Locking plate
WASTON
11809
10/12/14/15
130/156/182/208
Ti
11809
| Quantity: | |
|---|---|
1.3.5 Coaxial Combined Hole J-shape Reconstuction Plates Specifications
| Code | Holes | Length | |
| 11809-010 | L | 10 | 130 |
| 11809-110 | R | ||
| 11809-012 | L | 12 | 156 |
| 11809-112 | R | ||
| 11809-014 | L | 14 | 182 |
| 11809-114 | R | ||
| 11809-016 | L | 16 | 208 |
| 11809-116 | R | ||
Material and Strength:
High-Strength Alloy: Typically made from high-strength stainless steel or titanium, ensuring durability and biocompatibility.
Corrosion Resistant: Materials are resistant to corrosion, enhancing longevity and reliability.
Design and Shape:
J-Shape Design: Specifically contoured to match the complex anatomy of the pelvis, providing an optimal fit and facilitating precise reconstruction.
Anatomical Contour: The plate is pre-contoured to fit the natural curves of the pelvic bones, minimizing the need for intraoperative bending.
Locking Mechanism:
Locking Screws: Screws lock into the plate, creating a stable, fixed-angle construct which is beneficial for maintaining fracture reduction, particularly in osteoporotic or comminuted fractures.
Threaded Screw Holes: Ensure secure engagement of locking screws, enhancing overall fixation stability.
Coaxial Combined Holes:
Versatile Screw Placement: The coaxial combined holes allow for the use of both locking and non-locking screws, providing flexibility in achieving optimal screw placement and stability.
Enhanced Fixation: The design of the holes facilitates secure fixation in various fracture configurations, promoting stable bone healing.
Angular Stability:
Fixed-Angle Construct: The locking mechanism offers angular stability, crucial for maintaining alignment in complex pelvic fractures and reducing the risk of screw loosening.
Load Distribution:
Even Stress Distribution: Ensures uniform distribution of mechanical stress across the plate, reducing the risk of implant failure and promoting fracture healing.
Minimally Invasive Compatibility:
MIPO Technique: Compatible with minimally invasive plate osteosynthesis (MIPO) techniques, promoting faster recovery and less soft tissue disruption.
Reduced Soft Tissue Irritation: The low-profile design and anatomical contour minimize soft tissue irritation, reducing post-operative discomfort.
Radiolucency and Imaging:
Minimal Imaging Artifacts: The design minimizes interference with radiographic imaging, facilitating accurate post-operative assessment and monitoring of the healing process.
Ease of Use:
Pre-Contoured Design: Simplifies the surgical procedure, reducing operative time and the need for plate bending.
Screw Insertion Guides: Some systems include guides to assist in accurate screw placement, enhancing the precision of the fixation.
Clinical Applications:
Pelvic Ring Fractures: Ideal for the fixation of complex pelvic ring fractures where anatomical alignment and stable fixation are critical.
Acetabular Fractures: Suitable for fractures involving the acetabulum, requiring precise anatomical reconstruction.
Reconstructive Surgeries: Used in procedures to reconstruct the pelvis following trauma, tumor resection, or congenital deformities.
Osteotomies and Fusions: Can be used in corrective osteotomies and joint fusions, providing stable fixation in these procedures.
Enhanced Stability: The locking mechanism provides superior stability, particularly in complex and comminuted fractures.
Improved Healing: Stable fixation promotes better bone healing and reduces the risk of complications such as nonunion or malunion.
Versatility: Suitable for a wide range of pelvic fractures and reconstructive procedures.
Reduced Complications: Low-profile and anatomical design reduce the risk of hardware-related complications, such as soft tissue irritation or implant prominence.
Early Mobilization: The stability provided by the locking mechanism allows for earlier mobilization of the patient, improving functional outcomes and reducing recovery time.
The Pelvic J-shape Reconstruction Plate is a versatile and effective solution for managing complex pelvic fractures and reconstructive surgeries, providing reliable fixation, reduced complications, and promoting optimal healing outcomes.
The 3.5 Coaxial Combined Hole J-shape Reconstruction Plates are orthopedic implants designed for specific anatomical and surgical needs. Here are the primary indications for their use:
Symphysis Pubis Fractures: These plates are specifically designed for the stabilization and reconstruction of symphysis pubis fractures, which involve the joint between the two pubic bones in the pelvis.
Pelvic Ring Injuries: They are used in the treatment of pelvic ring disruptions, providing stability to the anterior part of the pelvic ring.
Acetabular Fractures: In some cases, these plates can be used to address fractures of the acetabulum (the socket of the hip joint), especially when these fractures extend to the pubic region.
Osteotomy Fixation: The plates can be used to fixate bones after osteotomies (surgical cutting of bone) in the pelvic region, ensuring proper alignment and stabilization.
Complex Pelvic Fractures: They are indicated for complex fractures involving multiple breaks or comminuted fractures (where the bone is shattered into several pieces) in the pelvic area.
Reconstructive Surgery: These plates are used in reconstructive surgeries where previous fractures or surgical interventions have led to instability or malunion of the pelvic bones.
Non-union or Malunion: They can be employed to treat non-union (failure of bone healing) or malunion (healing in an incorrect position) of fractures in the pelvic region.
Post-Traumatic Deformities: Indicated for the correction of post-traumatic deformities where the normal anatomy of the pelvic bones has been altered due to previous injuries.
The J-shape design of the plates provides anatomical conformity, making them particularly useful in cases where precise anatomical alignment and stabilization of the pelvic bones are required. This design ensures a better fit, reduces surgical time, and enhances the overall stability of the reconstruction.
locking copmression plate brochure.pdf
These plates are designed for the fixation and reconstruction of complex fractures and osteotomies, particularly in the pelvic region. They are suitable for pelvic ring fractures, acetabular fractures, osteoporotic fractures, comminuted fractures, reconstructive surgeries, corrective osteotomies, joint fusions, and pathologic fractures.
The plates are indicated for:
Pelvic ring fractures
Acetabular fractures
Osteoporotic bone fractures
Comminuted fractures
Intra-articular and peri-articular fractures
Pathologic fractures
Key benefits include:
High-strength and durability
Anatomical contour for a better fit
Low-profile design to minimize soft tissue irritation
Locking mechanism for superior stability
Versatile screw placement with coaxial combined holes
Compatibility with minimally invasive surgical techniques
The locking screws lock into the plate, creating a stable, fixed-angle construct. This mechanism is particularly beneficial in osteoporotic bone or multifragmentary fractures, as it offers superior stability compared to conventional screws.
The coaxial combined holes allow for the use of both locking and non-locking screws, providing flexibility in achieving optimal screw placement and stability. This design facilitates secure fixation in various fracture configurations, promoting stable bone healing.
Yes, the plate is particularly beneficial for fractures in patients with osteoporotic bone, where traditional fixation methods may not provide sufficient stability.
Yes, the plate is indicated for use in revision surgeries where previous fixation has failed or where additional stabilization is required.
The plate is compatible with minimally invasive plate osteosynthesis (MIPO) techniques, which promote faster recovery and reduce soft tissue disruption.
The anatomical contour and low-profile design of the plate reduce soft tissue irritation, minimizing post-operative discomfort. The enhanced stability provided by the locking mechanism allows for earlier mobilization, improving functional outcomes and reducing recovery time.
The plate is typically made from high-strength stainless steel or titanium alloy, ensuring durability, biocompatibility, and resistance to corrosion.
The design of the plate minimizes interference with radiographic imaging, facilitating accurate post-operative assessment and monitoring of the healing process.
As with any surgical procedure, potential complications can include infection, hardware failure, nonunion or delayed union of the fracture, and soft tissue irritation. However, the design of the plate aims to minimize these risks.
Recovery time varies based on the severity of the fracture, the patient's overall health, and adherence to rehabilitation protocols. The enhanced stability provided by the plate often allows for earlier mobilization, potentially reducing overall recovery time.
Pelvic ring fractures
Acetabular fractures
Osteoporotic bone fractures
Comminuted fractures
Intra-articular and peri-articular fractures
Reconstructive surgeries
Corrective osteotomies
Joint fusions
Pathologic fractures
The Coaxial Combined Hole J-shape Reconstruction Plate is a versatile and effective solution for managing complex fractures and reconstructive surgeries, providing reliable fixation, reduced complications, and promoting optimal healing outcomes.
1.3.5 Coaxial Combined Hole J-shape Reconstuction Plates Specifications
| Code | Holes | Length | |
| 11809-010 | L | 10 | 130 |
| 11809-110 | R | ||
| 11809-012 | L | 12 | 156 |
| 11809-112 | R | ||
| 11809-014 | L | 14 | 182 |
| 11809-114 | R | ||
| 11809-016 | L | 16 | 208 |
| 11809-116 | R | ||
Material and Strength:
High-Strength Alloy: Typically made from high-strength stainless steel or titanium, ensuring durability and biocompatibility.
Corrosion Resistant: Materials are resistant to corrosion, enhancing longevity and reliability.
Design and Shape:
J-Shape Design: Specifically contoured to match the complex anatomy of the pelvis, providing an optimal fit and facilitating precise reconstruction.
Anatomical Contour: The plate is pre-contoured to fit the natural curves of the pelvic bones, minimizing the need for intraoperative bending.
Locking Mechanism:
Locking Screws: Screws lock into the plate, creating a stable, fixed-angle construct which is beneficial for maintaining fracture reduction, particularly in osteoporotic or comminuted fractures.
Threaded Screw Holes: Ensure secure engagement of locking screws, enhancing overall fixation stability.
Coaxial Combined Holes:
Versatile Screw Placement: The coaxial combined holes allow for the use of both locking and non-locking screws, providing flexibility in achieving optimal screw placement and stability.
Enhanced Fixation: The design of the holes facilitates secure fixation in various fracture configurations, promoting stable bone healing.
Angular Stability:
Fixed-Angle Construct: The locking mechanism offers angular stability, crucial for maintaining alignment in complex pelvic fractures and reducing the risk of screw loosening.
Load Distribution:
Even Stress Distribution: Ensures uniform distribution of mechanical stress across the plate, reducing the risk of implant failure and promoting fracture healing.
Minimally Invasive Compatibility:
MIPO Technique: Compatible with minimally invasive plate osteosynthesis (MIPO) techniques, promoting faster recovery and less soft tissue disruption.
Reduced Soft Tissue Irritation: The low-profile design and anatomical contour minimize soft tissue irritation, reducing post-operative discomfort.
Radiolucency and Imaging:
Minimal Imaging Artifacts: The design minimizes interference with radiographic imaging, facilitating accurate post-operative assessment and monitoring of the healing process.
Ease of Use:
Pre-Contoured Design: Simplifies the surgical procedure, reducing operative time and the need for plate bending.
Screw Insertion Guides: Some systems include guides to assist in accurate screw placement, enhancing the precision of the fixation.
Clinical Applications:
Pelvic Ring Fractures: Ideal for the fixation of complex pelvic ring fractures where anatomical alignment and stable fixation are critical.
Acetabular Fractures: Suitable for fractures involving the acetabulum, requiring precise anatomical reconstruction.
Reconstructive Surgeries: Used in procedures to reconstruct the pelvis following trauma, tumor resection, or congenital deformities.
Osteotomies and Fusions: Can be used in corrective osteotomies and joint fusions, providing stable fixation in these procedures.
Enhanced Stability: The locking mechanism provides superior stability, particularly in complex and comminuted fractures.
Improved Healing: Stable fixation promotes better bone healing and reduces the risk of complications such as nonunion or malunion.
Versatility: Suitable for a wide range of pelvic fractures and reconstructive procedures.
Reduced Complications: Low-profile and anatomical design reduce the risk of hardware-related complications, such as soft tissue irritation or implant prominence.
Early Mobilization: The stability provided by the locking mechanism allows for earlier mobilization of the patient, improving functional outcomes and reducing recovery time.
The Pelvic J-shape Reconstruction Plate is a versatile and effective solution for managing complex pelvic fractures and reconstructive surgeries, providing reliable fixation, reduced complications, and promoting optimal healing outcomes.
The 3.5 Coaxial Combined Hole J-shape Reconstruction Plates are orthopedic implants designed for specific anatomical and surgical needs. Here are the primary indications for their use:
Symphysis Pubis Fractures: These plates are specifically designed for the stabilization and reconstruction of symphysis pubis fractures, which involve the joint between the two pubic bones in the pelvis.
Pelvic Ring Injuries: They are used in the treatment of pelvic ring disruptions, providing stability to the anterior part of the pelvic ring.
Acetabular Fractures: In some cases, these plates can be used to address fractures of the acetabulum (the socket of the hip joint), especially when these fractures extend to the pubic region.
Osteotomy Fixation: The plates can be used to fixate bones after osteotomies (surgical cutting of bone) in the pelvic region, ensuring proper alignment and stabilization.
Complex Pelvic Fractures: They are indicated for complex fractures involving multiple breaks or comminuted fractures (where the bone is shattered into several pieces) in the pelvic area.
Reconstructive Surgery: These plates are used in reconstructive surgeries where previous fractures or surgical interventions have led to instability or malunion of the pelvic bones.
Non-union or Malunion: They can be employed to treat non-union (failure of bone healing) or malunion (healing in an incorrect position) of fractures in the pelvic region.
Post-Traumatic Deformities: Indicated for the correction of post-traumatic deformities where the normal anatomy of the pelvic bones has been altered due to previous injuries.
The J-shape design of the plates provides anatomical conformity, making them particularly useful in cases where precise anatomical alignment and stabilization of the pelvic bones are required. This design ensures a better fit, reduces surgical time, and enhances the overall stability of the reconstruction.
locking copmression plate brochure.pdf
These plates are designed for the fixation and reconstruction of complex fractures and osteotomies, particularly in the pelvic region. They are suitable for pelvic ring fractures, acetabular fractures, osteoporotic fractures, comminuted fractures, reconstructive surgeries, corrective osteotomies, joint fusions, and pathologic fractures.
The plates are indicated for:
Pelvic ring fractures
Acetabular fractures
Osteoporotic bone fractures
Comminuted fractures
Intra-articular and peri-articular fractures
Pathologic fractures
Key benefits include:
High-strength and durability
Anatomical contour for a better fit
Low-profile design to minimize soft tissue irritation
Locking mechanism for superior stability
Versatile screw placement with coaxial combined holes
Compatibility with minimally invasive surgical techniques
The locking screws lock into the plate, creating a stable, fixed-angle construct. This mechanism is particularly beneficial in osteoporotic bone or multifragmentary fractures, as it offers superior stability compared to conventional screws.
The coaxial combined holes allow for the use of both locking and non-locking screws, providing flexibility in achieving optimal screw placement and stability. This design facilitates secure fixation in various fracture configurations, promoting stable bone healing.
Yes, the plate is particularly beneficial for fractures in patients with osteoporotic bone, where traditional fixation methods may not provide sufficient stability.
Yes, the plate is indicated for use in revision surgeries where previous fixation has failed or where additional stabilization is required.
The plate is compatible with minimally invasive plate osteosynthesis (MIPO) techniques, which promote faster recovery and reduce soft tissue disruption.
The anatomical contour and low-profile design of the plate reduce soft tissue irritation, minimizing post-operative discomfort. The enhanced stability provided by the locking mechanism allows for earlier mobilization, improving functional outcomes and reducing recovery time.
The plate is typically made from high-strength stainless steel or titanium alloy, ensuring durability, biocompatibility, and resistance to corrosion.
The design of the plate minimizes interference with radiographic imaging, facilitating accurate post-operative assessment and monitoring of the healing process.
As with any surgical procedure, potential complications can include infection, hardware failure, nonunion or delayed union of the fracture, and soft tissue irritation. However, the design of the plate aims to minimize these risks.
Recovery time varies based on the severity of the fracture, the patient's overall health, and adherence to rehabilitation protocols. The enhanced stability provided by the plate often allows for earlier mobilization, potentially reducing overall recovery time.
Pelvic ring fractures
Acetabular fractures
Osteoporotic bone fractures
Comminuted fractures
Intra-articular and peri-articular fractures
Reconstructive surgeries
Corrective osteotomies
Joint fusions
Pathologic fractures
The Coaxial Combined Hole J-shape Reconstruction Plate is a versatile and effective solution for managing complex fractures and reconstructive surgeries, providing reliable fixation, reduced complications, and promoting optimal healing outcomes.
