Lateral Clavicle Plate: Advanced Orthopedic Solution for Superior Fracture Fixation

EN EN
EN EN

Get a Free Quote

Our representative will contact you soon.
Email
Name
Company Name
Message
0/1000

lateral clavicle plate

The lateral clavicle plate is an advanced orthopedic implant designed specifically for treating fractures and injuries in the lateral end of the clavicle. This innovative medical device combines sophisticated engineering with anatomical precision to provide optimal stabilization and support during the healing process. The plate features a low-profile design that minimizes soft tissue irritation while maintaining structural integrity. Manufactured from high-grade medical titanium, it offers exceptional biocompatibility and resistance to corrosion. The plate's unique configuration includes multiple screw holes strategically positioned to achieve maximum fixation stability, with specialized locking mechanisms that prevent screw backing out. Its pre-contoured shape matches the natural anatomy of the lateral clavicle, reducing the need for intraoperative bending and ensuring a better fit. The system includes both standard and locking screw options, providing surgeons with flexibility in fixation techniques. Advanced surface treatment technology enhances osseointegration, promoting faster healing and reducing recovery time. The plate's design also accommodates different fracture patterns and anatomical variations, making it versatile for various clinical scenarios.

New Product Releases

Three Ring Configuration of Six-Axis Ring External Fixator VIEW DETAILS

Three Ring Configuration of Six-Axis Ring External Fixator

Ankle Fixator of Unilateral External Fixator VIEW DETAILS

Ankle Fixator of Unilateral External Fixator

Limb Reconstruction System (LRS) of Unilateral External Fixator VIEW DETAILS

Limb Reconstruction System (LRS) of Unilateral External Fixator

Pelvic Fixator Long of Unilateral External Fixator VIEW DETAILS

Pelvic Fixator Long of Unilateral External Fixator

The lateral clavicle plate offers numerous benefits that set it apart in orthopedic trauma care. First, its anatomically optimized design significantly reduces operation time and improves surgical outcomes. The pre-contoured shape eliminates the need for extensive intraoperative manipulation, ensuring a more streamlined procedure. The plate's low-profile configuration minimizes post-operative discomfort and reduces the risk of soft tissue irritation, leading to better patient satisfaction. The multi-directional locking system provides enhanced stability, particularly crucial in osteoporotic bone, while allowing for precise angular adjustment of screws. This flexibility enables surgeons to achieve optimal fixation even in challenging cases. The titanium composition ensures excellent biocompatibility and reduces the risk of allergic reactions, while also providing sufficient strength for long-term stability. The plate's innovative screw hole design accommodates both locking and conventional screws, offering surgeons greater versatility in fixation strategies. Its unique stress distribution pattern helps prevent stress shielding and promotes natural bone healing. The system's comprehensive range of sizes ensures proper fit for various patient anatomies, while the specialized end tab design provides additional stability for lateral fragment fixation. The enhanced surface treatment promotes better osseointegration and accelerates the healing process, potentially reducing recovery time.

Practical Tips

Multi scenario application analysis: flexible advantages of modular braces in trauma and orthodontics

09

May

Multi scenario application analysis: flexible advantages of modular braces in trauma and orthodontics

View More
Taylor Space Bracket: Application of 3D Orthopedic Technology in Complex Malformation Correction

09

May

Taylor Space Bracket: Application of 3D Orthopedic Technology in Complex Malformation Correction

View More
Hollow screws: Understanding their role in minimally invasive surgery

09

May

Hollow screws: Understanding their role in minimally invasive surgery

View More
Evolutionary Theory of Intramedullary Nail Technology: Breakthrough from Backbone Fracture to Joint End Fixation

09

May

Evolutionary Theory of Intramedullary Nail Technology: Breakthrough from Backbone Fracture to Joint End Fixation

View More

Get a Free Quote

Our representative will contact you soon.
Email
Name
Company Name
Message
0/1000

lateral clavicle plate

distal radius plate
lcp plate
proximal humerus plate
philos plate humerus
fibula locking plate
volar radius plate
Superior Biomechanical Stability

Superior Biomechanical Stability

The lateral clavicle plate's advanced biomechanical design represents a significant advancement in fracture fixation technology. Its unique architecture incorporates multiple points of fixation, creating a robust construct that effectively resists both rotational and angular forces. The plate's specialized locking mechanism creates a fixed-angle construct, particularly beneficial in maintaining reduction in osteoporotic bone. The system's ability to accommodate both locking and conventional screws allows for hybrid fixation techniques, optimizing stability based on bone quality and fracture pattern. The pre-contoured shape ensures optimal plate-to-bone contact, enhancing load distribution and reducing the risk of hardware failure. This superior stability translates to better clinical outcomes and reduced risk of complications.
Enhanced Surgical Efficiency

Enhanced Surgical Efficiency

The thoughtfully engineered design of the lateral clavicle plate significantly streamlines the surgical procedure. The plate's pre-contoured profile eliminates the need for time-consuming intraoperative bending, reducing operation time and potential metal fatigue. The intuitive instrumentation system includes precision guides and depth gauges, facilitating accurate screw placement. The plate's low-profile design minimizes soft tissue dissection requirements, potentially reducing surgical trauma and post-operative complications. The system's comprehensive range of sizes and configurations allows surgeons to select the most appropriate implant quickly, enhancing workflow efficiency in the operating room.
Optimized Healing Environment

Optimized Healing Environment

The lateral clavicle plate creates an ideal environment for bone healing through several innovative features. The titanium composition provides excellent biocompatibility while maintaining necessary strength. The plate's surface treatment technology enhances osseointegration, promoting faster and more reliable bone healing. The design minimizes contact with periosteal blood supply, helping to preserve bone vitality. The system's ability to maintain stable fixation throughout the healing process reduces the risk of non-union or delayed union. The plate's optimized screw placement options allow for precise fragment fixation while maintaining biological healing principles. This combination of features creates an optimal environment for bone healing, potentially leading to faster recovery and better functional outcomes.
logo