Ease Medical Apparatus And Instruments



| Product name | Model | Material | Specification | Code |
|---|---|---|---|---|
| Humeral nail Intramedullary Nail | SHG-IK | Titanium Alloy | 8 | 15728160 |
Intramedullary nail: All kinds of high quality intramedullary nails. Easy to insert and take out; Titanium alloy material; Reduce the risk of outer wall impact and main nail inward movement; The diameter is suitable for all applications; 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 |
| 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 |

Proximal fixation:
Multi-plane and Multi-locking screw fixation options to achieve optimal stability. Screw-in-screw design improves fixation in osteoporosis. Blunt head locking screws reduce penetration risk. Countersinking design reduces tissue irritation.

Distal fixation:
Short screw: two plane holes for locking. Long screw: three locking holes avoid blood vessels, located in the safe area between median and radial nerves. Anterior/posterior holes facilitate operation and minimize displacement.

Compression:
Special design of compression holes increases stability for transverse or short oblique fractures. Self-sustaining compression mechanism eliminates the need for static screws during operation.

TFNA System:
Compared with 1.5m radius designs, the TFNA with 1.0m radius is twice as likely to center correctly in the medullary cavity, optimizing anatomical fit.




