The implants in the Alians Proximal Humerus range are designed for the osteosynthesis of fractures, dislocations, osteotomies and non-unions of the proximal humerus in adults.
The Alians Proximal Humerus range offers implants that are specifically designed to stabilize fractures of the humeral head. The plate is available in 6 different sizes to treat a wide spectrum of distal-related fractures.
A complete solution for managing
proximal humerus fractures.
A range of implants and instrumentation designed to reduce simple and complex fractures of the proximal humerus:
- There are six lengths of asymmetrical plates; the two longest are only available in the sterile version on request.
- The design of the plates guarantees a positioning that avoids any conflict with the joint in motion.
- Les vis proximales verrouillées (Ø5mm) se répartissent harmonieusement dans les zones de meilleure densité osseuse de la tête humérale, pour assurer plus de stabilité au montage.
- The plates are profiled to match the anatomical slope of the proximal humerus.
- The proximal locking screws (Ø5 mm) are distributed harmoniously in the areas of the humeral head with better bone density, creating a solid and stable construct.
- Each plate has osteosuture insertion and fixation zones, useful for reinserting the rotator cuff.
Why choose the Alians Proximal Humerus range?
- A simple range: one design, six sizes, one screw diameter and a single instrumentation
- Anatomical plate profile for optimized positioning, avoiding conflict with the acromion
- Proximal screws with blunt tips to prevent any joint penetration
- Polyaxial screws for reducing complex fractures
- Suture holes to stabilize tuberosities Instrumentation to help with implant positioning
One is the patient-specific correction guide developed to support you in both 2D and 3D surgical planning, as well as for performing osteotomies. The production of our patient-specific cutting guides is the result of close collaboration between surgeons and Newclip Technics, to best meet surgical needs and support the surgeon in each procedure. These solutions are developed based on clinical imaging data, to optimize the anatomical congruence between the material and the bone tissue.