquired businesses; disruption that may result from transactions or other changes we make in our business plans or organisation to adapt to market developments; relationships with healthcare professionals; reliance on information technology and cybersecurity; disruptions due to natural disasters, weather and climate change related events; changes in customer and other stakeholder sustainability expectations; changes in taxation regulations; effects of foreign exchange volatility; and numerous other matters that affect us or our markets, including those of a political, economic, business, competitive or reputational nature. Please refer to the documents that Smith+Nephew has filed with the U.S. Securities and Exchange Commission under the U.S. Securities Exchange Act of 1934, as amended, including Smith+Nephew's most recent annual report on Form 20-F, which is available on the SEC's website at www. sec.gov, for a discussion of certain of these factors. Any forward-looking statement is based on information available to Smith+Nephew as of the date of the statement. All written or oral forward-looking statements attributable to Smith+Nephew are qualified by this caution. Smith+Nephew does not undertake any obligation to update or revise any forward-looking statement to reflect any change in circumstances or in Smith+Nephew's expectations.

前瞻性聲明
本文可能包含不一定準確的前瞻性聲明。例如,關於預期的營收增長和交易利潤率、市場趨勢和我們的產品管道的聲明是前瞻性聲明。短語「旨在」、「計劃」、「打算」、「預計」、「處於良好位置」、「相信」、「估計」、「期望」、「目標」、「考慮」和類似表達通常旨在識別前瞻性聲明。前瞻性聲明涉及未知風險、不確定性和其他重要因素,這些因素可能導致實際結果與所述陳述的表達或暗示的結果有所不同。對於史密斯和內修來說,這些因素包括歐洲和中東地區的衝突、我們服務的市場的經濟和金融狀況,特別是影響醫療保健提供者、付款人和客戶的市場、已建立的和創新的醫療設備的價格水平、醫療技術的發展、監管批准、報銷決定或其他政府行動、產品缺陷或召回或其他質量管理系統問題或未能遵守相關法規、專利或其他索賠的訴訟、法律和財務合規風險及相關的調查、補救或執法行動、我們供應鏈或供應商的運營中斷、合格人員的競爭、戰略行動,包括收購和出售,我們在執行盡職調查、評估和整合收購的業務方面的成功、事務或其他我們在我們的業務計劃或組織中做出的變更引起的中斷,以適應市場發展、與醫療保健專業人員的關係、對信息技術和網絡安全的依賴、由自然災害、天氣和氣候變化相關事件引起的中斷、客戶和其他利益相關者可持續性期望的變化、稅收法規的變化、外匯波動性的影響以及影響我們或我們的市場的數以政治、經濟、商業、競爭或名譽爲代表的其他事項。請參考史密斯和內修已根據美國證券交易委員會修訂的美國證券交易法案提交的文件,包括史密斯和內修最近的年度報告20-F表,該報告可在美國證券交易委員會網站www.sec.gov上獲得,以討論其中的某些因素。 任何前瞻性聲明都是基於史密斯和內修截至發表聲明日期的可用信息。所有由史密斯和內修書面或口頭表達的前瞻性聲明都受此警告的限制。史密斯和內修不承擔任何更新或修正任何前瞻性聲明以反映任何情況變化或史密斯和內修的預期的義務。

Trademark of Smith+Nephew. Certain marks registered in US Patent and Trademark Office.

◊Smith+Nephew的商標。 美國專利和商標局註冊的某些商標。


譯文內容由第三人軟體翻譯。


以上內容僅用作資訊或教育之目的,不構成與富途相關的任何投資建議。富途竭力但無法保證上述全部內容的真實性、準確性和原創性。
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