RSHBKJ
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 | Pic | Screw | REF. | Spec. |
Herbert Cannulated Compression Screw | / | RSHBKJ2510 | 2.5*10mm | |
RSHBKJ2512 | 2.5*12mm | |||
RSHBKJ2514 | 2.5*14mm | |||
RSHBKJ2516 | 2.5*16mm | |||
RSHBKJ2518 | 2.5*18mm | |||
RSHBKJ2520 | 2.5*20mm | |||
RSHBKJ2522 | 2.5*22mm | |||
RSHBKJ2524 | 2.5*24mm | |||
RSHBKJ2526 | 2.5*26mm | |||
RSHBKJ2528 | 2.5*28mm | |||
RSHBKJ2530 | 2.5*30mm | |||
RSHBKJ3014 | 3.0*14mm | |||
RSHBKJ3016 | 3.0*16mm | |||
RSHBKJ3018 | 3.0*18mm | |||
RSHBKJ3020 | 3.0*20mm | |||
RSHBKJ3022 | 3.0*22mm | |||
RSHBKJ3024 | 3.0*24mm | |||
RSHBKJ3026 | 3.0*26mm | |||
RSHBKJ3028 | 3.0*28mm | |||
RSHBKJ3030 | 3.0*30mm | |||
RSHBKJ3514 | 3.5*14mm | |||
RSHBKJ3516 | 3.5*16mm | |||
RSHBKJ3518 | 3.5*18mm | |||
RSHBKJ3520 | 3.5*20mm | |||
RSHBKJ3522 | 3.5*22mm | |||
RSHBKJ3524 | 3.5*24mm | |||
RSHBKJ3526 | 3.5*26mm | |||
RSHBKJ3528 | 3.5*28mm | |||
RSHBKJ3530 | 3.5*30mm | |||
RSHBKJ3532 | 3.5*32mm | |||
RSHBKJ3534 | 3.5*34mm | |||
RSHBKJ3536 | 3.5*36mm | |||
RSHBKJ3538 | 3.5*38mm | |||
RSHBKJ3540 | 3.5*40mm | |||
RSHBKJ4026 | 4.0*26mm | |||
RSHBKJ4028 | 4.0*28mm | |||
RSHBKJ4030 | 4.0*30mm | |||
RSHBKJ4032 | 4.0*32mm | |||
RSHBKJ4034 | 4.0*34mm | |||
RSHBKJ4036 | 4.0*36mm | |||
RSHBKJ4038 | 4.0*38mm | |||
RSHBKJ4040 | 4.0*40mm | |||
RSHBKJ4042 | 4.0*42mm | |||
RSHBKJ4044 | 4.0*44mm | |||
RSHBKJ4046 | 4.0*46mm | |||
RSHBKJ4048 | 4.0*48mm | |||
RSHBKJ4050 | 4.0*50mm |
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 Herbert Cannulated Compression Screw Product Catalog.
2. Choose Your Interested Herbert Cannulated Compression Screw Product.
3. Ask For A Sample To Test Herbert Cannulated Compression Screw.
4.Make An Order Of XC Medico's Herbert Cannulated Compression Screw.
5.Become A Dealer Of XC Medico's Herbert Cannulated Compression Screw.
1.Better Purchase Prices Of Herbert Cannulated Compression Screw.
2.100% The Highest Quality Herbert Cannulated Compression Screw.
3. Less Ordering Efforts.
4. Price Stability For The Period Of Agreement.
5. Sufficient Herbert Cannulated Compression Screw.
6. Quick And Easy Assessment Of XC Medico's Herbert Cannulated Compression 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 Herbert Cannulated Compression Screw is a revolutionary orthopedic implant that plays a crucial role in the treatment of fractures, especially in smaller bones like the scaphoid, metatarsals, and other delicate bones of the body. It is designed to provide enhanced stability and compression at the fracture site while minimizing surgical trauma. This article offers a thorough overview of the Herbert Cannulated Compression Screw, from its definition and features to its benefits, applications, and potential risks.
The Herbert Cannulated Compression Screw is a type of orthopedic screw specifically designed for the compression fixation of bone fractures. The term "cannulated" refers to the hollow central core of the screw, which allows for the placement of the screw over a guidewire. This unique feature helps orthopedic surgeons achieve precise screw placement with minimal invasiveness, improving both surgical outcomes and recovery times.
The screw is particularly effective for treating fractures in small bones where traditional screws may not be as effective. The compression offered by the Herbert screw stabilizes the bone fragments, promotes optimal healing, and reduces the risk of complications such as nonunion or malunion. The design is tailored for use in bones with limited surface area, providing secure fixation in conditions like scaphoid fractures and metatarsal fractures, among others.
The hollow core allows for precise screw placement over a guidewire, reducing the risk of surgical error and minimizing the need for extensive dissection.
The screw's partial threading and design allow for compression across the fracture site, aligning bone fragments for optimal healing.
The screw features self-tapping threads, which help the screw cut its own thread into the bone, simplifying the insertion process and reducing the need for pre-drilling.
The screw is typically made from medical-grade titanium or stainless steel, ensuring biocompatibility, durability, and resistance to corrosion.
Herbert Cannulated Compression Screws come in various diameters and lengths, allowing surgeons to select the appropriate size for each individual case.
The screw's compact and low-profile design allows it to fit into small anatomical spaces without causing damage to adjacent tissues.
The cannulated design allows the screw to be inserted over a guidewire, which means smaller incisions and reduced tissue trauma during surgery. This leads to quicker recovery, less postoperative pain, and minimal scarring.
The compression provided by the Herbert screw keeps the bone fragments aligned and stable, significantly reducing the risk of displacement and promoting faster healing.
Because the screw is self-tapping and cannulated, it requires less time to insert compared to traditional screws. This results in quicker procedures and less operating room time.
The guidewire placement ensures greater accuracy during surgery, reducing the risk of misalignment or screw malposition.
The screw's design offers reliable fixation and promotes early mobilization, which contributes to better long-term outcomes for patients.
One of the most frequent indications for the Herbert screw is scaphoid fractures, which occur in the wrist. This bone is particularly prone to nonunion because of its blood supply, and the compression screw offers the necessary stabilization to ensure proper healing.
The screw is also used for fractures of the metatarsal bones in the foot. Its compact design allows for secure fixation in these small bones, allowing patients to resume weight-bearing activities sooner.
In cases of fractures in the distal or proximal tibia, especially those requiring enhanced compression, the Herbert screw can provide the necessary stabilization for effective healing.
In some cases of pelvic fractures, the Herbert screw is used to achieve compression and stabilization, promoting healing in these complex fractures.
In pediatric cases, where bone growth is still ongoing, the screw's ability to stabilize fractures while minimizing disruption to the bone's growth plate makes it a useful tool for orthopedic surgeons.
As with any surgical procedure, there is a risk of infection at the incision site. Proper sterilization and post-operative care are essential to minimizing this risk.
In some cases, the screw may loosen or fail to provide adequate fixation, particularly in patients with low bone density or those who do not follow post-surgical guidelines.
Due to the proximity of important nerves and blood vessels, there is always a risk of injury during the insertion of the screw. Surgeons must exercise caution during the procedure to avoid damaging surrounding tissues.
If the screw does not provide adequate compression or the fracture site is not aligned properly, nonunion (failure to heal) or malunion (incorrect healing) can occur, potentially requiring further surgical intervention.
Over time, the screw may migrate from its original position, which can cause misalignment of the bone fragments and necessitate revision surgery.
The future market for Herbert Cannulated Compression Screws looks promising, driven by the increasing demand for minimally invasive orthopedic surgeries and the rising incidence of fractures due to aging populations and active lifestyles. Additionally, advancements in materials science may lead to the development of bioabsorbable screws, which would eliminate the need for removal after healing, further increasing the screw's appeal.
The growing focus on outpatient surgeries, combined with the desire for quicker recovery times and better patient outcomes, is expected to fuel demand for the Herbert screw. Moreover, as orthopedic practices continue to evolve with the integration of more precise and effective surgical technologies, the Herbert Cannulated Compression Screw will remain a key player in fracture treatment.
The Herbert Cannulated Compression Screw is a highly effective orthopedic implant that provides stable fixation and promotes healing in fractures, particularly those involving small bones. With its cannulated design, compression capabilities, and self-tapping threads, the screw offers multiple benefits, including minimally invasive surgery, enhanced fracture healing, and improved surgical efficiency. However, like any surgical procedure, there are risks such as infection, nerve injury, and screw loosening. The future market for the Herbert screw looks promising, with advancements in orthopedic surgery technology and increasing demand for minimally invasive options driving its growth.
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 | Pic | Screw | REF. | Spec. |
Herbert Cannulated Compression Screw | / | RSHBKJ2510 | 2.5*10mm | |
RSHBKJ2512 | 2.5*12mm | |||
RSHBKJ2514 | 2.5*14mm | |||
RSHBKJ2516 | 2.5*16mm | |||
RSHBKJ2518 | 2.5*18mm | |||
RSHBKJ2520 | 2.5*20mm | |||
RSHBKJ2522 | 2.5*22mm | |||
RSHBKJ2524 | 2.5*24mm | |||
RSHBKJ2526 | 2.5*26mm | |||
RSHBKJ2528 | 2.5*28mm | |||
RSHBKJ2530 | 2.5*30mm | |||
RSHBKJ3014 | 3.0*14mm | |||
RSHBKJ3016 | 3.0*16mm | |||
RSHBKJ3018 | 3.0*18mm | |||
RSHBKJ3020 | 3.0*20mm | |||
RSHBKJ3022 | 3.0*22mm | |||
RSHBKJ3024 | 3.0*24mm | |||
RSHBKJ3026 | 3.0*26mm | |||
RSHBKJ3028 | 3.0*28mm | |||
RSHBKJ3030 | 3.0*30mm | |||
RSHBKJ3514 | 3.5*14mm | |||
RSHBKJ3516 | 3.5*16mm | |||
RSHBKJ3518 | 3.5*18mm | |||
RSHBKJ3520 | 3.5*20mm | |||
RSHBKJ3522 | 3.5*22mm | |||
RSHBKJ3524 | 3.5*24mm | |||
RSHBKJ3526 | 3.5*26mm | |||
RSHBKJ3528 | 3.5*28mm | |||
RSHBKJ3530 | 3.5*30mm | |||
RSHBKJ3532 | 3.5*32mm | |||
RSHBKJ3534 | 3.5*34mm | |||
RSHBKJ3536 | 3.5*36mm | |||
RSHBKJ3538 | 3.5*38mm | |||
RSHBKJ3540 | 3.5*40mm | |||
RSHBKJ4026 | 4.0*26mm | |||
RSHBKJ4028 | 4.0*28mm | |||
RSHBKJ4030 | 4.0*30mm | |||
RSHBKJ4032 | 4.0*32mm | |||
RSHBKJ4034 | 4.0*34mm | |||
RSHBKJ4036 | 4.0*36mm | |||
RSHBKJ4038 | 4.0*38mm | |||
RSHBKJ4040 | 4.0*40mm | |||
RSHBKJ4042 | 4.0*42mm | |||
RSHBKJ4044 | 4.0*44mm | |||
RSHBKJ4046 | 4.0*46mm | |||
RSHBKJ4048 | 4.0*48mm | |||
RSHBKJ4050 | 4.0*50mm |
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 Herbert Cannulated Compression Screw Product Catalog.
2. Choose Your Interested Herbert Cannulated Compression Screw Product.
3. Ask For A Sample To Test Herbert Cannulated Compression Screw.
4.Make An Order Of XC Medico's Herbert Cannulated Compression Screw.
5.Become A Dealer Of XC Medico's Herbert Cannulated Compression Screw.
1.Better Purchase Prices Of Herbert Cannulated Compression Screw.
2.100% The Highest Quality Herbert Cannulated Compression Screw.
3. Less Ordering Efforts.
4. Price Stability For The Period Of Agreement.
5. Sufficient Herbert Cannulated Compression Screw.
6. Quick And Easy Assessment Of XC Medico's Herbert Cannulated Compression 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 Herbert Cannulated Compression Screw is a revolutionary orthopedic implant that plays a crucial role in the treatment of fractures, especially in smaller bones like the scaphoid, metatarsals, and other delicate bones of the body. It is designed to provide enhanced stability and compression at the fracture site while minimizing surgical trauma. This article offers a thorough overview of the Herbert Cannulated Compression Screw, from its definition and features to its benefits, applications, and potential risks.
The Herbert Cannulated Compression Screw is a type of orthopedic screw specifically designed for the compression fixation of bone fractures. The term "cannulated" refers to the hollow central core of the screw, which allows for the placement of the screw over a guidewire. This unique feature helps orthopedic surgeons achieve precise screw placement with minimal invasiveness, improving both surgical outcomes and recovery times.
The screw is particularly effective for treating fractures in small bones where traditional screws may not be as effective. The compression offered by the Herbert screw stabilizes the bone fragments, promotes optimal healing, and reduces the risk of complications such as nonunion or malunion. The design is tailored for use in bones with limited surface area, providing secure fixation in conditions like scaphoid fractures and metatarsal fractures, among others.
The hollow core allows for precise screw placement over a guidewire, reducing the risk of surgical error and minimizing the need for extensive dissection.
The screw's partial threading and design allow for compression across the fracture site, aligning bone fragments for optimal healing.
The screw features self-tapping threads, which help the screw cut its own thread into the bone, simplifying the insertion process and reducing the need for pre-drilling.
The screw is typically made from medical-grade titanium or stainless steel, ensuring biocompatibility, durability, and resistance to corrosion.
Herbert Cannulated Compression Screws come in various diameters and lengths, allowing surgeons to select the appropriate size for each individual case.
The screw's compact and low-profile design allows it to fit into small anatomical spaces without causing damage to adjacent tissues.
The cannulated design allows the screw to be inserted over a guidewire, which means smaller incisions and reduced tissue trauma during surgery. This leads to quicker recovery, less postoperative pain, and minimal scarring.
The compression provided by the Herbert screw keeps the bone fragments aligned and stable, significantly reducing the risk of displacement and promoting faster healing.
Because the screw is self-tapping and cannulated, it requires less time to insert compared to traditional screws. This results in quicker procedures and less operating room time.
The guidewire placement ensures greater accuracy during surgery, reducing the risk of misalignment or screw malposition.
The screw's design offers reliable fixation and promotes early mobilization, which contributes to better long-term outcomes for patients.
One of the most frequent indications for the Herbert screw is scaphoid fractures, which occur in the wrist. This bone is particularly prone to nonunion because of its blood supply, and the compression screw offers the necessary stabilization to ensure proper healing.
The screw is also used for fractures of the metatarsal bones in the foot. Its compact design allows for secure fixation in these small bones, allowing patients to resume weight-bearing activities sooner.
In cases of fractures in the distal or proximal tibia, especially those requiring enhanced compression, the Herbert screw can provide the necessary stabilization for effective healing.
In some cases of pelvic fractures, the Herbert screw is used to achieve compression and stabilization, promoting healing in these complex fractures.
In pediatric cases, where bone growth is still ongoing, the screw's ability to stabilize fractures while minimizing disruption to the bone's growth plate makes it a useful tool for orthopedic surgeons.
As with any surgical procedure, there is a risk of infection at the incision site. Proper sterilization and post-operative care are essential to minimizing this risk.
In some cases, the screw may loosen or fail to provide adequate fixation, particularly in patients with low bone density or those who do not follow post-surgical guidelines.
Due to the proximity of important nerves and blood vessels, there is always a risk of injury during the insertion of the screw. Surgeons must exercise caution during the procedure to avoid damaging surrounding tissues.
If the screw does not provide adequate compression or the fracture site is not aligned properly, nonunion (failure to heal) or malunion (incorrect healing) can occur, potentially requiring further surgical intervention.
Over time, the screw may migrate from its original position, which can cause misalignment of the bone fragments and necessitate revision surgery.
The future market for Herbert Cannulated Compression Screws looks promising, driven by the increasing demand for minimally invasive orthopedic surgeries and the rising incidence of fractures due to aging populations and active lifestyles. Additionally, advancements in materials science may lead to the development of bioabsorbable screws, which would eliminate the need for removal after healing, further increasing the screw's appeal.
The growing focus on outpatient surgeries, combined with the desire for quicker recovery times and better patient outcomes, is expected to fuel demand for the Herbert screw. Moreover, as orthopedic practices continue to evolve with the integration of more precise and effective surgical technologies, the Herbert Cannulated Compression Screw will remain a key player in fracture treatment.
The Herbert Cannulated Compression Screw is a highly effective orthopedic implant that provides stable fixation and promotes healing in fractures, particularly those involving small bones. With its cannulated design, compression capabilities, and self-tapping threads, the screw offers multiple benefits, including minimally invasive surgery, enhanced fracture healing, and improved surgical efficiency. However, like any surgical procedure, there are risks such as infection, nerve injury, and screw loosening. The future market for the Herbert screw looks promising, with advancements in orthopedic surgery technology and increasing demand for minimally invasive options driving its growth.
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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