Straumann® TLX 种植系统

标志性的组织水平种植体实现即刻种植。

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Straumann® TLX 种植体的设计考量了硬组织和软组织愈合的关键生物学原理。

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  • 专为即刻治疗方案设计

    • 全锥度种植体设计,提高初期稳定性,软组织水平种植体可预期性
    • 可选小直径种植体,3.75 mm 适用于所有适应症

  • 保持种植体周围健康

    • 降低细菌堆积风险
    • 以软组织水平连接,有利于卫生清洁
    • 保持即刻软组织附着性

  • 简洁高效

    • 软组织水平修复的一段式流程有利于提高椅旁治疗效率
    • 提升操作简便性,即使是后牙区也容易修复
    • 常规和集成式数字化工作流程清晰明确,有助于打造高效治疗方案

  • 动态骨管理

    • 天然骨的重新生长和植入扭矩的控制

  • 真正的信心保障

    • Roxolid® 材料和 SLActive® 表面实现瑞士精度和品质

纵向

«未来的口腔种植应具备颈部设计,在穿龈区域设平滑表面,骨内设微粗糙表面。根据 Derks 研究,让微间隙远离骨平面并在种植体周围龈沟内设平滑表面时,可降低种植体周围并发症的风险。TLX 将此概念与创新骨内设计结合在一起,力求实现良好的初始稳定性,这将为临床实践带来诸多可能。»

Daniel Buser 教授

了解 TLX 种植系统的更多信息

您可以在 TLX 手册中查看其优势、特征、供应直径、长度和修复平台。

欲进一步了解详情,请查看以下文件:

产品目录 >
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Straumann® TLX 数字连接

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目录

产品目录 2018/2019

Straumann China Edition
20.07.2018 PDF, 3 MB 下载
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参考文献

1 Ioannidis A, Gallucci GO, Jung RE, Borzangy S, Hämmerle CH, Benic GI. Titanium-zirconium narrow-diameter versus titanium regulardiameter implants for anterior and premolar single crowns: 3-year results of a randomized controlled clinical study.J Clin Periodontol.2015 Nov;42(11):1060-70. doi: 10.1111/jcpe.12468.Epub 2015 Nov 14.
2 Al-Nawas B, Domagala P, Fragola G, Freiberger P, Ortiz- Vigón A, Rousseau P, Tondela J. A Prospective Noninterventional Study to Evaluate Survival and Success of Reduced Diameter Implants Made From Titanium-Zirconium Alloy. J Oral Implantol.2015 Aug;41(4):e118-25. doi: 10.1563/ AAID-JOI-D-13-00149. Epub 2014 Mar 25.
3 Altuna P, Lucas-Taulé E, Gargallo-Albiol J, Figueras-Álvarez O, Hernández-Alfaro F, Nart J. Clinical evidence on titanium-zirconium dental implants: a systematic review and meta-analysis.Int J Oral Maxillofac Surg.2016 Jul;45(7):842-50. doi: 10.1016/j.ijom.2016.01.004.Epub 2016 Feb 3.
4 Nicolau P, Guerra F, Reis R, Krafft T, Benz K , Jackowski J 10-year results from a randomized controlled multicenter study with immediately and early loaded SLActive implants in posterior jaws. Presented at 25th Annual Scientific Meeting of the European Association of Osseointegration – 29 Sep – 1 Oct 2016, Paris.
5 Nelson, K., Stricker, A., Raguse, J.-D. and Nahles, S. (2016), Rehabilitation of irradiated patients with chemically modified and conventional SLA implants: a clinical clarification.J Oral Rehabil, 43: 871–872. doi:10.1111/joor.12434.
6 Patients treated with dental implants after surgery and radio-chemotherapy of oral cancer. Heberer S, Kilic S, Hossamo J, Raguse J-D, Nelson K. Rehabilitation of irradiated patients with modified and conventional sandblasted, acid-etched implants: preliminary results of a split-mouth study.Clin.Oral Impl.Res.22, 2011; 546–551.
7 Straumann (2016). SLActive® supports enhanced bone formation in a minipig surgical GBR model with coronal circumferential defects. Unpublished data.
8 Norm ASTM F67 (states min. tensile strength of annealed titanium); data on file for Straumann cold-worked titanium and Roxolid® implants.
9 Maniura K. Laboratory for Materials – Biology Interactions Empa, St. Gallen, Switzerland. Protein and blood adsorption on Ti and TiZr implants as a model for osseointegration. EAO 22nd Annual Scientific Meeting; October 17–19; 2013; Dublin.