2.0 Maxillofacial Mini Locking 120° Arc Plate Video

2.0 Maxillofacial Mini Locking 120° Arc Plate PDF

2.0 Maxillofacial Mini Locking 120° Arc Plate Specification

Name	Picture	Item No.	Specification
2.0 Maxillofacial Mini Locking 120° Arc Plate		RP2HS6H1203	6 holes, 1.0mm, 32mm
		RP2HS8H1203	8 holes,1.0mm, 41mm

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2.0 Maxillofacial Mini Locking 120° Arc Plate : A Comprehensive Guide

The 2.0 Maxillofacial Mini Locking 120° Arc Plate is a critical orthopedic implant designed to provide secure fixation for fractures and deformities in the facial and maxillofacial regions. With its precise locking mechanism, robust materials, and anatomically appropriate design, this plate plays an essential role in achieving optimal clinical outcomes in the repair and reconstruction of facial fractures. This comprehensive guide delves into the structure, features, applications, and future potential of the 2.0 Maxillofacial Mini Locking 120° Arc Plate, offering a detailed overview for surgeons, medical students, and other healthcare professionals involved in maxillofacial trauma care.

What is 2.0 Maxillofacial Mini Locking 120° Arc Plate？

The 2.0 Maxillofacial Mini Locking 120° Arc Plate is a small, lightweight implant used in the surgical treatment of facial fractures, specifically in areas where minimal bone manipulation is required. The "2.0" designation refers to the diameter of the screws used in the plate, which are 2.0 millimeters in diameter, designed to fit smaller anatomical structures.

The plate features a 120° arc design, which allows it to conform to the natural contours of the facial skeleton, especially around the zygomatic arch, mandible, and orbital regions. The arc shape provides enhanced fixation capabilities in these complex areas, where alignment and stabilization are critical for both functional and aesthetic outcomes.

Additionally, the plate utilizes a locking screw mechanism. This system enhances the stability of the plate by locking the screws into place, which prevents them from loosening over time, a common issue with traditional plates. This makes the 2.0 Maxillofacial Mini Locking 120° Arc Plate highly reliable, even in delicate regions with challenging anatomy.

2.0 Maxillofacial Mini Locking 120° Arc Plate Features

Anatomically Contoured Design

The plate features a 120° arc that allows it to match the natural curvature of the facial bones, such as the mandible and zygomatic bones, ensuring a precise fit and optimal stabilization.

Locking Screw System

The plate incorporates a locking screw system that provides rigid fixation by locking screws directly into the plate, minimizing the risk of screw loosening or shifting over time. This is particularly advantageous in the maxillofacial region, where bone density can vary and stabilization is critical.

Pre-Drilled Screw Holes

The plate has pre-drilled holes to accommodate screws at optimal angles for stable fixation. These holes are designed to minimize the time needed for placement and to reduce the risk of error during surgery.

Miniature Size

As a "mini" implant, the plate is specifically designed for use in smaller, delicate regions of the face, such as the zygomatic arch, orbital rim, and mandibular fractures, allowing for minimally invasive surgery and less tissue disruption.

Biocompatible Materials

The plate is manufactured from high-quality titanium or stainless steel, which offers excellent biocompatibility and long-term durability. These materials are corrosion-resistant, ensuring that the implant remains intact and functional within the body.

Multiple Screw Angles

The pre-designed holes allow screws to be placed at various angles, which improves the versatility of the implant and allows for secure fixation even in challenging anatomical regions.

2.0 Maxillofacial Mini Locking 120° Arc Plate Advantages

Superior Stability

The locking screw mechanism provides secure fixation, minimizing the risk of screw loosening and enhancing the stability of the fracture site.

Minimized Surgical Time

The pre-contoured, anatomically appropriate design reduces the need for complex plate bending during surgery, shortening the procedure time and improving efficiency.

Improved Aesthetic Outcomes

By ensuring the proper alignment of facial bones, the plate helps to restore both the functionality and appearance of the patient's face, crucial for the patient’s quality of life.

Versatility

The 120° arc design makes the plate suitable for a variety of facial fractures, including those in the zygomatic, mandibular, and orbital regions, allowing surgeons to use a single implant for multiple fracture types.

Reduced Risk of Infection

The high-quality materials used in the plate are designed to integrate well with human bone, reducing the risk of infection and improving the healing process.

Minimal Invasiveness

The mini-locking plate is designed to fit smaller anatomical spaces, which helps to minimize soft tissue damage during surgery, reducing post-operative pain and recovery time.

Long-term Durability

The locking mechanism, along with the biocompatible materials, ensures long-term durability and stability, even in demanding environments such as the highly mobile areas of the face.

2.0 Maxillofacial Mini Locking 120° Arc Plate Treatment of Fracture Types

Zygomatic Arch Fractures

Due to its arc design, the plate is ideal for stabilizing fractures of the zygomatic arch, a common site of facial trauma. The plate helps to restore the natural curvature and alignment of the facial skeleton.

Mandibular Fractures

For fractures of the mandible, particularly in the body and angle regions, the plate provides stable fixation to ensure proper bone healing and prevent long-term complications such as malocclusion or deformity.

Orbital Fractures

The plate can be used to stabilize orbital fractures, providing both functional and aesthetic restoration of the eye socket, which is critical for preserving vision and facial symmetry.

Maxillary Fractures

In cases of mid-facial trauma or Le Fort fractures, the plate helps to maintain alignment and prevent shifting, which is essential for functional restoration of the upper jaw and dental occlusion.

Comminuted Fractures

For fractures that involve multiple bone fragments, the plate ensures that all fragments are securely fixed, allowing for proper healing without malalignment.

Complex Fractures

The ability to insert screws at various angles allows the plate to be used in more complex fractures, providing a tailored approach to fracture fixation and ensuring maximum stability.

Risks of 2.0 Maxillofacial Mini Locking 120° Arc Plate Surgery

Infection

While the materials used in the plate are biocompatible, there is still a risk of infection at the surgical site, particularly if proper aseptic techniques are not followed during the procedure.

Nerve Injury

Given the proximity of facial nerves, such as the facial nerve, to the surgical site, there is a risk of nerve damage, which could result in facial weakness, numbness, or other complications.

Plate Displacement

Although the locking mechanism provides superior fixation, there is still a risk of plate displacement, especially if the bone fails to heal correctly or if there is excessive stress placed on the fractured area.

Allergic Reactions

Some patients may have allergic reactions to the metal materials, such as titanium or stainless steel, although this is relatively rare.

Delayed Healing or Nonunion

In some cases, the bone may fail to heal properly, either due to poor vascular supply, infection, or mechanical failure of the plate. This can require additional surgeries to address.

Cosmetic Deformities

In rare cases, improper placement or complications during the surgery could lead to visible deformities or scars, particularly in the highly sensitive facial region.

2.0 Maxillofacial Mini Locking 120° Arc Plate Future Marke

Rising Incidence of Facial Trauma

 With increasing accidents, sports injuries, and violent incidents, there is a growing demand for effective fracture fixation devices in the maxillofacial region.

Technological Advancements

Ongoing advancements in biomaterials, surgical techniques, and implant designs are likely to improve the performance of locking plates, increasing their adoption in maxillofacial surgeries.

Aging Population

 As the global population ages, the incidence of conditions such as osteoporosis, which can contribute to facial fractures, is expected to rise, driving demand for advanced fracture fixation solutions.

Expansion of Healthcare Access

Emerging markets, particularly in Asia and Africa, are experiencing improved access to healthcare, which will increase the global demand for advanced surgical implants, including the 2.0 Maxillofacial Mini Locking 120° Arc Plate.

Summary

Warm reminder: This article is for reference only and cannot replace the doctor's professional advice. If you have any questions, please consult your attending physician.