Locking plate
WASTON
70730
Small/Medium/Large
59/66.5/72.5
Ti
70730
| Quantity: | |
|---|---|
| Code | Type | Length | |
| 70730-259 | L | S | 59 |
| 70730-359 | R | S | |
| 70730-267 | L | M | 66.5 |
| 70730-367 | R | M | |
| 70730-273 | L | L | 72.5 |
| 70730-373 | R | L |
Anatomical Contouring: The plate is precontoured to match the complex anatomy of the calcaneus, providing an optimal fit and reducing the need for intraoperative bending.
Locking Mechanism: Includes threaded holes for locking screws, ensuring angular stability and minimizing the risk of screw loosening.
Low-Profile Design: The plate has a low-profile design to minimize soft tissue irritation and reduce the risk of postoperative complications.
Combination Holes: Supports both locking and non-locking (cortical) screws, offering versatile fixation options.
Multiple Screw Angles: Allows for multi-directional screw placement to accommodate different fracture patterns and ensure secure fixation.
Biocompatible Materials: Typically made from titanium alloy or stainless steel, ensuring durability, strength, and compatibility with the human body.
Locking Screws: Designed to work with locking screws of various sizes, typically ranging from 3.5 mm to 4.0 mm.
Non-Locking Screws: Can also accommodate non-locking (cortical) screws for additional fixation options.
Thickness: Approximately 2.5 mm to 3.0 mm, providing a balance between strength and minimizing bulk.
Length and Width: Varies to fit different patient anatomies and fracture patterns.
Minimally Invasive Surgery (MIS) Capability: Designed to be used with minimally invasive techniques, reducing soft tissue disruption and promoting quicker recovery.
Multiple Screw Holes: The plate includes multiple screw holes to provide adequate fixation points for complex fracture patterns.
Radiolucent Markers: Some versions include radiolucent markers to assist with precise screw placement under imaging guidance.
Enhanced Fixation Stability: Locking screws provide rigid fixation, which is particularly beneficial in osteoporotic bone.
Improved Anatomical Fit: Precontoured design improves the fit and alignment, saving surgical time and improving outcomes.
Versatility in Fixation: Combination holes and multi-directional screw placement offer flexibility in surgical techniques and fixation methods.
Reduced Soft Tissue Irritation: Low-profile design minimizes soft tissue irritation and postoperative complications.
Promotes Faster Recovery: MIS capability reduces soft tissue disruption, leading to faster recovery times.
The Calcaneal Locking Plate I is used primarily for the surgical treatment of fractures and other conditions affecting the calcaneus (heel bone). Below are the main indications for its use:
These indications ensure that the Calcaneal Locking Plate I provides effective and reliable fixation for various calcaneal fractures and deformities, catering to a wide range of clinical scenarios and patient anatomies.
Enhanced Fixation Stability: The locking mechanism provides rigid fixation, which is especially beneficial in osteoporotic or poor-quality bone.
Improved Anatomical Fit: Precontoured design fits the complex anatomy of the calcaneus, reducing the need for intraoperative adjustments.
Minimized Soft Tissue Irritation: The low-profile design minimizes irritation and postoperative complications.
Versatility in Fixation: Combination holes and multi-directional screw placement offer flexibility in surgical techniques and fixation methods.
Promotes Faster Recovery: Minimally invasive surgical (MIS) capability reduces soft tissue disruption, leading to faster recovery times.
Fractures with Soft Tissue Injury: Open fractures where the bone is exposed through a wound, requiring rigid fixation and minimal soft tissue disruption to promote healing.
Corrective Surgery for Deformities: Procedures to correct deformities of the calcaneus, which may be congenital or acquired.
Multifragmentary Fractures: Fractures with multiple fragments where stable fixation and precise alignment are necessary to restore function.
Corrective Osteotomies: Surgical procedures to correct malunions (healed fractures in improper alignment) or nonunions (fractures that fail to heal) of the calcaneus.
Pathologic Fractures: Fractures occurring in bones weakened by disease, such as cancer or infection, where secure fixation is crucial.
Elderly Patients: In patients with poor bone quality due to osteoporosis, the locking mechanism provides enhanced stability and reduces the risk of screw loosening.
Intra-articular Fractures: Fractures involving the subtalar joint, which can be complex and challenging to fixate.
Extra-articular Fractures: Fractures that do not involve the joint surfaces but still require stable fixation.
Comminuted Fractures: Fractures where the bone is broken into multiple pieces, necessitating a stable and secure fixation method.
Displaced Fractures: Fractures where the bone fragments are misaligned and need to be repositioned and stabilized.
locking copmression plate brochure.pdf
The Calcaneal Locking Plate I is used for the surgical fixation of fractures and other conditions affecting the calcaneus (heel bone), including intra-articular, extra-articular, comminuted, displaced fractures, and deformities.
The plate is typically made from biocompatible materials such as titanium alloy or stainless steel, ensuring strength, durability, and compatibility with the human body.
The plate thickness is approximately 2.5 mm to 3.0 mm, providing a balance between strength and minimizing bulk.
The plate is designed to work with locking screws typically ranging from 3.5 mm to 4.0 mm and can also accommodate non-locking (cortical) screws for additional fixation options.
The locking mechanism includes threaded holes for locking screws, ensuring angular stability, reducing the risk of screw loosening, and providing more stable fixation compared to conventional plates.
The plate is precontoured to match the complex shape of the calcaneus, reducing the need for intraoperative bending, improving fit and alignment, and saving surgical time.
The low-profile design minimizes soft tissue irritation and reduces the risk of postoperative complications, promoting faster and more comfortable recovery for the patient.
Yes, the Calcaneal Locking Plate I is designed to be used with minimally invasive surgical techniques, reducing soft tissue disruption and promoting quicker recovery.
Enhanced Fixation Stability: Locking screws provide rigid fixation, particularly useful in osteoporotic bone.
Improved Anatomical Fit: Precontoured design improves the fit and reduces the need for intraoperative adjustments.
Versatility: Combination holes and multi-directional screw placement offer flexibility in surgical techniques and fixation methods.
Minimized Soft Tissue Irritation: Low-profile design minimizes irritation and postoperative complications.
Promotes Faster Recovery: MIS capability reduces soft tissue disruption, leading to faster recovery times.
The plate is used to treat various fractures of the calcaneus, including intra-articular fractures, extra-articular fractures, comminuted fractures, displaced fractures, and fractures with poor bone quality.
Yes, the locking mechanism provides enhanced stability and is particularly beneficial in osteoporotic bone, where conventional screws may not hold as effectively.
Yes, the plate can be used for corrective osteotomies to address malunions and nonunions, as well as for correcting deformities of the calcaneus.
Some versions of the plate include radiolucent markers to assist with precise screw placement under imaging guidance.
For more detailed information or to purchase the Calcaneal Locking Plate I, you should contact orthopedic implant manufacturers or suppliers. They can provide product specifications, surgical technique guides, and ordering information.
These FAQs cover the key aspects and benefits of the Calcaneal Locking Plate I, providing essential information for healthcare providers and patients.
| Code | Type | Length | |
| 70730-259 | L | S | 59 |
| 70730-359 | R | S | |
| 70730-267 | L | M | 66.5 |
| 70730-367 | R | M | |
| 70730-273 | L | L | 72.5 |
| 70730-373 | R | L |
Anatomical Contouring: The plate is precontoured to match the complex anatomy of the calcaneus, providing an optimal fit and reducing the need for intraoperative bending.
Locking Mechanism: Includes threaded holes for locking screws, ensuring angular stability and minimizing the risk of screw loosening.
Low-Profile Design: The plate has a low-profile design to minimize soft tissue irritation and reduce the risk of postoperative complications.
Combination Holes: Supports both locking and non-locking (cortical) screws, offering versatile fixation options.
Multiple Screw Angles: Allows for multi-directional screw placement to accommodate different fracture patterns and ensure secure fixation.
Biocompatible Materials: Typically made from titanium alloy or stainless steel, ensuring durability, strength, and compatibility with the human body.
Locking Screws: Designed to work with locking screws of various sizes, typically ranging from 3.5 mm to 4.0 mm.
Non-Locking Screws: Can also accommodate non-locking (cortical) screws for additional fixation options.
Thickness: Approximately 2.5 mm to 3.0 mm, providing a balance between strength and minimizing bulk.
Length and Width: Varies to fit different patient anatomies and fracture patterns.
Minimally Invasive Surgery (MIS) Capability: Designed to be used with minimally invasive techniques, reducing soft tissue disruption and promoting quicker recovery.
Multiple Screw Holes: The plate includes multiple screw holes to provide adequate fixation points for complex fracture patterns.
Radiolucent Markers: Some versions include radiolucent markers to assist with precise screw placement under imaging guidance.
Enhanced Fixation Stability: Locking screws provide rigid fixation, which is particularly beneficial in osteoporotic bone.
Improved Anatomical Fit: Precontoured design improves the fit and alignment, saving surgical time and improving outcomes.
Versatility in Fixation: Combination holes and multi-directional screw placement offer flexibility in surgical techniques and fixation methods.
Reduced Soft Tissue Irritation: Low-profile design minimizes soft tissue irritation and postoperative complications.
Promotes Faster Recovery: MIS capability reduces soft tissue disruption, leading to faster recovery times.
The Calcaneal Locking Plate I is used primarily for the surgical treatment of fractures and other conditions affecting the calcaneus (heel bone). Below are the main indications for its use:
These indications ensure that the Calcaneal Locking Plate I provides effective and reliable fixation for various calcaneal fractures and deformities, catering to a wide range of clinical scenarios and patient anatomies.
Enhanced Fixation Stability: The locking mechanism provides rigid fixation, which is especially beneficial in osteoporotic or poor-quality bone.
Improved Anatomical Fit: Precontoured design fits the complex anatomy of the calcaneus, reducing the need for intraoperative adjustments.
Minimized Soft Tissue Irritation: The low-profile design minimizes irritation and postoperative complications.
Versatility in Fixation: Combination holes and multi-directional screw placement offer flexibility in surgical techniques and fixation methods.
Promotes Faster Recovery: Minimally invasive surgical (MIS) capability reduces soft tissue disruption, leading to faster recovery times.
Fractures with Soft Tissue Injury: Open fractures where the bone is exposed through a wound, requiring rigid fixation and minimal soft tissue disruption to promote healing.
Corrective Surgery for Deformities: Procedures to correct deformities of the calcaneus, which may be congenital or acquired.
Multifragmentary Fractures: Fractures with multiple fragments where stable fixation and precise alignment are necessary to restore function.
Corrective Osteotomies: Surgical procedures to correct malunions (healed fractures in improper alignment) or nonunions (fractures that fail to heal) of the calcaneus.
Pathologic Fractures: Fractures occurring in bones weakened by disease, such as cancer or infection, where secure fixation is crucial.
Elderly Patients: In patients with poor bone quality due to osteoporosis, the locking mechanism provides enhanced stability and reduces the risk of screw loosening.
Intra-articular Fractures: Fractures involving the subtalar joint, which can be complex and challenging to fixate.
Extra-articular Fractures: Fractures that do not involve the joint surfaces but still require stable fixation.
Comminuted Fractures: Fractures where the bone is broken into multiple pieces, necessitating a stable and secure fixation method.
Displaced Fractures: Fractures where the bone fragments are misaligned and need to be repositioned and stabilized.
locking copmression plate brochure.pdf
The Calcaneal Locking Plate I is used for the surgical fixation of fractures and other conditions affecting the calcaneus (heel bone), including intra-articular, extra-articular, comminuted, displaced fractures, and deformities.
The plate is typically made from biocompatible materials such as titanium alloy or stainless steel, ensuring strength, durability, and compatibility with the human body.
The plate thickness is approximately 2.5 mm to 3.0 mm, providing a balance between strength and minimizing bulk.
The plate is designed to work with locking screws typically ranging from 3.5 mm to 4.0 mm and can also accommodate non-locking (cortical) screws for additional fixation options.
The locking mechanism includes threaded holes for locking screws, ensuring angular stability, reducing the risk of screw loosening, and providing more stable fixation compared to conventional plates.
The plate is precontoured to match the complex shape of the calcaneus, reducing the need for intraoperative bending, improving fit and alignment, and saving surgical time.
The low-profile design minimizes soft tissue irritation and reduces the risk of postoperative complications, promoting faster and more comfortable recovery for the patient.
Yes, the Calcaneal Locking Plate I is designed to be used with minimally invasive surgical techniques, reducing soft tissue disruption and promoting quicker recovery.
Enhanced Fixation Stability: Locking screws provide rigid fixation, particularly useful in osteoporotic bone.
Improved Anatomical Fit: Precontoured design improves the fit and reduces the need for intraoperative adjustments.
Versatility: Combination holes and multi-directional screw placement offer flexibility in surgical techniques and fixation methods.
Minimized Soft Tissue Irritation: Low-profile design minimizes irritation and postoperative complications.
Promotes Faster Recovery: MIS capability reduces soft tissue disruption, leading to faster recovery times.
The plate is used to treat various fractures of the calcaneus, including intra-articular fractures, extra-articular fractures, comminuted fractures, displaced fractures, and fractures with poor bone quality.
Yes, the locking mechanism provides enhanced stability and is particularly beneficial in osteoporotic bone, where conventional screws may not hold as effectively.
Yes, the plate can be used for corrective osteotomies to address malunions and nonunions, as well as for correcting deformities of the calcaneus.
Some versions of the plate include radiolucent markers to assist with precise screw placement under imaging guidance.
For more detailed information or to purchase the Calcaneal Locking Plate I, you should contact orthopedic implant manufacturers or suppliers. They can provide product specifications, surgical technique guides, and ordering information.
These FAQs cover the key aspects and benefits of the Calcaneal Locking Plate I, providing essential information for healthcare providers and patients.
