Rejuvenate Modular Hip Stem
Rejuvenate Modular Hip Stem
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Rejuvenate Modular Hip Stem
The Rejuvenate Femoral Platform is a modular hip system of femoral bodies and necks that provide surgeons with options for personalizing the implant to each patient’s anatomy and biomechanical needs. The Rejuvenate femoral stem represents the latest evolution in the OmniFit and Secur-Fit product lines, which have a successful published clinical history for over 15 years1
.
Features & Benefits
Rejuvenate is designed with the potential to provide:
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Enhanced Stability2
The Rejuvenate System offers the surgeon the opportunity to independently manage stem size, leg length, version and offset. The surgeon may utilize these options to recreate the patient’s anatomy, restore biomechanics and consequently minimize risk of dislocation2,3. -
Proven Modularity4
The modular junction construct is designed to maintain strength and durability. The Rejuvenate System combines the material characteristics of TMZF ( Ti-12Mo-6Zr-2Fe) and Cobalt Chrome (CoCr) for the stem and neck implants respectively. Laboratory testing demonstrates the compatibility of these materials without concern for fretting and corrosion4 -
Intraoperative Flexibility
The easy-to-use instrument design helps improve workflow with the modular instrumentation and multiplicity of instrument usage. The instruments are also designed with enhanced ergonomics and integrated with Navigation.
Stryker Corporation or its divisions or other corporate affiliated entities own, use or
have applied for the following trademark(s) or service mark(s):
Rejuvenate. All other trademarks are trademarks of
their respective owners or holders.
References
1. Capello, W.,Et al. Hydroxyapatite-coated Femoral Components, 15- Year Minimum Follow-up, Corr. Vol 453, Decemeber 2006: pp.75-80
2. Steppacher, S.D., Ecker, T.M., et al. Managing Length and Stability: The role of the modular neck. Orthopaedics. Vol.31, No. 9, September 2008
3. Barsoum, W.K., Patterson, R.W., et al. A computer model of the position of combined component in the prevention of impingement in total hip replacement. JBJS (BR), Vol. 89-B, No.6, June 2007
4. Technical Report: RD-07-027