Locking Comprssion plate
WASTON
70723
5/7/9/11/13
140/180/220/260/300
Ti
70723
| Quantity: | |
|---|---|
| Code | Holes | Length | ||
| 70723-205 | L | 5 | 140 | |
| 70723-305 | R | |||
| 70723-207 | L | 7 | 180 | |
| 70723-307 | R | |||
| 70723-209 | L | 9 | 220 | |
| 70723-309 | R | |||
| 70723-211 | L | 11 | 260 | |
| 70723-311 | R | |||
| 70723-213 | L | 13 | 300 | |
| 70723-313 | R | |||
Anatomically Contoured: Precontoured to match the lateral aspect of the proximal tibia, reducing the need for intraoperative bending and ensuring better anatomical fit.
Locking Mechanism: Includes threaded holes for locking screws, providing angular stability and reducing the risk of screw loosening.
Low-Profile Design: Minimizes soft tissue irritation and reduces the risk of postoperative complications.
Variable Angle Locking: Allows for the screws to be placed at various angles, offering flexibility in fixation.
Combination Holes: Supports both locking and non-locking (cortical) screws, providing versatile fixation options.
Biocompatible Materials: Typically made from titanium alloy or stainless steel, ensuring durability, strength, and compatibility with the human body.
Proximal Screws: Usually 5.0 mm locking screws.
Shaft Screws: Can be 4.5 mm cortical screws or 5.0 mm locking screws.
Thickness: Approximately 3.5 mm to 4.0 mm, balancing strength and flexibility.
Width and Length: Varies with plate size to fit different patient anatomies and fracture patterns.
Minimally Invasive Surgery (MIS) Capability: Designed to be used with minimally invasive surgical techniques, reducing soft tissue disruption and promoting quicker recovery.
Multiple Screw Holes: Typically has multiple screw holes in the proximal segment to securely fix the metaphyseal region and a series of holes along the shaft for diaphyseal fixation.
Radiolucent Markers: Some versions include radiolucent markers to aid in precise screw placement under imaging guidance.
Enhanced Fixation Stability: Locking screws provide rigid fixation, especially useful in osteoporotic bone.
Improved Anatomical Fit: Precontoured design improves the fit and reduces the need for intraoperative adjustments.
Versatility: Combination holes and variable angle locking offer flexibility in surgical techniques and screw placement.
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 Proximal Lateral Tibial Locking Compression Plate (LISS) is designed to provide effective and reliable fixation for proximal tibial fractures, catering to various clinical scenarios and patient anatomies.
locking copmression plate brochure.pdf
The LISS plate is used for the fixation of fractures in the proximal lateral tibia, particularly in complex cases such as periarticular fractures, osteoporotic bone, and fractures involving the metaphyseal region.
The LISS 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 3.5 mm to 4.0 mm, providing a balance between strength and flexibility.
Proximal screws: Usually 5.0 mm locking screws.
Shaft screws: Can be 4.5 mm cortical screws or 5.0 mm locking screws.
The locking mechanism includes threaded holes for locking screws, providing angular stability and reducing the risk of screw loosening. This offers more stable fixation compared to conventional plates.
The plate is precontoured to match the lateral aspect of the proximal tibia, reducing the need for intraoperative bending. This improves fit and alignment, saving surgical time and improving outcomes.
The low-profile design minimizes soft tissue irritation and reduces the risk of postoperative complications, promoting faster and more comfortable recovery for the patient.
Variable angle locking technology allows screws to be placed at various angles, offering flexibility in screw placement and enhancing fixation in complex fractures.
Yes, the LISS plate is designed to be used with minimally invasive surgical techniques, reducing soft tissue disruption and promoting quicker recovery.
The plate typically has multiple screw holes in the proximal segment for secure fixation of the metaphyseal region and a series of holes along the shaft for diaphyseal fixation. The exact number varies depending on the plate length.
Some versions of the LISS plate include radiolucent markers to aid in precise screw placement under imaging guidance.
Enhanced Fixation Stability: Locking screws provide rigid fixation, particularly useful in osteoporotic bone.
Improved Anatomical Fit: Precontoured design improves fit and reduces the need for intraoperative adjustments.
Versatility: Combination holes and variable angle locking offer flexibility in surgical techniques and screw placement.
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.
For more detailed information or to purchase the Proximal Lateral Tibial Locking Compression Plate (LISS), you should contact orthopedic implant manufacturers or suppliers. They can provide product specifications, surgical technique guides, and ordering information.
| Code | Holes | Length | ||
| 70723-205 | L | 5 | 140 | |
| 70723-305 | R | |||
| 70723-207 | L | 7 | 180 | |
| 70723-307 | R | |||
| 70723-209 | L | 9 | 220 | |
| 70723-309 | R | |||
| 70723-211 | L | 11 | 260 | |
| 70723-311 | R | |||
| 70723-213 | L | 13 | 300 | |
| 70723-313 | R | |||
Anatomically Contoured: Precontoured to match the lateral aspect of the proximal tibia, reducing the need for intraoperative bending and ensuring better anatomical fit.
Locking Mechanism: Includes threaded holes for locking screws, providing angular stability and reducing the risk of screw loosening.
Low-Profile Design: Minimizes soft tissue irritation and reduces the risk of postoperative complications.
Variable Angle Locking: Allows for the screws to be placed at various angles, offering flexibility in fixation.
Combination Holes: Supports both locking and non-locking (cortical) screws, providing versatile fixation options.
Biocompatible Materials: Typically made from titanium alloy or stainless steel, ensuring durability, strength, and compatibility with the human body.
Proximal Screws: Usually 5.0 mm locking screws.
Shaft Screws: Can be 4.5 mm cortical screws or 5.0 mm locking screws.
Thickness: Approximately 3.5 mm to 4.0 mm, balancing strength and flexibility.
Width and Length: Varies with plate size to fit different patient anatomies and fracture patterns.
Minimally Invasive Surgery (MIS) Capability: Designed to be used with minimally invasive surgical techniques, reducing soft tissue disruption and promoting quicker recovery.
Multiple Screw Holes: Typically has multiple screw holes in the proximal segment to securely fix the metaphyseal region and a series of holes along the shaft for diaphyseal fixation.
Radiolucent Markers: Some versions include radiolucent markers to aid in precise screw placement under imaging guidance.
Enhanced Fixation Stability: Locking screws provide rigid fixation, especially useful in osteoporotic bone.
Improved Anatomical Fit: Precontoured design improves the fit and reduces the need for intraoperative adjustments.
Versatility: Combination holes and variable angle locking offer flexibility in surgical techniques and screw placement.
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 Proximal Lateral Tibial Locking Compression Plate (LISS) is designed to provide effective and reliable fixation for proximal tibial fractures, catering to various clinical scenarios and patient anatomies.
locking copmression plate brochure.pdf
The LISS plate is used for the fixation of fractures in the proximal lateral tibia, particularly in complex cases such as periarticular fractures, osteoporotic bone, and fractures involving the metaphyseal region.
The LISS 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 3.5 mm to 4.0 mm, providing a balance between strength and flexibility.
Proximal screws: Usually 5.0 mm locking screws.
Shaft screws: Can be 4.5 mm cortical screws or 5.0 mm locking screws.
The locking mechanism includes threaded holes for locking screws, providing angular stability and reducing the risk of screw loosening. This offers more stable fixation compared to conventional plates.
The plate is precontoured to match the lateral aspect of the proximal tibia, reducing the need for intraoperative bending. This improves fit and alignment, saving surgical time and improving outcomes.
The low-profile design minimizes soft tissue irritation and reduces the risk of postoperative complications, promoting faster and more comfortable recovery for the patient.
Variable angle locking technology allows screws to be placed at various angles, offering flexibility in screw placement and enhancing fixation in complex fractures.
Yes, the LISS plate is designed to be used with minimally invasive surgical techniques, reducing soft tissue disruption and promoting quicker recovery.
The plate typically has multiple screw holes in the proximal segment for secure fixation of the metaphyseal region and a series of holes along the shaft for diaphyseal fixation. The exact number varies depending on the plate length.
Some versions of the LISS plate include radiolucent markers to aid in precise screw placement under imaging guidance.
Enhanced Fixation Stability: Locking screws provide rigid fixation, particularly useful in osteoporotic bone.
Improved Anatomical Fit: Precontoured design improves fit and reduces the need for intraoperative adjustments.
Versatility: Combination holes and variable angle locking offer flexibility in surgical techniques and screw placement.
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.
For more detailed information or to purchase the Proximal Lateral Tibial Locking Compression Plate (LISS), you should contact orthopedic implant manufacturers or suppliers. They can provide product specifications, surgical technique guides, and ordering information.
