R55KZW
XCmedico
1 Pcs(72 Hours Delivery)
Titanium Alloy
CE/ISO:9001/ISO13485.Etc
Custom-Made 15 Days Delivery(Excluding Shipping Time)
FedEx. DHL.TNT.EMS.Etc
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Product | Picture | REF | Specification |
5.5 MIS Polyaxial Pedicle Screw | R55KZW5535 | 5.5×35mm | |
R55KZW5540 | 5.5×40mm | ||
R55KZW5545 | 5.5×45mm | ||
R55KZW5550 | 5.5×50mm | ||
R55KZW6035 | 6.0×35mm | ||
R55KZW6040 | 6.0×40mm | ||
R55KZW6045 | 6.0×45mm | ||
R55KZW6050 | 6.0×50mm | ||
R55KZW6535 | 6.5×35mm | ||
R55KZW6540 | 6.5×40mm | ||
R55KZW6545 | 6.5×45mm | ||
R55KZW6550 | 6.5×50mm | ||
R55KZW6555 | 6.5×55mm | ||
R55KZW7030 | 7.0×30mm | ||
R55KZW7035 | 7.0×35mm | ||
R55KZW7040 | 7.0×40mm | ||
R55KZW7530 | 7.5×30mm | ||
R55KZW7535 | 7.5×35mm | ||
R55KZW7540 | 7.5×40mm |
CNC Preliminary Processing The computer numerical control technology is used to precisely process orthopedic products. This process has the characteristics of high precision, high efficiency, and repeatability. It can quickly produce customized medical devices that conform to the human anatomical structure and provide patients with personalized treatment plans. | Product Polishing The purpose of orthopedic products polishing is to improve the contact between the implant and human tissue, reduce stress concentration, and improve the long-term stability of the implant. | Quality Inspection The mechanical properties test of orthopedic products is designed to simulate the stress conditions of human bones, evaluate the load-bearing capacity and durability of implants in the human body, and ensure their safety and reliability. |
Product Package Orthopedic products are packaged in a sterile room to ensure that the product is encapsulated in a clean, sterile environment to prevent microbial contamination and ensure surgical safety. | Product Warehouse The storage of orthopedic products requires strict in-and-out management and quality control to ensure product traceability and prevent expiration or wrong shipment. | Sample Room The sample room is used to store, display and manage various orthopedic products samples for product technology exchanges and training. |
1. Ask Xc Medico Team For 5.5 MIS Polyaxial Pedicle Screw Product Catalog.
2. Choose Your Interested 5.5 MIS Polyaxial Pedicle Screw Product.
3. Ask For A Sample To Test 5.5 MIS Polyaxial Pedicle Screw.
4.Make An Order Of XC Medico's 5.5 MIS Polyaxial Pedicle Screw.
5.Become A Dealer Of XC Medico's 5.5 MIS Polyaxial Pedicle Screw.
1.Better Purchase Prices Of 5.5 MIS Polyaxial Pedicle Screw.
2.100% The Highest Quality 5.5 MIS Polyaxial Pedicle Screw.
3. Less Ordering Efforts.
4. Price Stability For The Period Of Agreement.
5. Sufficient 5.5 MIS Polyaxial Pedicle Screw.
6. Quick And Easy Assessment Of XC Medico's 5.5 MIS Polyaxial Pedicle Screw.
7. A Globally Recognized Brand - XC Medico.
8. Fast Access Time To XC Medico Sales Team.
9. Additional Quality Test By XC Medico Team.
10. Track Your XC Medico Order From Start To Finish.
The 5.5 MIS polyaxial pedicle screw is a groundbreaking development in minimally invasive spinal surgery, offering enhanced precision, stability, and adaptability. Designed to address spinal pathologies with minimal disruption to surrounding tissues, it has become an essential tool for modern spinal surgeons. This guide provides a detailed analysis of its features, advantages, applications, and market potential, catering to medical professionals, researchers, and students.
The 5.5 MIS polyaxial pedicle screw is a spinal implant used in minimally invasive surgery (MIS) to stabilize the spine. The "5.5" refers to the rod diameter it accommodates, while "polyaxial" indicates its multi-directional head movement, allowing for precise alignment and fixation. Made from high-strength titanium or cobalt-chromium alloys, this screw is instrumental in treating spinal fractures, deformities, and degenerative conditions. Its minimally invasive design reduces operative trauma, accelerates recovery, and improves patient outcomes.
Allows for multi-directional adjustment, ensuring accurate rod alignment.
Slim design reduces tissue disruption and facilitates easy insertion.
Specialized tools and techniques enable minimally invasive insertion.
Titanium or cobalt-chromium ensures durability and biocompatibility.
Simplifies insertion by eliminating the need for pre-drilling.
Enhances anchorage and reduces the risk of screw loosening.
Polyaxial movement allows for precise screw and rod alignment.
Reduces operative time, blood loss, and tissue damage.
Provides rigid fixation to support early mobilization.
Suitable for diverse spinal pathologies, including fractures and deformities.
Reduced tissue disruption leads to faster recovery and less postoperative pain.
High-quality materials ensure reliable performance under physiological loads.
Stabilizes the spine following acute injury.
Addresses instability caused by degenerative disc disease or spinal stenosis.
Prevents vertebral slippage and restores spinal alignment.
Facilitates correction of scoliosis and kyphosis through precise alignment.
Ensures spinal integrity following vertebral tumor removal.
Postoperative infections, though uncommon, may require further treatment.
Suboptimal placement or patient-specific factors may lead to instability.
Altered spinal mechanics can affect nearby vertebral levels.
Surgical precision is critical to avoid injury to adjacent nerves.
Rare cases of screw or rod failure may occur under extreme stress.
Innovations in materials and MIS techniques enhance implant performance.
Increasing prevalence of age-related spinal conditions drives demand.
Rising cases of spinal injuries fuel the need for advanced fixation systems.
Growing adoption of MIS in developing countries boosts market growth.
Development of patient-specific implants through 3D printing technologies.
The 5.5 MIS polyaxial pedicle screw represents a paradigm shift in spinal fixation systems, combining precision, adaptability, and patient-centered design. Its advanced features and minimally invasive nature make it a preferred choice for spinal surgeons. With technological innovations and increasing global demand, this implant is set to play a pivotal role in the future of spinal surgery, enhancing both surgical outcomes and patient quality of life.
Warm reminder: This article is for reference only and cannot replace the doctor's professional advice. If you have any questions, please consult your attending physician.
Product | Picture | REF | Specification |
5.5 MIS Polyaxial Pedicle Screw | R55KZW5535 | 5.5×35mm | |
R55KZW5540 | 5.5×40mm | ||
R55KZW5545 | 5.5×45mm | ||
R55KZW5550 | 5.5×50mm | ||
R55KZW6035 | 6.0×35mm | ||
R55KZW6040 | 6.0×40mm | ||
R55KZW6045 | 6.0×45mm | ||
R55KZW6050 | 6.0×50mm | ||
R55KZW6535 | 6.5×35mm | ||
R55KZW6540 | 6.5×40mm | ||
R55KZW6545 | 6.5×45mm | ||
R55KZW6550 | 6.5×50mm | ||
R55KZW6555 | 6.5×55mm | ||
R55KZW7030 | 7.0×30mm | ||
R55KZW7035 | 7.0×35mm | ||
R55KZW7040 | 7.0×40mm | ||
R55KZW7530 | 7.5×30mm | ||
R55KZW7535 | 7.5×35mm | ||
R55KZW7540 | 7.5×40mm |
CNC Preliminary Processing The computer numerical control technology is used to precisely process orthopedic products. This process has the characteristics of high precision, high efficiency, and repeatability. It can quickly produce customized medical devices that conform to the human anatomical structure and provide patients with personalized treatment plans. | Product Polishing The purpose of orthopedic products polishing is to improve the contact between the implant and human tissue, reduce stress concentration, and improve the long-term stability of the implant. | Quality Inspection The mechanical properties test of orthopedic products is designed to simulate the stress conditions of human bones, evaluate the load-bearing capacity and durability of implants in the human body, and ensure their safety and reliability. |
Product Package Orthopedic products are packaged in a sterile room to ensure that the product is encapsulated in a clean, sterile environment to prevent microbial contamination and ensure surgical safety. | Product Warehouse The storage of orthopedic products requires strict in-and-out management and quality control to ensure product traceability and prevent expiration or wrong shipment. | Sample Room The sample room is used to store, display and manage various orthopedic products samples for product technology exchanges and training. |
1. Ask Xc Medico Team For 5.5 MIS Polyaxial Pedicle Screw Product Catalog.
2. Choose Your Interested 5.5 MIS Polyaxial Pedicle Screw Product.
3. Ask For A Sample To Test 5.5 MIS Polyaxial Pedicle Screw.
4.Make An Order Of XC Medico's 5.5 MIS Polyaxial Pedicle Screw.
5.Become A Dealer Of XC Medico's 5.5 MIS Polyaxial Pedicle Screw.
1.Better Purchase Prices Of 5.5 MIS Polyaxial Pedicle Screw.
2.100% The Highest Quality 5.5 MIS Polyaxial Pedicle Screw.
3. Less Ordering Efforts.
4. Price Stability For The Period Of Agreement.
5. Sufficient 5.5 MIS Polyaxial Pedicle Screw.
6. Quick And Easy Assessment Of XC Medico's 5.5 MIS Polyaxial Pedicle Screw.
7. A Globally Recognized Brand - XC Medico.
8. Fast Access Time To XC Medico Sales Team.
9. Additional Quality Test By XC Medico Team.
10. Track Your XC Medico Order From Start To Finish.
The 5.5 MIS polyaxial pedicle screw is a groundbreaking development in minimally invasive spinal surgery, offering enhanced precision, stability, and adaptability. Designed to address spinal pathologies with minimal disruption to surrounding tissues, it has become an essential tool for modern spinal surgeons. This guide provides a detailed analysis of its features, advantages, applications, and market potential, catering to medical professionals, researchers, and students.
The 5.5 MIS polyaxial pedicle screw is a spinal implant used in minimally invasive surgery (MIS) to stabilize the spine. The "5.5" refers to the rod diameter it accommodates, while "polyaxial" indicates its multi-directional head movement, allowing for precise alignment and fixation. Made from high-strength titanium or cobalt-chromium alloys, this screw is instrumental in treating spinal fractures, deformities, and degenerative conditions. Its minimally invasive design reduces operative trauma, accelerates recovery, and improves patient outcomes.
Allows for multi-directional adjustment, ensuring accurate rod alignment.
Slim design reduces tissue disruption and facilitates easy insertion.
Specialized tools and techniques enable minimally invasive insertion.
Titanium or cobalt-chromium ensures durability and biocompatibility.
Simplifies insertion by eliminating the need for pre-drilling.
Enhances anchorage and reduces the risk of screw loosening.
Polyaxial movement allows for precise screw and rod alignment.
Reduces operative time, blood loss, and tissue damage.
Provides rigid fixation to support early mobilization.
Suitable for diverse spinal pathologies, including fractures and deformities.
Reduced tissue disruption leads to faster recovery and less postoperative pain.
High-quality materials ensure reliable performance under physiological loads.
Stabilizes the spine following acute injury.
Addresses instability caused by degenerative disc disease or spinal stenosis.
Prevents vertebral slippage and restores spinal alignment.
Facilitates correction of scoliosis and kyphosis through precise alignment.
Ensures spinal integrity following vertebral tumor removal.
Postoperative infections, though uncommon, may require further treatment.
Suboptimal placement or patient-specific factors may lead to instability.
Altered spinal mechanics can affect nearby vertebral levels.
Surgical precision is critical to avoid injury to adjacent nerves.
Rare cases of screw or rod failure may occur under extreme stress.
Innovations in materials and MIS techniques enhance implant performance.
Increasing prevalence of age-related spinal conditions drives demand.
Rising cases of spinal injuries fuel the need for advanced fixation systems.
Growing adoption of MIS in developing countries boosts market growth.
Development of patient-specific implants through 3D printing technologies.
The 5.5 MIS polyaxial pedicle screw represents a paradigm shift in spinal fixation systems, combining precision, adaptability, and patient-centered design. Its advanced features and minimally invasive nature make it a preferred choice for spinal surgeons. With technological innovations and increasing global demand, this implant is set to play a pivotal role in the future of spinal surgery, enhancing both surgical outcomes and patient quality of life.
Warm reminder: This article is for reference only and cannot replace the doctor's professional advice. If you have any questions, please consult your attending physician.
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