Ease Medical Apparatus And Instruments
All kinds of high quality intramedullary nails engineered for optimal clinical outcomes.
| Product name | Model | Specification | Material | Code |
|---|---|---|---|---|
| Proximal Femoral Nail Antirotation Intramedullary Nail | SGM-IIK | 9.0×170×130° | Titanium Alloy | 15649170 |
| Proximal Femoral Nail Antirotation Intramedullary Nail | SGM-IIK | 9.0×200×130° | Titanium Alloy | 15649200 |
| Proximal Femoral Nail Antirotation Intramedullary Nail | SGM-IIK | 9.0×240×130° | Titanium Alloy | 15649240 |
| Proximal Femoral Nail Antirotation End Cap | SGM-IIK | 10×15 | Titanium Alloy | 15601115 |
| Proximal Femoral Nail Antirotation End Cap | SGM-IIK | 10×20 | Titanium Alloy | 15601120 |
| Proximal Femoral Nail Antirotation Blade | SGM-IIK | 10.5×70 | Titanium Alloy | 15600570 |
| Proximal Femoral Nail Antirotation Blade | SGM-IIK | 10.5×80 | Titanium Alloy | 15600580 |
| Proximal Femoral Nail Antirotation φ4.9 locking screw | SGM-IIK | 4.9×30--72 | Titanium Alloy | 15604930 |
| Femoral Nail locking screw I | SGG-IIIK | 6.5×75 | Titanium Alloy | 15246575 |
| Femoral Nail Intramedullary Nail | SGG-IIIK | 9.0-13.0 | Titanium Alloy | 15249340 |
| Humeral nail Intramedullary Nail | SHG-IK | 8 | Titanium Alloy | 15728160 |
The length is designed to be highly consistent with the anatomy of the FEMORAL medullary cavity, optimization for a better fit.
Specially engineered to improve the fixation strength of osteoporosis. The Blunt End Design of the locking screw effectively reduces the risk of excessive penetration.
Short nail: diameter of 8.0 / 9.5mm, length of 160mm.
Long nail: diameter of 7.0 / 8.5mm, length of 180-315mm (15mm interval).
All nails feature both left and right anatomical designs, constructed from biocompatible titanium alloy. The diameter ranges are highly suitable for all applications, supporting a simple operation and minimally invasive implantation.
Multi-plane and Multi-locking screw fixation options provide versatile surgical methods to achieve optimal stability. The screw-in-screw design improves fixation strength in osteoporotic bone. The blunt head of the locking screw reduces the risk of excessive penetration, while the countersinking design minimizes soft tissue irritation.
Short screw: Features two different plane holes for locking.
Long screw: Features three locking holes designed to avoid major blood vessels, located in the safe zone between the median nerve and the radial nerve. Two anterior and posterior locking holes facilitate manual operation, minimizing rotation and displacement of the distal fracture.
The compression holes are specifically designed to increase stability in transverse or short oblique fractures. Features a self-sustaining compression mechanism, eliminating the need for a static screw to maintain compression during surgery.
Compared with standard systems featuring a radian radius of 1.5m, the distal location of the TFNA system (radian radius of 1.0m) positioned in the center of the medullary cavity offers double the placement accuracy and anatomical fit.
We are a leading orthopedic medical device R&D, manufacturing, and operation enterprise. We focus strictly on the development, manufacturing, and sales of orthopedic trauma, spine, and joint implants and devices. Our distribution networks reach across various regions to serve medical centers and orthopedic professionals globally.
Equipped with first-class production facilities, a professional R&D engineering team, a skilled manufacturing crew, and a quality management system in line with international standards, we ensure premium quality output and reliable customer service strategies. Our senior technical teams bring extensive medical device engineering experience, driving innovation and continuous optimization in orthopedic solutions.