Secur-Fit Plus Max
Features & Benefits
CP Titanium Arc Deposition
Arc deposition is an advanced metal application process pioneered by Stryker Orthopaedics for orthopedic implant purposes. The proprietary arc deposition technology produces an abrasion-resistant, biocompatible CP Titanium coating that enhances the implant friction fit and augments the load transfer capabilities of the underlying normalizations. It provides an excellent coating for application of a hydroxylapatite surface treatment. It also enhances proximal implant press-fit, helps increase rotational and axial stability, and increases load-carrying capacity of proximal stem.
Normalizations are designed to convert shear stress to compressive loads for more efficient load transfer. They also help resist medial migration and subsidence and provide maximized projected area to resist rotation.
PureFix HA Coating
Stryker's clinically successful, 50µm thick PureFix HA coating demonstrates unprecedented clinical results in a multi-center study followed for more than 13 years.1
Reduced Neck Geometry
Reduced neck geometry features a narrow, ovoid neck designed to optimize available range of motion, while maintaining strength.
Fluted/Cylindrical Distal Stem Geometry
Provides distal stability and fit in a compromised distal canal with two distal diameters per proximal size.
Multiple Distal Diameter Options
The ability of an implant system to fit a variety of anomalous canal geometries is critical given the nature of complex primary and revision surgery. The Secur-Fit Plus Max Hip System has the ability to deal with proximal/distal sizing anomalies with one system of non-modular implants. With each implant, there are two distal diameters for each proximal size, and two proximal sizes for each distal diameter. This allows the option of four different proximal sizes within 1mm of distal reaming.
Distal Bullet-tip and Tri-slot Design
Distal Tri-Slot Provides distal implant flexibility.
- Head Options A large selection of C-taper femoral heads are available. Offsets options also are available in forged Vitallium alloy, alumina ceramic, and BIOLOX* delta ceramic.
*BIOLOX is a registered trademark of Ceramtec.
1. D’Antonio JA, Capello WN, Hydroxyapatite Femoral Stems for THA 10-13 Years Follow-Up, CORR, Vol. 593, 2001.
2. Stryker Literature #LSFHAM-SS