LCP Plate OEM
The LCP Plate OEM Manufacturer!
Founded in 2001, 24-year professional orthopedic implants OEM/ODM manufacturer focusing on R&D, manufacturing, sales and one-stop services in the orthopedics & arthroplasty field. Having served 50+ global countries and finished 1000+ custom OEM/ODM projects for 1000+ international ortho partners, we offer comprehensive OEM/ODM customization for trauma implants OEM, spine implants ODM, hip & knee replacement implants and related surgical instruments. Our 24-year manufacturing experience enables 15-day fast prototyping for custom samples, low MOQ (50 sets start) for small-batch OEM orders and mass production capacity for long-term ODM cooperation, with full customization support for product size, material, thread and branding to meet the diverse needs of global orthopedic manufacturers.
Why choose us
OEM/ODM
We Offer complete solutions and scalable services from concept to commercialization, eg: concept development, product design, contract engineering, prototyping, testing, and contract manufacturing for medical devices etc like OEM/ODM mode.
Production Market
With ISO/CE certified quality, the company's sales network is throughout the country and has exported to different countries and regions in Asia, South America, Middle East, north America.
Rich Experience
Who offers concept development, product design, contract engineering, prototyping, testing, and contract manufacturing for medical devices with rich experience.
Production Equipment
60 CNC turning centres, 30 CNC milling centres as well as laser systems for marking and welding of assembly groups and special machines.
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Indication |
LCP Medial Proximal Tibia Plates is applicable to Fractures of lateral proximal tibia. |
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Material |
Titanium, Stainless Steel |
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Spec. (mm) |
97mm*3 holes -257mm*13 holes (L,R) |
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Matching Screw |
Φ4.5 Cortical Screw. Φ6.5 Cancellous Screw. |
Design and Structure of LCP Plate
Material
Typically made from titanium or stainless steel, ensuring biocompatibility and high strength.
01
Shape
Anatomically contoured to fit the natural curvature of the radius bone, reducing the need for intraoperative plate bending.
02
Screw Holes
Includes both locking and non-locking screw holes. The locking holes allow the screws to thread into the plate, providing a fixed-angle construct.
03
Fixed-Angle Feature
The locking mechanism ensures that the screws are locked into the locking plate at a fixed angle, offering greater stability, particularly in osteoporotic bone or complex fractures.
04
Low Profile
Designed to minimize irritation to surrounding soft tissues and reduce the risk of tendon damage.
05
Compression Plate Uses of LCP Plate
Comminuted Fractures
When a bone shatters into multiple fragments, conventional plates may not provide adequate fixation. Locking plates help by forming a rigid frame that maintains alignment without needing each fragment to be compressed directly.
Osteoporotic Bone Fixation
In elderly patients with poor bone quality, screw purchase can be weak. Locking screws do not rely on bone density for stability, making them ideal for treating fractures in this demographic.
Periarticular Fractures
Fractures near joints, such as distal femur, proximal tibia, and distal radius fractures, often benefit from LCPs due to their fixed-angle support and minimal disruption to the joint's alignment.
Minimally Invasive Plate Osteosynthesis (MIPO)
LCPs allow for biological fixation – preserving periosteal blood supply by minimizing surgical exposure. They can be inserted submuscularly through small incisions, aligning well with MIPO principles.
Non-unions and Malunions
Surgeons can use locking plates to restabilize and correct alignment in cases where previous fractures haven't healed properly, without excessively stripping soft tissue.
Surgical Technique in 7 steps
Step: 1
Surgeons look at their patients' X-rays and CT scans before surgery to determine the fracture pattern and figure out how to approach the procedure. Based on the severity and location of the fracture, the surgeon will decide what size and kind of plate is necessary.
Step: 2
Depending on the surgeon's discretion and the precise pattern of the fracture, the patient is either put in a supine or lateral position on the operating table.
Step: 3
Making an incision along the bone's natural way allows the surgeon to expose the distal fibula. Careful dissection of the soft tissues reveals the bone and fracture location.
Step: 4
Reducing a fracture involves careful manipulation and alignment of the fracture pieces to return the distal fibula to its standard structure. A pair of reduction forceps or similar tools could be necessary for this work.
Step: 5
The LCP Distal Fibula Plate, which is shaped to conform to the bone, is attached to the side of the fibula. A stable fixation is achieved by positioning the plate to cover the fracture location.
Step: 6
The next step is to put locking screws into the inside of the bone using the combi-holes in the plate. Stabilizing the fracture and encouraging bone healing, these screws form a fixed-angle construct. It may be necessary to insert more screws to provide a secure hold.
Step: 7
After the plate and screws are inserted, the incision is layered closed. The surgical site is covered after applying a sterile dressing.
Packaging & Delivery
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Packaging |
Inner: Non-sterile plastic bags. Small packing PE/PET, Big packing PVC. External: Standard carton. |
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Lead Time |
7-14 days |
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Delivery |
≤30kg, Door to door (DHL/TNT/UPS/FEDEX/EMS, etc.) >30 kg, Airport to Airport. By air or by sea. |
Our factory
FUXIANG medical metal produces medical implants/ instruments, as well as high-precision mechanical and precision CNC turned and milled components, wire-cutting components, ready-to-install assembly groups and 3D parts with free-form contours for a variety of industries.
FAQ