| Product Name | Model | Specification | Material | Code |
|---|---|---|---|---|
| Locking osteosynthesis plate for proximal medial tibia | JPSD121 | 5 hole left | Titanium Alloy | 11420205 |
| Length | 112mm | |||
| Fitness / Screws Compatibility | 5.0mm locking screw, 4.5mm cortical bone screw, and 6.5mm cancellous bone screw | |||
Crafted from premium titanium alloy. Designed with 3 different dorsiflexion angles (0°, 5°, and 10°) to accommodate various joint profiles. Engineered for reliability, featuring Kirschner wire compression holes and slots in the middle of the plate, accompanied by clear etching lines to ensure highly accurate fusion positioning.
Anatomically precontoured plates designed with a specialized countersinkable head profile for 2.7mm screws to significantly reduce tissue irritation. Includes 5 distinct anatomical configurations of medial-lateral distal humeral locking plates, offering clinicians maximum versatility to customize fracture fixation schemes based on individual patient pathology.
Manufactured from titanium alloy. Incorporates highly adaptable extension holes in the middle of the plate to easily fine-tune positioning. The versatile plate design allows placement on both the ulnar and radial sides of the phalanx. Anatomically precontoured to match phalanx morphology, available in distinct left and right configurations.
Combining volar and dorsal distal radius plates to empower surgical teams with versatile clinical options. Its precontoured low-profile design conforms precisely to the bone surface to minimize post-operative soft tissue irritation. Features a rounded, thin, blunt edge design tailored for minimally invasive insertion underneath muscle layers.
Formed of premium titanium alloy. Extremely precise anatomically precontoured plates that adhere snugly to the calcaneal protrusion, posterior articular talus, and calcaneal tubercle. Designed with countersinkable screw heads to eliminate the risk of screw head protrusion above the plate surface, ensuring optimal tissue compatibility.