Our 9-Hole Limited Contact Dynamic Compression Plate (LC-DCP) is a premium trauma implant designed to achieve rigid internal fixation while prioritizing bone tissue health. Unlike standard compression plates, the LC-DCP features a specialized, scalloped understructure that reduces contact with the periosteum. This limited-contact design protects the vital local blood supply beneath the plate, minimizing bone necrosis and accelerating the natural remodeling process.
Crafted from medical-grade, highly electropolished materials (Surgical Stainless Steel 316L / Titanium Alloy), this 9-hole straight plate is engineered with elongated, symmetrical compression slots. These smooth, beveled holes allow for precise screw gliding, providing bi-directional dynamic compression across the fracture line to ensure maximum structural stability.
Key Features & Benefits
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Vascular Preservation (LC Design): Scalloped underside significantly reduces plate-to-bone surface contact, safeguarding periosteal blood flow and lowering the risk of bone atrophy.
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Rigid 9-Hole Configuration: Provides optimal length and structural support for managing mid-sized long-bone fractures.
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Bi-Directional Dynamic Compression: Elongated, symmetrical oval holes guide conventional cortical screws down a smooth slope, mechanically pulling bone fragments tightly together from either side.
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Uniform Stress Distribution: The engineered profile ensures consistent stiffness throughout the plate, preventing stress concentrations near the holes and reducing the risk of implant fatigue.
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Tissue-Friendly Tapered Profile: Features low-profile, rounded outer borders and tapered ends to minimize irritation and impingement on surrounding muscles and tendons.
Product Specifications
Clinical Applications
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Rigid internal fixation of diaphyseal and metaphyseal shaft fractures in long bones (such as the radius, ulna, fibula, or humerus).
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Stabilization of complex non-unions, mal-unions, and reconstructive osteotomies.
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Advanced human trauma and veterinary orthopedic reconstructive surgeries requiring maximum vascular preservation.





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