MAHWAH, N.J.– Stryker has announced the launch of its T2 Alpha Femur Retrograde Nailing System. The new nailing solution features a redefined data-driven nail design,1,2 an advanced locking screw option that provides surgeons with axial stability where desired, and a dedicated proximal targeting system, which may reduce the number of X-ray shots compared to freehand locking.4-7
“Stryker has made significant investments in the T2 Alpha Femur Retrograde Nailing System’s instrumentation platform,” said Eric Tamweber, Vice President and General Manager of Stryker’s Trauma business. “We are excited to now have a complete lower extremity T2 Alpha Nailing platform available for our surgeon customers.”
The T2 Alpha Femur Retrograde Nailing System was created with a new level of innovation, including:
- Data-driven Stryker Orthopaedic Modeling and Analytics (SOMA) designed nails, available in a variety of sizes and radii of curvature, to meet the unique needs of each case and diverse anatomical patient needs.1,2
- Advanced locking screws that are designed to limit relative motion between the nail and screw and provide additional stability when needed.1,3,5
- Guided targeting that is designed to provide more reproducible locking and reduce the number of X-ray shots compared to freehand locking.4,6,7
- Intuitive instrumentation that is inspired by surgeon preferences and designed to improve ease of use, case after case.1
Content ID: T2-LT-8_Rev-1, 08-2021
References:
1. T2 Alpha Retrograde Femur Nailing System Surgical Technique T2-ST-37, 06-2021
2. T2-WP-5_Rev-1, 12-2019
3. Internal Test Report A0030043
4. Adam et al. External distal targeting device for safe insertion of distal locking screws when performing long Gamma Nail: Comparison with the freehand technique. Bone and Joint. Vol 94-B Supp XXXVII. 14. Sept. 2012
5. T2-WP-6_Rev-1, 12-2019
6. M.Ehlinger et al. Distal targeting device for long Gamma nail®. Monocentric observational study. Orthopaedics and Traumatology:Surgery and Research. Vol 99-Issue 7. November 2013, Pages 799-804
7. T2-WP-8, 03-2019