Medisplint
| Product name | Model | Material | Specification | Code |
|---|---|---|---|---|
| Humeral nail locking screw I | SHG-IK | Titanium Alloy | 4.5 | 15724530 |
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 |
The length is consistent with the anatomy of the FEMORAL medullary cavity.
Further improves fixation strength in osteoporosis. The Blunt End Design of the locking screw reduces the risk of excessive penetration.
Short nail: diameter 8.0/9.5mm, length 160mm. Long nail: diameter 7.0/8.5mm, length 180-315mm. All nails have left/right types. Easy, minimally invasive implantation.
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. Locking screw countersinking design to reduce soft tissue irritation.
Short screw: two different plane holes for locking. Long screw: three locking holes avoid important blood vessels, located in the safe area between the median nerve and the radial nerve. Two anterior and posterior locking holes facilitate manual operation, minimizing the occurrence of rotation and displacement of distal fracture.
Special design of compression holes helps to increase the stability of transverse or short oblique fractures. Self-sustaining compression mechanism, no static screw is needed to maintain compression during operation.
Compared with G3 with radian radius of 1.5m, the distal location of TFNA with radian radius of 1.0m in the center of medullary cavity is twice as likely as that of G3.
A: Normally we send through courier like DHL, FEDEX, UPS, TNT etc. or post upon request from clients.
A: Yes, our medical devices are manufactured under strict quality standards and comply with international certifications including ISO 9001, ISO 13485, and CE.
A: We expect your minimum orders to be at least US$500. However, we understand that customers need to place smaller sample orders in the beginning in order to test market our products. We could offer free samples, but the cost of freight is not covered.
A: Of course you can, just send us pictures or samples. But this takes a little longer time for delivery.
A: Generally, we have stock for every listed product, which is produced monthly. However, this depends on our sales condition. It is best to ask our sales representative for accurate inventory information. Payment <= 800 USD: 100% in advance. Payment > 800 USD: 30% T/T in advance, balance before shipment. Payment methods include L/C, T/T, Western Union, PayPal, etc.
A: All our intramedullary nails are fabricated from high-grade biocompatible Titanium Alloy, which ensures maximum structural strength and compatibility inside the human body.