Rejuvenate Modular Primary Hip System, designed to help recreate the anatomy and hip biomechanics of individual patients, is available by Stryker Orthopaedics.
The Rejuvenate Modular Primary Hip System was developed to optimize anatomic restoration by providing options that offer enhanced stability(1), proven modularity(2) and intra-operative flexibility. With a wide range of femoral stem and neck combinations and an extensive range of length, version and offset, the Rejuvenate Modular Primary Hip System is designed to enable surgeons to better personalize the implant to a patient's unique anatomy. By more closely matching the biomechanics of the patient, surgeons may reduce the risk of dislocation and leg length discrepancies, which can be associated with costly hospital readmission and revision surgery(3).
"Every patient's anatomy and lifestyle are different, which is why we have invested in developing cost-effective personalized hip solutions," says Bill Huffnagle, vice president and general manager, Hip Reconstruction, Stryker Orthopaedics. "With the Rejuvenate Modular Primary Hip System, patients can rest assured that their surgeons have the equipment to help them more closely match their specific biomechanical needs."
The Rejuvenate Modular Primary Hip System's modular implant design accommodates most well-established surgical approaches and helps to promote intraoperative efficiency and flexibility. Further, the instrumentation used in conjunction with the Rejuvenate Modular Primary Hip System is designed with enhanced ergonomics and can more easily be integrated with Stryker's current navigation technology, thereby having the potential to streamline surgical workflow.
(1) 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.
(2) RD-07-027: Fatigue Performance of the Rejuvenate Modular Stem under the ISO 7206-5 Distal Fixation Model.
(3) Malik, A., Maheshwari, A., Dorr, LD. Impingement with total hip replacement. Journal of Bone Joint Surgery, 2007: 1832-1839.
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