


| Product name | Model | Material | Specification | Code |
|---|---|---|---|---|
| Proximal Femoral Nail Antirotation Intramedullary Nail | SGM-IIK | Titanium Alloy | 10.0×320×130°Left | 15640320 |
Intramedullary nail: High quality, easy to insert and take out. Made of titanium alloy. Reduces the risk of outer wall impact and main nail inward movement. The diameter is suitable for all applications with simple operation and minimally invasive implantation.
| 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 |


1. 1.0m radian radius: The length is consistent with the anatomy of the femoral medullary cavity.

2. Screw-in-screw design: To further improve the fixation strength of osteoporosis. The Blunt End Design of the locking screw reduces the risk of excessive penetration.

3. Short/Long Nail Specs: Short nail: diameter of 8.0/9.5mm, length of 160mm. Long nail: diameter of 7.0/8.5mm, length of 180-315mm. All nails have left and right type, titanium alloy material.

Multi-plane and Multi-locking screw fixation options, multiple options for operation, to achieve optimal fixation stability. Screw-in-screw design to further improve the fixation strength of osteoporosis. Blunt head of locking screw design to reduce the risk of excessive penetration.
Short screw: two different plane holes for locking. Long screw: three locking holes avoid important blood vessels. Two anterior and posterior locking holes facilitate the manual operation, minimizing the occurrence of rotation and displacement.


