Locking Comprssion plate
Waston
70740
3/4/5/6/7/9/11/13
84/97/110/136/162/188/214
Ti
70740
| Quantity: | |
|---|---|
| Code | Holes | Length | ||
| 30722-005 | L | 5 | 161 | |
| 30722-105 | R | |||
| 30722-007 | L | 7 | 201 | |
| 30722-107 | R | |||
| 30722-009 | L | 9 | 241 | |
| 30722-109 | R | |||
| 30722-011 | L | 11 | 281 | |
| 30722-111 | R | |||
| 30722-013 | L | 13 | 321 | |
| 30722-113 | R | |||
The Distal Lateral Femoral Locking Plate (DLFLP) is a specialized orthopedic implant used in the treatment of fractures in the distal lateral fibular. This device is designed to provide stable fixation and promote proper healing of complex fractures, including those that are comminuted or involve the joint surface. Here are the key features and benefits of the Distal Lateral Femoral Locking Plate:
Anatomic Design:
Contour Matching: The plate is pre-contoured to match the natural anatomy of the distal fibula, minimizing the need for intraoperative bending and reducing soft tissue irritation.
Low Profile: A low-profile design reduces the prominence of the implant under the skin and minimizes soft tissue irritation.
Locking Screw Technology:
Stability: Locking screws create a fixed-angle construct, which enhances the stability of the fracture fixation, especially in osteoporotic bone.
Polyaxial Locking: Some systems offer polyaxial locking, allowing for some degree of variability in screw placement angles, providing better adaptability to the patient’s anatomy.
Multiple Screw Options:
Versatility: The plate typically allows for multiple screw options, including locking, non-locking, and cannulated screws, giving surgeons flexibility in fixation strategies.
Optimal Screw Placement: Strategic screw hole placement facilitates optimal fixation of both the distal fragment and the shaft, ensuring secure and stable fracture fixation.
Fixed-Angle Construct:
Biomechanical Strength: The fixed-angle nature of the locking screws provides a stable and strong construct, which is particularly beneficial in complex and comminuted fractures.
Load Sharing: The design allows for load sharing between the plate and bone, promoting better healing and reducing the risk of implant failure.
Instrumentation:
Precise Alignment: Advanced instrumentation systems facilitate accurate placement of the plate and screws, ensuring proper alignment and fixation of the fracture.
Ease of Use: User-friendly instrumentation simplifies the surgical procedure and reduces operative time.
Enhanced Stability:
The locking plate provides excellent stability, especially in osteoporotic or comminuted bone, promoting better healing outcomes.
Minimally Invasive:
A minimally invasive surgical technique can often be employed, reducing soft tissue damage, minimizing scarring, and promoting faster recovery.
Versatile Application:
Suitable for various types of distal lateral fibular fractures, including intra-articular, extra-articular, and periprosthetic fractures.
Improved Outcomes:
By providing stable fixation and promoting proper anatomical alignment, the DLFLP helps in achieving better functional outcomes and quicker return to mobility.
Reduced Complications:
The stable construct reduces the risk of non-union, malunion, and other complications associated with distal lateral fibular fractures.
Overall, the Distal Lateral Femoral Locking Plate is a crucial tool in the orthopedic surgeon’s arsenal, designed to address the unique challenges presented by distal lateral fibular fractures and enhance patient outcomes through stable and reliable fixation.
Distal fibular fractures, including simple, comminuted, and osteoporotic fractures.
Ankle fractures with involvement of the distal fibula.
Syndesmotic injuries requiring stabilization.
Fractures that extend into the ankle joint (intra-articular fractures).
locking copmression plate brochure.pdf
Distal Lateral Fibular Locking Compression Plate is a specialized orthopedic implant designed to stabilize fractures in the distal lateral fibular. It uses locking screws to create a fixed-angle construct, providing stable and reliable fixation, especially in complex or osteoporotic fractures.
The DLFLP is used for various types of distal lateral fibular fractures, including:
●Comminuted fractures (multiple fragments).
●Intra-articular fractures (involving the joint surface).
●Extra-articular fractures (not involving the joint surface).
●Periprosthetic fractures (around a joint prosthesis).
●Osteoporotic fractures (in patients with weakened bone).
●Stable Fixation: Locking screws provide a fixed-angle construct, ensuring stable fixation even in weak bone.
●Anatomic Design: The plate is pre-contoured to match the natural anatomy of the fibular, reducing the need for intraoperative bending and minimizing soft tissue irritation.
●Versatility: Suitable for various fracture patterns and patient anatomies.
●Early Mobilization: The stability of the fixation allows for early weight-bearing and rehabilitation, promoting faster recovery.
●Reduced Complications: The design reduces the risk of malunion (improper healing) and non-union (failure to heal).
●Preoperative Planning: Radiographic assessment to understand the fracture pattern and plan the surgery.
●Patient Positioning: Typically supine, with the leg accessible.
●Incision and Exposure: A lateral incision over the distal fibular, exposing the fracture site.
●Fracture Reduction: Anatomically reduce the fracture using clamps and guide wires.
●Plate Placement: Position the pre-contoured plate along the lateral aspect of the fibular.
●Screw Fixation: Insert locking screws through the plate holes into the bone.
●Intraoperative Imaging: Use fluoroscopy to ensure proper alignment and fixation.
●Closure: Close soft tissues and skin in layers.
●Immobilization: Initially, a splint or brace may be used to protect the surgical site.
●Weight-bearing: Recommendations vary based on fracture stability and patient condition; gradual weight-bearing is typically encouraged.
●Rehabilitation: Physical therapy to restore function, strength, and range of motion.
●Follow-up: Regular X-rays to monitor fracture healing and alignment.
●Infection: As with any surgical procedure, there is a risk of infection.
●Implant Failure: Rarely, the plate or screws may fail, particularly if the bone quality is poor.
●Non-union or Malunion: The fracture may not heal properly, necessitating further intervention.
●Soft Tissue Irritation: The implant may cause irritation to surrounding soft tissues, though this is minimized with a low-profile design.
Recovery time varies depending on the severity of the fracture, patient health, and adherence to rehabilitation protocols. Generally, patients can expect to begin weight-bearing within a few weeks, with complete recovery and return to normal activities taking several months.
Alternative treatments include:
●Intramedullary Nails: Rods inserted into the bone marrow canal.
●External Fixation: Metal frames outside the body to stabilize the fracture.
●Non-locking Plates and Screws: Traditional methods without the fixed-angle construct.
●Conservative Management: For less severe fractures, non-surgical treatment with casting or bracing may be considered.
Each treatment option has specific indications and is chosen based on the individual patient's needs and fracture characteristics.
| Code | Holes | Length | ||
| 30722-005 | L | 5 | 161 | |
| 30722-105 | R | |||
| 30722-007 | L | 7 | 201 | |
| 30722-107 | R | |||
| 30722-009 | L | 9 | 241 | |
| 30722-109 | R | |||
| 30722-011 | L | 11 | 281 | |
| 30722-111 | R | |||
| 30722-013 | L | 13 | 321 | |
| 30722-113 | R | |||
The Distal Lateral Femoral Locking Plate (DLFLP) is a specialized orthopedic implant used in the treatment of fractures in the distal lateral fibular. This device is designed to provide stable fixation and promote proper healing of complex fractures, including those that are comminuted or involve the joint surface. Here are the key features and benefits of the Distal Lateral Femoral Locking Plate:
Anatomic Design:
Contour Matching: The plate is pre-contoured to match the natural anatomy of the distal fibula, minimizing the need for intraoperative bending and reducing soft tissue irritation.
Low Profile: A low-profile design reduces the prominence of the implant under the skin and minimizes soft tissue irritation.
Locking Screw Technology:
Stability: Locking screws create a fixed-angle construct, which enhances the stability of the fracture fixation, especially in osteoporotic bone.
Polyaxial Locking: Some systems offer polyaxial locking, allowing for some degree of variability in screw placement angles, providing better adaptability to the patient’s anatomy.
Multiple Screw Options:
Versatility: The plate typically allows for multiple screw options, including locking, non-locking, and cannulated screws, giving surgeons flexibility in fixation strategies.
Optimal Screw Placement: Strategic screw hole placement facilitates optimal fixation of both the distal fragment and the shaft, ensuring secure and stable fracture fixation.
Fixed-Angle Construct:
Biomechanical Strength: The fixed-angle nature of the locking screws provides a stable and strong construct, which is particularly beneficial in complex and comminuted fractures.
Load Sharing: The design allows for load sharing between the plate and bone, promoting better healing and reducing the risk of implant failure.
Instrumentation:
Precise Alignment: Advanced instrumentation systems facilitate accurate placement of the plate and screws, ensuring proper alignment and fixation of the fracture.
Ease of Use: User-friendly instrumentation simplifies the surgical procedure and reduces operative time.
Enhanced Stability:
The locking plate provides excellent stability, especially in osteoporotic or comminuted bone, promoting better healing outcomes.
Minimally Invasive:
A minimally invasive surgical technique can often be employed, reducing soft tissue damage, minimizing scarring, and promoting faster recovery.
Versatile Application:
Suitable for various types of distal lateral fibular fractures, including intra-articular, extra-articular, and periprosthetic fractures.
Improved Outcomes:
By providing stable fixation and promoting proper anatomical alignment, the DLFLP helps in achieving better functional outcomes and quicker return to mobility.
Reduced Complications:
The stable construct reduces the risk of non-union, malunion, and other complications associated with distal lateral fibular fractures.
Overall, the Distal Lateral Femoral Locking Plate is a crucial tool in the orthopedic surgeon’s arsenal, designed to address the unique challenges presented by distal lateral fibular fractures and enhance patient outcomes through stable and reliable fixation.
Distal fibular fractures, including simple, comminuted, and osteoporotic fractures.
Ankle fractures with involvement of the distal fibula.
Syndesmotic injuries requiring stabilization.
Fractures that extend into the ankle joint (intra-articular fractures).
locking copmression plate brochure.pdf
Distal Lateral Fibular Locking Compression Plate is a specialized orthopedic implant designed to stabilize fractures in the distal lateral fibular. It uses locking screws to create a fixed-angle construct, providing stable and reliable fixation, especially in complex or osteoporotic fractures.
The DLFLP is used for various types of distal lateral fibular fractures, including:
●Comminuted fractures (multiple fragments).
●Intra-articular fractures (involving the joint surface).
●Extra-articular fractures (not involving the joint surface).
●Periprosthetic fractures (around a joint prosthesis).
●Osteoporotic fractures (in patients with weakened bone).
●Stable Fixation: Locking screws provide a fixed-angle construct, ensuring stable fixation even in weak bone.
●Anatomic Design: The plate is pre-contoured to match the natural anatomy of the fibular, reducing the need for intraoperative bending and minimizing soft tissue irritation.
●Versatility: Suitable for various fracture patterns and patient anatomies.
●Early Mobilization: The stability of the fixation allows for early weight-bearing and rehabilitation, promoting faster recovery.
●Reduced Complications: The design reduces the risk of malunion (improper healing) and non-union (failure to heal).
●Preoperative Planning: Radiographic assessment to understand the fracture pattern and plan the surgery.
●Patient Positioning: Typically supine, with the leg accessible.
●Incision and Exposure: A lateral incision over the distal fibular, exposing the fracture site.
●Fracture Reduction: Anatomically reduce the fracture using clamps and guide wires.
●Plate Placement: Position the pre-contoured plate along the lateral aspect of the fibular.
●Screw Fixation: Insert locking screws through the plate holes into the bone.
●Intraoperative Imaging: Use fluoroscopy to ensure proper alignment and fixation.
●Closure: Close soft tissues and skin in layers.
●Immobilization: Initially, a splint or brace may be used to protect the surgical site.
●Weight-bearing: Recommendations vary based on fracture stability and patient condition; gradual weight-bearing is typically encouraged.
●Rehabilitation: Physical therapy to restore function, strength, and range of motion.
●Follow-up: Regular X-rays to monitor fracture healing and alignment.
●Infection: As with any surgical procedure, there is a risk of infection.
●Implant Failure: Rarely, the plate or screws may fail, particularly if the bone quality is poor.
●Non-union or Malunion: The fracture may not heal properly, necessitating further intervention.
●Soft Tissue Irritation: The implant may cause irritation to surrounding soft tissues, though this is minimized with a low-profile design.
Recovery time varies depending on the severity of the fracture, patient health, and adherence to rehabilitation protocols. Generally, patients can expect to begin weight-bearing within a few weeks, with complete recovery and return to normal activities taking several months.
Alternative treatments include:
●Intramedullary Nails: Rods inserted into the bone marrow canal.
●External Fixation: Metal frames outside the body to stabilize the fracture.
●Non-locking Plates and Screws: Traditional methods without the fixed-angle construct.
●Conservative Management: For less severe fractures, non-surgical treatment with casting or bracing may be considered.
Each treatment option has specific indications and is chosen based on the individual patient's needs and fracture characteristics.
