Locking plate
WASTON
71038
4/5
33.2/40
Ti
71038
| Quantity: | |
|---|---|
| Code | Holes | Length |
| 71038-004 | 4 | 33.2 |
| 71038-005 | 5 | 40 |
The 2.0 Y-shaped locking plate II is a specific type of orthopedic implant used primarily for fractures, particularly in small bones such as those in the wrist or forearm. Here are some key features of this implant:
Titanium or Stainless Steel: The plate is typically made from biocompatible materials like titanium or stainless steel, which are strong, lightweight, and resistant to corrosion.
Y shape: The Y-shaped design features a broader head with three screw holes, allowing for multiple points of fixation in the bone fragment, which helps in stabilizing the fracture and distributing forces evenly.
Shaft: The vertical part of the Y has additional holes for screws that secure the plate to the bone shaft, providing longitudinal stability.
Locking Mechanism: The screws used with this plate are designed to lock into the plate, creating a fixed-angle construct. This prevents the screws from moving independently of the plate, providing better stability, especially in osteoporotic bone or complex fractures.
Improved Load Distribution: The locking system distributes mechanical load more effectively across the plate and bone, reducing the risk of screw loosening or plate failure.
Minimized Soft Tissue Irritation: The plate has a low-profile design to minimize irritation to the surrounding soft tissue, which is crucial in areas with limited soft tissue coverage like the wrist.
Contourability: Some plates are pre-contoured to fit specific anatomical regions, or they may be slightly bendable to better fit the patient’s unique bone structure.
Multiple Lengths and Configurations: The 2.0 Y-shaped locking plate II comes in various lengths and configurations to accommodate different fracture patterns and anatomical requirements.
Usage in Different Bones: While commonly used in distal radius fractures, it can also be used in other small bones depending on the clinical need.
X-Ray Visibility: These plates are designed to be radiolucent, meaning they don’t interfere with X-rays, allowing for clear post-operative imaging to assess the placement and healing of the fracture.
This type of plate is commonly used in orthopedic surgeries to ensure precise and stable fixation, especially in complex fractures or in bones with poor quality (osteoporotic) bone.
The 2.0 Y-shaped locking plate II is typically used in orthopedic surgeries to stabilize fractures, particularly in small bones. Here are the primary indications for using this type of plate:
Indication: This plate is commonly used for fractures of the distal radius, especially when the fracture involves the joint surface or is comminuted (broken into several pieces).
Benefit: The Y-shaped design allows for stable fixation in this anatomically complex area, helping to maintain the alignment of the bone fragments during healing.
Indication: Patients with osteoporosis are at a higher risk of fractures and may have poor bone quality, making stable fixation challenging.
Benefit: The locking mechanism of the plate provides a fixed-angle construct that is particularly beneficial in osteoporotic bones, as it reduces the risk of screw loosening and maintains stability.
Indication: Intra-articular fractures, where the break extends into the joint surface, require precise alignment and stable fixation to prevent joint dysfunction.
Benefit: The 2 head holes in the Y-shaped plate allow for multiple points of fixation, which helps in maintaining the proper alignment of the joint surface and preventing post-traumatic arthritis.
Indication: Complex fractures with multiple bone fragments (comminuted fractures) require a stable fixation system that can hold the fragments in place.
Benefit: The Y-shaped design provides multiple fixation points, allowing the surgeon to stabilize the various fragments and achieve proper bone healing.
Indication: Fractures that occur in the metaphysis (the wider part of the bone near the joint) often need specialized fixation due to the bone’s geometry.
Benefit: The Y-shaped locking plate is well-suited for these fractures, as its design accommodates the unique shape of the metaphyseal region and provides secure fixation.
Indication: In cases where non-operative treatment (such as casting or bracing) has failed to achieve bone healing or alignment, surgical intervention with a locking plate may be indicated.
Benefit: The 2.0 Y-shaped locking plate II offers a reliable surgical solution to achieve stable fixation and promote proper healing.
Indication: A malunion occurs when a fracture heals in an incorrect position. Surgical correction with a T-shaped locking plate may be necessary to realign the bone.
Benefit: The locking plate can help to stabilize the bone in the corrected position, ensuring proper alignment and function.
Indication: These fractures occur near a joint and often require stable fixation to preserve joint function and prevent deformity.
Benefit: The 2 head holes provide multiple fixation points, which is crucial in maintaining joint stability and alignment during healing.
Indication: In cases where soft tissue damage is present alongside the fracture, the low-profile design of the Y-shaped locking plate minimizes soft tissue irritation.
Benefit: The plate provides stable fixation while reducing the risk of further soft tissue damage.
These indications highlight the versatility and utility of the 2.0 Y-shaped locking plate II in managing various types of fractures, particularly in small bones with complex anatomical requirements.
locking copmression plate brochure.pdf
Answer: This plate is primarily used for the fixation of fractures in small bones, such as the distal radius (wrist), especially in cases where stable fixation is crucial for proper healing. The T-shaped design with 2 head holes allows for secure fixation in the bone fragment and optimal distribution of forces.
Answer: The "2.0" refers to the diameter of the screws in millimeters that are compatible with this specific locking plate. These screws are designed to fit precisely into the plate's holes, ensuring a secure and stable fixation.
Answer: The locking mechanism involves screws that lock into the plate rather than just pressing against the bone. This creates a fixed-angle construct that is more stable, particularly beneficial in osteoporotic bone or complex fracture patterns where traditional screws might not hold as securely.
Answer: The 2 head holes allow for multiple screws to be placed in the fracture fragment, providing greater stability and better distribution of mechanical forces. This design helps in maintaining the correct alignment of the bone during the healing process.
Answer: Yes, while many plates are pre-contoured to fit specific anatomical regions, the 2.0 T-shaped locking plate is also slightly bendable, allowing surgeons to adjust the plate to match the patient’s unique bone structure if necessary.
Answer: The plate is designed to be radiolucent, meaning it allows X-rays to pass through, which helps in getting clear post-operative images. This feature is important for monitoring the healing process and ensuring that the fracture is properly aligned.
Answer: The plate is typically made from titanium or stainless steel. These materials are chosen for their biocompatibility, strength, and resistance to corrosion, making them suitable for long-term implantation in the body.
Answer: Locking plates provide a more stable fixation, especially in bones with poor quality (osteoporotic) or in complex fractures. The fixed-angle construct created by the locking mechanism reduces the risk of screw loosening and allows for better load distribution across the fracture site.
Answer: Yes, the 2.0 Y-shaped locking plate I comes in various lengths and configurations to accommodate different fracture patterns and anatomical requirements. Surgeons can choose the most appropriate size based on the specific clinical situation.
Answer: Yes, the plate can be removed after the bone has healed if necessary. However, in many cases, the plate may be left in place unless it causes discomfort or complications, as it is made from biocompatible materials that are well tolerated by the body.
| Code | Holes | Length |
| 71038-004 | 4 | 33.2 |
| 71038-005 | 5 | 40 |
The 2.0 Y-shaped locking plate II is a specific type of orthopedic implant used primarily for fractures, particularly in small bones such as those in the wrist or forearm. Here are some key features of this implant:
Titanium or Stainless Steel: The plate is typically made from biocompatible materials like titanium or stainless steel, which are strong, lightweight, and resistant to corrosion.
Y shape: The Y-shaped design features a broader head with three screw holes, allowing for multiple points of fixation in the bone fragment, which helps in stabilizing the fracture and distributing forces evenly.
Shaft: The vertical part of the Y has additional holes for screws that secure the plate to the bone shaft, providing longitudinal stability.
Locking Mechanism: The screws used with this plate are designed to lock into the plate, creating a fixed-angle construct. This prevents the screws from moving independently of the plate, providing better stability, especially in osteoporotic bone or complex fractures.
Improved Load Distribution: The locking system distributes mechanical load more effectively across the plate and bone, reducing the risk of screw loosening or plate failure.
Minimized Soft Tissue Irritation: The plate has a low-profile design to minimize irritation to the surrounding soft tissue, which is crucial in areas with limited soft tissue coverage like the wrist.
Contourability: Some plates are pre-contoured to fit specific anatomical regions, or they may be slightly bendable to better fit the patient’s unique bone structure.
Multiple Lengths and Configurations: The 2.0 Y-shaped locking plate II comes in various lengths and configurations to accommodate different fracture patterns and anatomical requirements.
Usage in Different Bones: While commonly used in distal radius fractures, it can also be used in other small bones depending on the clinical need.
X-Ray Visibility: These plates are designed to be radiolucent, meaning they don’t interfere with X-rays, allowing for clear post-operative imaging to assess the placement and healing of the fracture.
This type of plate is commonly used in orthopedic surgeries to ensure precise and stable fixation, especially in complex fractures or in bones with poor quality (osteoporotic) bone.
The 2.0 Y-shaped locking plate II is typically used in orthopedic surgeries to stabilize fractures, particularly in small bones. Here are the primary indications for using this type of plate:
Indication: This plate is commonly used for fractures of the distal radius, especially when the fracture involves the joint surface or is comminuted (broken into several pieces).
Benefit: The Y-shaped design allows for stable fixation in this anatomically complex area, helping to maintain the alignment of the bone fragments during healing.
Indication: Patients with osteoporosis are at a higher risk of fractures and may have poor bone quality, making stable fixation challenging.
Benefit: The locking mechanism of the plate provides a fixed-angle construct that is particularly beneficial in osteoporotic bones, as it reduces the risk of screw loosening and maintains stability.
Indication: Intra-articular fractures, where the break extends into the joint surface, require precise alignment and stable fixation to prevent joint dysfunction.
Benefit: The 2 head holes in the Y-shaped plate allow for multiple points of fixation, which helps in maintaining the proper alignment of the joint surface and preventing post-traumatic arthritis.
Indication: Complex fractures with multiple bone fragments (comminuted fractures) require a stable fixation system that can hold the fragments in place.
Benefit: The Y-shaped design provides multiple fixation points, allowing the surgeon to stabilize the various fragments and achieve proper bone healing.
Indication: Fractures that occur in the metaphysis (the wider part of the bone near the joint) often need specialized fixation due to the bone’s geometry.
Benefit: The Y-shaped locking plate is well-suited for these fractures, as its design accommodates the unique shape of the metaphyseal region and provides secure fixation.
Indication: In cases where non-operative treatment (such as casting or bracing) has failed to achieve bone healing or alignment, surgical intervention with a locking plate may be indicated.
Benefit: The 2.0 Y-shaped locking plate II offers a reliable surgical solution to achieve stable fixation and promote proper healing.
Indication: A malunion occurs when a fracture heals in an incorrect position. Surgical correction with a T-shaped locking plate may be necessary to realign the bone.
Benefit: The locking plate can help to stabilize the bone in the corrected position, ensuring proper alignment and function.
Indication: These fractures occur near a joint and often require stable fixation to preserve joint function and prevent deformity.
Benefit: The 2 head holes provide multiple fixation points, which is crucial in maintaining joint stability and alignment during healing.
Indication: In cases where soft tissue damage is present alongside the fracture, the low-profile design of the Y-shaped locking plate minimizes soft tissue irritation.
Benefit: The plate provides stable fixation while reducing the risk of further soft tissue damage.
These indications highlight the versatility and utility of the 2.0 Y-shaped locking plate II in managing various types of fractures, particularly in small bones with complex anatomical requirements.
locking copmression plate brochure.pdf
Answer: This plate is primarily used for the fixation of fractures in small bones, such as the distal radius (wrist), especially in cases where stable fixation is crucial for proper healing. The T-shaped design with 2 head holes allows for secure fixation in the bone fragment and optimal distribution of forces.
Answer: The "2.0" refers to the diameter of the screws in millimeters that are compatible with this specific locking plate. These screws are designed to fit precisely into the plate's holes, ensuring a secure and stable fixation.
Answer: The locking mechanism involves screws that lock into the plate rather than just pressing against the bone. This creates a fixed-angle construct that is more stable, particularly beneficial in osteoporotic bone or complex fracture patterns where traditional screws might not hold as securely.
Answer: The 2 head holes allow for multiple screws to be placed in the fracture fragment, providing greater stability and better distribution of mechanical forces. This design helps in maintaining the correct alignment of the bone during the healing process.
Answer: Yes, while many plates are pre-contoured to fit specific anatomical regions, the 2.0 T-shaped locking plate is also slightly bendable, allowing surgeons to adjust the plate to match the patient’s unique bone structure if necessary.
Answer: The plate is designed to be radiolucent, meaning it allows X-rays to pass through, which helps in getting clear post-operative images. This feature is important for monitoring the healing process and ensuring that the fracture is properly aligned.
Answer: The plate is typically made from titanium or stainless steel. These materials are chosen for their biocompatibility, strength, and resistance to corrosion, making them suitable for long-term implantation in the body.
Answer: Locking plates provide a more stable fixation, especially in bones with poor quality (osteoporotic) or in complex fractures. The fixed-angle construct created by the locking mechanism reduces the risk of screw loosening and allows for better load distribution across the fracture site.
Answer: Yes, the 2.0 Y-shaped locking plate I comes in various lengths and configurations to accommodate different fracture patterns and anatomical requirements. Surgeons can choose the most appropriate size based on the specific clinical situation.
Answer: Yes, the plate can be removed after the bone has healed if necessary. However, in many cases, the plate may be left in place unless it causes discomfort or complications, as it is made from biocompatible materials that are well tolerated by the body.
