RSH15
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
Availability: | |
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Quantity: | |
Name | Picture | Item No. | Specification |
1.5 Cross-fit Self-tapping Screw | RSH154ZG | Φ1.5*4mm | |
RSH155ZG | Φ1.5*5mm | ||
RSH156ZG | Φ1.5*6mm | ||
RSH157ZG | Φ1.5*7mm | ||
RSH158ZG | Φ1.5*8mm | ||
RSH159ZG | Φ1.5*9mm | ||
RSH1510ZG | Φ1.5*10mm | ||
RSH1511ZG | Φ1.5*11mm | ||
RSH1512ZG | Φ1.5*12mm | ||
RSH1514ZG | Φ1.5*14mm | ||
RSH1516ZG | Φ1.5*16mm | ||
RSH1518ZG | Φ1.5*18mm |
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 1.5 Cross-fit Self-tapping Screw Product Catalog.
2. Choose Your Interested 1.5 Cross-fit Self-tapping Screw Product.
3. Ask For A Sample To Test 1.5 Cross-fit Self-tapping Screw.
4.Make An Order Of XC Medico's 1.5 Cross-fit Self-tapping Screw.
5.Become A Dealer Of XC Medico's 1.5 Cross-fit Self-tapping Screw.
1.Better Purchase Prices Of 1.5 Cross-fit Self-tapping Screw.
2.100% The Highest Quality 1.5 Cross-fit Self-tapping Screw.
3. Less Ordering Efforts.
4. Price Stability For The Period Of Agreement.
5. Sufficient 1.5 Cross-fit Self-tapping Screw.
6. Quick And Easy Assessment Of XC Medico's 1.5 Cross-fit Self-tapping 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 1.5 Cross-fit Self-tapping Screw is a state-of-the-art orthopedic implant specifically designed for small bone fixation in delicate surgical procedures. Its precision-engineered design, combined with advanced materials and self-tapping capability, ensures reliable and stable fixation, making it a key component in trauma, reconstructive, and corrective surgeries. This comprehensive guide explores the features, advantages, applications, and future market trends of the 1.5 Cross-fit Self-tapping Screw.
The 1.5 Cross-fit Self-tapping Screw is a small-diameter orthopedic screw used for fixation in surgeries involving small bones, such as the hands, feet, and maxillofacial structures. The term "self-tapping" indicates that the screw creates its own thread within the bone during insertion, eliminating the need for pre-tapping. "Cross-fit" refers to the screw's compatibility with various plates and fixation systems, offering surgeons flexibility and precision in addressing complex fracture patterns.
Constructed from biocompatible titanium or stainless steel, the 1.5 Cross-fit Self-tapping Screw is lightweight, strong, and corrosion-resistant. Its application spans trauma repair, corrective osteotomies, and reconstructive surgeries, particularly in areas requiring minimally invasive techniques.
The screw's self-tapping design eliminates the need for pre-drilling or tapping, saving surgical time and reducing the risk of bone damage during insertion.
The screw's threads are specifically designed to grip bone securely, providing excellent fixation strength and minimizing the risk of loosening.
The screw is compatible with a wide range of plates, including locking plates, mini plates, and other fixation systems, offering versatility across different surgical scenarios.
Made from medical-grade titanium or stainless steel, the screw is biocompatible, durable, and resistant to corrosion, ensuring long-term stability in the body.
The screw is available in various lengths to accommodate different fracture types and anatomical structures, providing flexibility for surgeons.
The screw head is designed to integrate seamlessly with plates, ensuring a flush fit and minimizing soft tissue irritation.
The self-tapping feature reduces the need for pre-drilling, speeding up the surgical process and minimizing patient exposure to anesthesia.
The high-precision threading ensures strong engagement with the bone, providing stable fixation that reduces the risk of screw loosening or migration.
The self-tapping design reduces the need for additional surgical steps, preserving bone integrity and minimizing trauma to surrounding tissues.
The cross-fit design allows the screw to be used with various fixation systems, making it adaptable to a wide range of fracture patterns and surgical techniques.
The screw's biocompatibility, durability, and ability to provide stable fixation contribute to faster healing, improved functionality, and reduced risk of complications.
Titanium screws are radiolucent, allowing for clear postoperative imaging to monitor fracture healing and screw placement.
The screw is ideal for stabilizing fractures in the metacarpals and phalanges, providing precise fixation in small, intricate areas.
The screw is commonly used for fractures in the metatarsals and phalanges, ensuring stable fixation and allowing for early weight-bearing.
In facial trauma, the screw is effective in securing fractures of the mandible, zygomatic bone, and orbital rim, where precision and minimal invasiveness are critical.
Its small diameter and minimal invasiveness make the screw suitable for use in pediatric cases, where smaller implants are required.
The screw is used in procedures to correct bone deformities, such as hallux valgus or malunion correction, ensuring stable fixation and proper alignment.
For complex fractures with multiple fragments, the screw provides secure stabilization and prevents displacement during the healing process.
As with any surgical procedure, there is a risk of infection at the implant site. Proper sterilization techniques and postoperative care are essential to minimize this risk.
In some cases, screws may loosen over time due to poor bone quality or excessive mechanical stress, compromising fixation stability.
Although the self-tapping design minimizes disruption, improper insertion technique or excessive torque may lead to bone damage.
Improper placement or protrusion of the screw may cause irritation to surrounding soft tissues, resulting in discomfort or inflammation.
Inadequate fixation or poor alignment of bone fragments may lead to delayed healing or improper union of the fracture.
Improper screw placement could potentially damage nearby nerves or blood vessels, leading to complications such as numbness or impaired function.
Increasing rates of sports injuries, road traffic accidents, and workplace injuries are driving demand for advanced fracture fixation devices.
With an aging global population prone to fractures and bone-related conditions, the demand for small, reliable implants is growing.
Ongoing improvements in implant materials, design, and surgical techniques are enhancing the performance and accessibility of self-tapping screws.
As minimally invasive and precision-based surgical techniques continue to evolve, the use of self-tapping screws is expected to increase across various orthopedic subspecialties.
Improved access to healthcare in emerging markets is contributing to the growing adoption of advanced orthopedic implants, including the 1.5 Cross-fit Self-tapping Screw.
The 1.5 Cross-fit Self-tapping Screw is a versatile, reliable, and innovative solution for small bone fixation in orthopedic surgery. Its self-tapping design simplifies surgical procedures, while its compatibility with various plates and systems enhances its adaptability. By providing secure fixation, minimizing tissue disruption, and reducing surgical time, the screw improves patient outcomes and supports faster recovery.
Although associated with risks such as infection and screw loosening, these can be effectively managed with proper surgical techniques and postoperative care. As advancements in technology and the global demand for orthopedic solutions continue to grow, the 1.5 Cross-fit Self-tapping Screw is poised to play a critical role in the future of fracture management and bone reconstruction.
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.
Name | Picture | Item No. | Specification |
1.5 Cross-fit Self-tapping Screw | RSH154ZG | Φ1.5*4mm | |
RSH155ZG | Φ1.5*5mm | ||
RSH156ZG | Φ1.5*6mm | ||
RSH157ZG | Φ1.5*7mm | ||
RSH158ZG | Φ1.5*8mm | ||
RSH159ZG | Φ1.5*9mm | ||
RSH1510ZG | Φ1.5*10mm | ||
RSH1511ZG | Φ1.5*11mm | ||
RSH1512ZG | Φ1.5*12mm | ||
RSH1514ZG | Φ1.5*14mm | ||
RSH1516ZG | Φ1.5*16mm | ||
RSH1518ZG | Φ1.5*18mm |
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 1.5 Cross-fit Self-tapping Screw Product Catalog.
2. Choose Your Interested 1.5 Cross-fit Self-tapping Screw Product.
3. Ask For A Sample To Test 1.5 Cross-fit Self-tapping Screw.
4.Make An Order Of XC Medico's 1.5 Cross-fit Self-tapping Screw.
5.Become A Dealer Of XC Medico's 1.5 Cross-fit Self-tapping Screw.
1.Better Purchase Prices Of 1.5 Cross-fit Self-tapping Screw.
2.100% The Highest Quality 1.5 Cross-fit Self-tapping Screw.
3. Less Ordering Efforts.
4. Price Stability For The Period Of Agreement.
5. Sufficient 1.5 Cross-fit Self-tapping Screw.
6. Quick And Easy Assessment Of XC Medico's 1.5 Cross-fit Self-tapping 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 1.5 Cross-fit Self-tapping Screw is a state-of-the-art orthopedic implant specifically designed for small bone fixation in delicate surgical procedures. Its precision-engineered design, combined with advanced materials and self-tapping capability, ensures reliable and stable fixation, making it a key component in trauma, reconstructive, and corrective surgeries. This comprehensive guide explores the features, advantages, applications, and future market trends of the 1.5 Cross-fit Self-tapping Screw.
The 1.5 Cross-fit Self-tapping Screw is a small-diameter orthopedic screw used for fixation in surgeries involving small bones, such as the hands, feet, and maxillofacial structures. The term "self-tapping" indicates that the screw creates its own thread within the bone during insertion, eliminating the need for pre-tapping. "Cross-fit" refers to the screw's compatibility with various plates and fixation systems, offering surgeons flexibility and precision in addressing complex fracture patterns.
Constructed from biocompatible titanium or stainless steel, the 1.5 Cross-fit Self-tapping Screw is lightweight, strong, and corrosion-resistant. Its application spans trauma repair, corrective osteotomies, and reconstructive surgeries, particularly in areas requiring minimally invasive techniques.
The screw's self-tapping design eliminates the need for pre-drilling or tapping, saving surgical time and reducing the risk of bone damage during insertion.
The screw's threads are specifically designed to grip bone securely, providing excellent fixation strength and minimizing the risk of loosening.
The screw is compatible with a wide range of plates, including locking plates, mini plates, and other fixation systems, offering versatility across different surgical scenarios.
Made from medical-grade titanium or stainless steel, the screw is biocompatible, durable, and resistant to corrosion, ensuring long-term stability in the body.
The screw is available in various lengths to accommodate different fracture types and anatomical structures, providing flexibility for surgeons.
The screw head is designed to integrate seamlessly with plates, ensuring a flush fit and minimizing soft tissue irritation.
The self-tapping feature reduces the need for pre-drilling, speeding up the surgical process and minimizing patient exposure to anesthesia.
The high-precision threading ensures strong engagement with the bone, providing stable fixation that reduces the risk of screw loosening or migration.
The self-tapping design reduces the need for additional surgical steps, preserving bone integrity and minimizing trauma to surrounding tissues.
The cross-fit design allows the screw to be used with various fixation systems, making it adaptable to a wide range of fracture patterns and surgical techniques.
The screw's biocompatibility, durability, and ability to provide stable fixation contribute to faster healing, improved functionality, and reduced risk of complications.
Titanium screws are radiolucent, allowing for clear postoperative imaging to monitor fracture healing and screw placement.
The screw is ideal for stabilizing fractures in the metacarpals and phalanges, providing precise fixation in small, intricate areas.
The screw is commonly used for fractures in the metatarsals and phalanges, ensuring stable fixation and allowing for early weight-bearing.
In facial trauma, the screw is effective in securing fractures of the mandible, zygomatic bone, and orbital rim, where precision and minimal invasiveness are critical.
Its small diameter and minimal invasiveness make the screw suitable for use in pediatric cases, where smaller implants are required.
The screw is used in procedures to correct bone deformities, such as hallux valgus or malunion correction, ensuring stable fixation and proper alignment.
For complex fractures with multiple fragments, the screw provides secure stabilization and prevents displacement during the healing process.
As with any surgical procedure, there is a risk of infection at the implant site. Proper sterilization techniques and postoperative care are essential to minimize this risk.
In some cases, screws may loosen over time due to poor bone quality or excessive mechanical stress, compromising fixation stability.
Although the self-tapping design minimizes disruption, improper insertion technique or excessive torque may lead to bone damage.
Improper placement or protrusion of the screw may cause irritation to surrounding soft tissues, resulting in discomfort or inflammation.
Inadequate fixation or poor alignment of bone fragments may lead to delayed healing or improper union of the fracture.
Improper screw placement could potentially damage nearby nerves or blood vessels, leading to complications such as numbness or impaired function.
Increasing rates of sports injuries, road traffic accidents, and workplace injuries are driving demand for advanced fracture fixation devices.
With an aging global population prone to fractures and bone-related conditions, the demand for small, reliable implants is growing.
Ongoing improvements in implant materials, design, and surgical techniques are enhancing the performance and accessibility of self-tapping screws.
As minimally invasive and precision-based surgical techniques continue to evolve, the use of self-tapping screws is expected to increase across various orthopedic subspecialties.
Improved access to healthcare in emerging markets is contributing to the growing adoption of advanced orthopedic implants, including the 1.5 Cross-fit Self-tapping Screw.
The 1.5 Cross-fit Self-tapping Screw is a versatile, reliable, and innovative solution for small bone fixation in orthopedic surgery. Its self-tapping design simplifies surgical procedures, while its compatibility with various plates and systems enhances its adaptability. By providing secure fixation, minimizing tissue disruption, and reducing surgical time, the screw improves patient outcomes and supports faster recovery.
Although associated with risks such as infection and screw loosening, these can be effectively managed with proper surgical techniques and postoperative care. As advancements in technology and the global demand for orthopedic solutions continue to grow, the 1.5 Cross-fit Self-tapping Screw is poised to play a critical role in the future of fracture management and bone reconstruction.
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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