RSH15/20
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 |
1.5/2.0 self drilling screw |
| RSH1504ZZ | φ1.5*4mm |
RSH1505ZZ | φ1.5*5mm | ||
RSH1506ZZ | φ1.5*6mm | ||
RSH204D5ZZ | Φ2.0*4.5mm | ||
RSH205ZZ | Φ2.0*5mm | ||
RSH205D5ZZ | Φ2.0*5.5mm |
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 1.5/2.0 Self Drilling Screw Product Catalog.
2. Choose Your Interested 1.5/2.0 Self Drilling Screw Product.
3. Ask For A Sample To Test 1.5/2.0 Self Drilling Screw.
4.Make An Order Of XC Medico's 1.5/2.0 Self Drilling Screw.
5.Become A Dealer Of XC Medico's 1.5/2.0 Self Drilling Screw.
1.Better Purchase Prices Of 1.5/2.0 Self Drilling Screw.
2.100% The Highest Quality 1.5/2.0 Self Drilling Screw.
3. Less Ordering Efforts.
4. Price Stability For The Period Of Agreement.
5. Sufficient 1.5/2.0 Self Drilling Screw.
6. Quick And Easy Assessment Of XC Medico's 1.5/2.0 Self Drilling 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.
Self-drilling screws are commonly used in orthopedic surgeries for internal fixation of fractures. The 1.5mm and 2.0mm self-drilling screws are particularly valuable in small bone surgeries, including those involving fractures in the extremities, pelvis, and facial bones. These screws offer a combination of precision, ease of use, and high-strength fixation. This comprehensive guide provides an in-depth look at the 1.5mm/2.0mm self-drilling screws, covering their features, advantages, treatment applications, risks, and future market trends.
The 1.5mm/2.0mm self-drilling screw is an orthopedic implant designed for fixation in small bone surgeries. As the name suggests, the screw is capable of drilling its own pilot hole during insertion, eliminating the need for pre-drilling. This feature simplifies the surgical procedure, reduces the need for additional tools, and minimizes the time spent during surgery.
Self-drilling screws are typically made from high-strength materials like titanium or stainless steel, which are biocompatible and resistant to corrosion. The 1.5mm and 2.0mm sizes are commonly used for treating fractures in small bones, such as those in the fingers, toes, or facial bones, where precise fixation and minimal invasiveness are essential for optimal recovery.
The primary feature of this screw is its self-drilling capability. The tip is designed to create its own hole in the bone without the need for a separate drill bit, saving time and reducing the risk of damaging surrounding tissues.
The screw's threads are designed to engage the bone securely, providing strong fixation and preventing loosening or displacement during the healing process. The thread design ensures that the screw holds the fractured bone fragments in place while facilitating optimal healing.
The screw is typically made from titanium or stainless steel, which are both biocompatible, strong, and resistant to corrosion. These materials ensure long-term stability of the implant within the body.
The 1.5mm and 2.0mm screws come in a range of lengths, allowing surgeons to select the appropriate size based on the patient's anatomy and the type of fracture being treated.
The screws are designed for use with minimally invasive techniques, allowing for smaller incisions and reduced trauma to surrounding tissues, which in turn leads to faster healing times and a lower risk of complications.
Since the screws drill their own pilot hole, there is no need for pre-drilling with an external drill bit, which reduces the overall time required for surgery. This minimizes the patient’s exposure to anesthesia and lowers the risk of surgical complications.
The self-drilling nature of the screw eliminates the need for extra drilling steps, which can cause unnecessary damage to surrounding tissues, including muscles and nerves. This feature contributes to faster recovery times and a lower risk of postoperative complications.
The precision threads and self-tapping design ensure excellent engagement with bone tissue, providing enhanced stability and support for the fractured bone fragments. This improves the chances of successful healing and reduces the likelihood of screw loosening or migration.
The design of the 1.5mm/2.0mm self-drilling screw makes it easier for the surgeon to insert the screw accurately, even in challenging anatomical locations. The screw’s self-drilling capability also reduces the need for specialized tools, simplifying the surgical procedure.
These screws can be used in a variety of surgical settings, including trauma surgeries, orthognathic surgeries (for facial fractures), and hand or foot surgery. Their small size and precise fit make them suitable for use in small bone fractures, providing a reliable fixation solution.
The screws are commonly used for fractures in the phalanges (fingers and toes), metacarpals, and metatarsals, where accurate alignment and fixation are essential for functional recovery.
For fractures involving the orbit, zygoma, and other facial bones, the 1.5mm/2.0mm self-drilling screws offer strong and precise fixation. They are especially useful in cases of complex orbital or maxillofacial fractures that require stable bone alignment and minimal soft tissue disruption.
In general, the 1.5mm/2.0mm screws are ideal for use in small bone fractures in areas like the clavicle, pelvis, and tibia. These screws are effective in stabilizing the bone fragments and allowing for faster healing and rehabilitation.
The smaller size of the 1.5mm/2.0mm screws makes them suitable for use in pediatric patients, where smaller implants are needed to accommodate the delicate bones and growing structures of the body.
Infection is a potential complication with any implant. While the minimally invasive nature of the procedure reduces the risk, it is still essential to follow strict sterilization protocols and administer appropriate antibiotics before and after surgery to minimize infection risks.
There is a risk that the screw may be improperly positioned during surgery, which could lead to misalignment of the fractured bone fragments. This can result in delayed healing or complications like non-union or malunion of the fracture.
Despite the self-drilling capability, there is still a risk of damaging surrounding soft tissues, nerves, or blood vessels during screw insertion, especially in complex fractures or anatomically challenging areas.
If the screw does not fully engage the bone or if the bone density is compromised, there is a risk of screw loosening or migration, which may necessitate additional surgery to replace or remove the screw.
While the screws are designed to provide stable fixation, some patients may experience localized pain or discomfort, especially if the screw is placed too close to a nerve or if there is irritation from the implant over time.
With an increasing global population and the rising incidence of accidents, trauma-related fractures are expected to increase. This will drive the demand for efficient, minimally invasive fixation methods, including self-drilling screws.
As surgical techniques continue to evolve towards minimally invasive approaches, self-drilling screws will become even more attractive due to their ease of use and ability to reduce surgical time and trauma.
The aging population is more susceptible to osteoporosis and fragility fractures, particularly in small bones. This will contribute to an increased demand for specialized fixation devices like 1.5mm/2.0mm self-drilling screws.
The continued development of stronger, more biocompatible materials and improvements in screw designs will likely lead to enhanced performance and wider applications for self-drilling screws.
As access to advanced surgical techniques and implant technologies increases in emerging markets, the demand for self-drilling screws is expected to rise globally.
The 1.5mm/2.0mm self-drilling screw is a vital tool in modern orthopedic surgery, providing precise and stable fixation for small bone fractures. Its self-drilling capability reduces surgical time, minimizes tissue damage, and simplifies the procedure, making it an invaluable choice for a range of fracture types, particularly in the hand, foot, and facial bones.
While the screws offer significant advantages, there are still risks such as infection, screw malposition, and soft tissue damage that require careful attention during surgery. However, with advancements in surgical techniques and the growing demand for minimally invasive options, the market for self-drilling screws is expected to expand, making them an essential component in the orthopedic surgeon's toolkit.
Overall, the 1.5mm/2.0mm self-drilling screw is an indispensable implant, offering high-quality, reliable fixation with minimal invasiveness, promoting quicker recovery times, and improving patient outcomes in a variety of orthopedic surgeries.
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 |
1.5/2.0 self drilling screw |
| RSH1504ZZ | φ1.5*4mm |
RSH1505ZZ | φ1.5*5mm | ||
RSH1506ZZ | φ1.5*6mm | ||
RSH204D5ZZ | Φ2.0*4.5mm | ||
RSH205ZZ | Φ2.0*5mm | ||
RSH205D5ZZ | Φ2.0*5.5mm |
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 1.5/2.0 Self Drilling Screw Product Catalog.
2. Choose Your Interested 1.5/2.0 Self Drilling Screw Product.
3. Ask For A Sample To Test 1.5/2.0 Self Drilling Screw.
4.Make An Order Of XC Medico's 1.5/2.0 Self Drilling Screw.
5.Become A Dealer Of XC Medico's 1.5/2.0 Self Drilling Screw.
1.Better Purchase Prices Of 1.5/2.0 Self Drilling Screw.
2.100% The Highest Quality 1.5/2.0 Self Drilling Screw.
3. Less Ordering Efforts.
4. Price Stability For The Period Of Agreement.
5. Sufficient 1.5/2.0 Self Drilling Screw.
6. Quick And Easy Assessment Of XC Medico's 1.5/2.0 Self Drilling 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.
Self-drilling screws are commonly used in orthopedic surgeries for internal fixation of fractures. The 1.5mm and 2.0mm self-drilling screws are particularly valuable in small bone surgeries, including those involving fractures in the extremities, pelvis, and facial bones. These screws offer a combination of precision, ease of use, and high-strength fixation. This comprehensive guide provides an in-depth look at the 1.5mm/2.0mm self-drilling screws, covering their features, advantages, treatment applications, risks, and future market trends.
The 1.5mm/2.0mm self-drilling screw is an orthopedic implant designed for fixation in small bone surgeries. As the name suggests, the screw is capable of drilling its own pilot hole during insertion, eliminating the need for pre-drilling. This feature simplifies the surgical procedure, reduces the need for additional tools, and minimizes the time spent during surgery.
Self-drilling screws are typically made from high-strength materials like titanium or stainless steel, which are biocompatible and resistant to corrosion. The 1.5mm and 2.0mm sizes are commonly used for treating fractures in small bones, such as those in the fingers, toes, or facial bones, where precise fixation and minimal invasiveness are essential for optimal recovery.
The primary feature of this screw is its self-drilling capability. The tip is designed to create its own hole in the bone without the need for a separate drill bit, saving time and reducing the risk of damaging surrounding tissues.
The screw's threads are designed to engage the bone securely, providing strong fixation and preventing loosening or displacement during the healing process. The thread design ensures that the screw holds the fractured bone fragments in place while facilitating optimal healing.
The screw is typically made from titanium or stainless steel, which are both biocompatible, strong, and resistant to corrosion. These materials ensure long-term stability of the implant within the body.
The 1.5mm and 2.0mm screws come in a range of lengths, allowing surgeons to select the appropriate size based on the patient's anatomy and the type of fracture being treated.
The screws are designed for use with minimally invasive techniques, allowing for smaller incisions and reduced trauma to surrounding tissues, which in turn leads to faster healing times and a lower risk of complications.
Since the screws drill their own pilot hole, there is no need for pre-drilling with an external drill bit, which reduces the overall time required for surgery. This minimizes the patient’s exposure to anesthesia and lowers the risk of surgical complications.
The self-drilling nature of the screw eliminates the need for extra drilling steps, which can cause unnecessary damage to surrounding tissues, including muscles and nerves. This feature contributes to faster recovery times and a lower risk of postoperative complications.
The precision threads and self-tapping design ensure excellent engagement with bone tissue, providing enhanced stability and support for the fractured bone fragments. This improves the chances of successful healing and reduces the likelihood of screw loosening or migration.
The design of the 1.5mm/2.0mm self-drilling screw makes it easier for the surgeon to insert the screw accurately, even in challenging anatomical locations. The screw’s self-drilling capability also reduces the need for specialized tools, simplifying the surgical procedure.
These screws can be used in a variety of surgical settings, including trauma surgeries, orthognathic surgeries (for facial fractures), and hand or foot surgery. Their small size and precise fit make them suitable for use in small bone fractures, providing a reliable fixation solution.
The screws are commonly used for fractures in the phalanges (fingers and toes), metacarpals, and metatarsals, where accurate alignment and fixation are essential for functional recovery.
For fractures involving the orbit, zygoma, and other facial bones, the 1.5mm/2.0mm self-drilling screws offer strong and precise fixation. They are especially useful in cases of complex orbital or maxillofacial fractures that require stable bone alignment and minimal soft tissue disruption.
In general, the 1.5mm/2.0mm screws are ideal for use in small bone fractures in areas like the clavicle, pelvis, and tibia. These screws are effective in stabilizing the bone fragments and allowing for faster healing and rehabilitation.
The smaller size of the 1.5mm/2.0mm screws makes them suitable for use in pediatric patients, where smaller implants are needed to accommodate the delicate bones and growing structures of the body.
Infection is a potential complication with any implant. While the minimally invasive nature of the procedure reduces the risk, it is still essential to follow strict sterilization protocols and administer appropriate antibiotics before and after surgery to minimize infection risks.
There is a risk that the screw may be improperly positioned during surgery, which could lead to misalignment of the fractured bone fragments. This can result in delayed healing or complications like non-union or malunion of the fracture.
Despite the self-drilling capability, there is still a risk of damaging surrounding soft tissues, nerves, or blood vessels during screw insertion, especially in complex fractures or anatomically challenging areas.
If the screw does not fully engage the bone or if the bone density is compromised, there is a risk of screw loosening or migration, which may necessitate additional surgery to replace or remove the screw.
While the screws are designed to provide stable fixation, some patients may experience localized pain or discomfort, especially if the screw is placed too close to a nerve or if there is irritation from the implant over time.
With an increasing global population and the rising incidence of accidents, trauma-related fractures are expected to increase. This will drive the demand for efficient, minimally invasive fixation methods, including self-drilling screws.
As surgical techniques continue to evolve towards minimally invasive approaches, self-drilling screws will become even more attractive due to their ease of use and ability to reduce surgical time and trauma.
The aging population is more susceptible to osteoporosis and fragility fractures, particularly in small bones. This will contribute to an increased demand for specialized fixation devices like 1.5mm/2.0mm self-drilling screws.
The continued development of stronger, more biocompatible materials and improvements in screw designs will likely lead to enhanced performance and wider applications for self-drilling screws.
As access to advanced surgical techniques and implant technologies increases in emerging markets, the demand for self-drilling screws is expected to rise globally.
The 1.5mm/2.0mm self-drilling screw is a vital tool in modern orthopedic surgery, providing precise and stable fixation for small bone fractures. Its self-drilling capability reduces surgical time, minimizes tissue damage, and simplifies the procedure, making it an invaluable choice for a range of fracture types, particularly in the hand, foot, and facial bones.
While the screws offer significant advantages, there are still risks such as infection, screw malposition, and soft tissue damage that require careful attention during surgery. However, with advancements in surgical techniques and the growing demand for minimally invasive options, the market for self-drilling screws is expected to expand, making them an essential component in the orthopedic surgeon's toolkit.
Overall, the 1.5mm/2.0mm self-drilling screw is an indispensable implant, offering high-quality, reliable fixation with minimal invasiveness, promoting quicker recovery times, and improving patient outcomes in a variety of orthopedic surgeries.
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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