RJSG
XCmedico
1 Pcs(72 Hours Delivery)
Humerus
Titanium Alloy Or Stainless Steel
CE/ISO:9001/ISO13485.Etc
Custom-Made 15 Days Delivery(Excluding Shipping Time)
FedEx. DHL.TNT.EMS.Etc
Availability: | |
---|---|
Quantity: | |
Products | Picture | Specific Models | Specification |
Humerus Multi Lock Intramedullary Nails | RJSG18160R | 8.0×160R | |
RJSG18160L | 8.0×160L | ||
RJSG19160R | 9.0×160R | ||
RJSG19160L | 9.0×160L | ||
RJSG17180R | 7.0×180 | ||
RJSG17195R | 7.0×195 | ||
RJSG17210R | 7.0×210 | ||
RJSG17225R | 7.0×225 | ||
RJSG17240R | 7.0×240 | ||
RJSG17255R | 7.0×255 | ||
RJSG18180R | 8.0×180 | ||
RJSG18195R | 8.0×195 | ||
RJSG18210R | 8.0×210 | ||
RJSG18225R | 8.0×225 | ||
RJSG18240R | 8.0×240 | ||
RJSG18255R | 8.0×255 | ||
RJSG17180L | 7.0×180 | ||
RJSG17195L | 7.0×195 | ||
RJSG17210L | 7.0×210 | ||
RJSG17225L | 7.0×225 | ||
RJSG17240L | 7.0×240 | ||
RJSG17255L | 7.0×255 | ||
RJSG18180L | 8.0×180 | ||
RJSG18195L | 8.0×195 | ||
RJSG18210L | 8.0×210 | ||
RJSG18225L | 8.0×225 | ||
RJSG18240L | 8.0×240 | ||
RJSG18255L | 8.0×255 | ||
Screw Nut | RJSG1WM0 | 0 | |
RJSG1WM2 | 2 | ||
RJSG1WM5 | 5 | ||
RJSG1WM10 | 10 | ||
RJSG1WM15 | 15 | ||
Locking Screw-I | RJSG1LD4530 | 4.5×30 | |
RJSG1LD4532 | 4.5×32 | ||
RJSG1LD4534 | 4.5×34 | ||
RJSG1LD4536 | 4.5×36 | ||
RJSG1LD4538 | 4.5×38 | ||
RJSG1LD4540 | 4.5×40 | ||
RJSG1LD4542 | 4.5×42 | ||
RJSG1LD4544 | 4.5×44 | ||
RJSG1LD4546 | 4.5×46 | ||
RJSG1LD4548 | 4.5×48 | ||
RJSG1LD4550 | 4.5×50 | ||
RJSG1LD4552 | 4.5×52 | ||
RJSG1LD4554 | 4.5×54 | ||
RJSG1LD4556 | 4.5×56 | ||
RJSG1LD4558 | 4.5×58 | ||
RJSG1LD4560 | 4.5×60 | ||
Locking Screw-II | RJSG1LD3526 | 3.5×26 | |
RJSG1LD3528 | 3.5×28 | ||
RJSG1LD3530 | 3.5×30 | ||
RJSG1LD3532 | 3.5×32 | ||
RJSG1LD3534 | 3.5×34 | ||
RJSG1LD3536 | 3.5×36 | ||
RJSG1LD3538 | 3.5×38 | ||
RJSG1LD3540 | 3.5×40 | ||
RJSG1LD3542 | 3.5×42 | ||
RJSG1LD3544 | 3.5×44 | ||
RJSG1LD3546 | 3.5×46 | ||
RJSG1LD3548 | 3.5×48 | ||
RJSG1LD3550 | 3.5×50 | ||
Locking Screw-III | RJSG1LD4018 | 4.0×18 | |
RJSG1LD4020 | 4.0×20 | ||
RJSG1LD4022 | 4.0×22 | ||
RJSG1LD4024 | 4.0×24 | ||
RJSG1LD4026 | 4.0×26 | ||
RJSG1LD4028 | 4.0×28 | ||
RJSG1LD4030 | 4.0×30 | ||
RJSG1LD4032 | 4.0×32 | ||
RJSG1LD4034 | 4.0×34 | ||
RJSG1LD4036 | 4.0×36 | ||
RJSG1LD4038 | 4.0×38 | ||
RJSG1LD4040 | 4.0×40 | ||
RJSG1LD4042 | 4.0×42 | ||
RJSG1LD4044 | 4.0×44 | ||
RJSG1LD4046 | 4.0×46 | ||
RJSG1LD4048 | 4.0×48 | ||
RJSG1LD4050 | 4.0×50 | ||
RJSG1LD4052 | 4.0×52 | ||
RJSG1LD4054 | 4.0×54 | ||
RJSG1LD4056 | 4.0×56 | ||
RJSG1LD4058 | 4.0×58 | ||
RJSG1LD4060 | 4.0×60 |
1.Straight nail design for central insertion point.
|
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 Multi-Lock Humerus Intramedullary Nail Product Catalog.
2. Choose Your Interested Multi-Lock Humerus Intramedullary Nail Product.
3. Ask For A Sample To Test Multi-Lock Humerus Intramedullary Nail Quality.
4.Make An Order Of Xc Medico's Multi-Lock Humerus Intramedullary Nail.
5.Become A Dealer Of Xc Medico's Multi-Lock Humerus Intramedullary Nail.
1. Better Purchase Prices Of Multi-Lock Humerus Intramedullary Nail.
2.100% The Highest Quality Multi-Lock Humerus Intramedullary Nail.
3. Less Ordering Efforts.
4. Price Stability For The Period Of Agreement.
5. Sufficient Multi-Lock Humerus Intramedullary Nail.
6. Quick And Easy Assessment Of XC Medico's Multi-Lock Humerus Intramedullary Nail.
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 humerus multi-lock intramedullary nail is a surgical implant designed to stabilize fractures of the humerus bone in the upper arm. It is a long, slender rod made of titanium or stainless steel that is inserted into the medullary cavity of the humerus. The nail is secured in place with locking screws that are inserted into the bone and the nail itself.
The nail includes several proximal and distal locking points that provide secure fixation. This feature allows for flexibility in handling various fracture types, including transverse, oblique, and comminuted fractures.
With an ergonomic design that facilitates ease of insertion and positioning, the nail reduces surgical time and enables accurate alignment with minimal adjustments.
Constructed from high-grade titanium, the nail is lightweight, corrosion-resistant, and biocompatible, Made of biocompatible materials that are well-tolerated by the body, reducing the risk of postoperative complications and ensuring longevity.
Reduces the risk of tissue irritation and infection.
The multi-locking system provides enhanced stability, reducing the risk of rotational instability and ensuring secure fracture fixation, particularly beneficial in comminuted fractures.
Its minimally invasive nature reduces soft tissue disruption, resulting in less post-operative pain, lower infection risk, and faster recovery for patients.
Patients often regain mobility sooner due to the nail’s load-sharing capabilities, which support early weight-bearing, essential for reducing complications associated with prolonged immobilization.
Its compatibility with different fracture patterns and humeral anatomies makes it a versatile choice for trauma surgeons, ensuring high success rates across a range of cases.
Including detailed medical history, physical examination, imaging examination (X-ray, CT, etc.) to evaluate the type and degree of fracture and the condition of surrounding soft tissue.
According to the imaging data, a detailed surgical plan is formulated, including the selection of approach, intramedullary nail model, number and position of locking screws, etc.
Brachial plexus block or general anesthesia is usually used.
This is the most commonly used approach, through the incision on the anterior deltoid muscle, the proximal humerus is exposed.
For some special fracture types, other approaches may be required, such as the subcoracoid approach.
Under the guidance of a C-arm X-ray machine, the fractured bone fragments are reduced to the anatomical position by manipulation or with the help of instruments.
For complex fractures, open reduction may be required through a small incision.
The medullary cavity is gradually enlarged using a medullary cavity expander to accommodate the diameter of the intramedullary nail.
Under the guidance of the C-arm X-ray machine, the guide needle is inserted into the medullary cavity from the humeral head or greater tuberosity to the distal end of the fracture.
Insert the intramedullary nail along the guide needle until it reaches the predetermined position.
Under the guidance of the C-arm X-ray machine, a hole is drilled at the humeral head or greater tuberosity through a special drilling sleeve, and then a locking screw is inserted.
Drill a hole at the distal end of the fracture and insert a locking screw.
Screw reinforcement: The number of locking screws can be increased according to the type and stability of the fracture.
After thorough hemostasis, the soft tissue is closed layer by layer.
Place a drainage tube if necessary.
Bandage the wound with a sterile dressing.
After surgery, the affected limb usually needs to be fixed on a triangular bandage or use a shoulder brace.
Functional exercises of the shoulder joint are started early after surgery to prevent joint stiffness.
To prevent infection, antibiotics are given after surgery.
Regular follow-up to monitor fracture healing.
Although rare, nail migration can occur if not securely locked, so surgeons must verify that all locking points are properly engaged during surgery.
Proper sterilization protocols must be followed rigorously to prevent post-operative infections, especially given the minimally invasive nature of the procedure.
Using controlled force during insertion helps prevent bone splintering or excessive widening of the canal, which could lead to complications or delayed healing.
NSAIDs and other pain relievers are commonly used to manage post-operative pain, with additional therapies as needed to ensure patient comfort.
Supervised physical therapy may be introduced after 4-6 weeks to restore muscle strength, flexibility, and range of motion, helping the patient regain normal arm function.
Patients are advised to watch for signs of infection at the incision site, such as redness or swelling, and to follow up with regular check-ups.
Regular imaging is conducted to track bone healing and ensure the nail remains in the correct position, which is crucial for a successful recovery.
The timeline for returning to normal activities varies depending on the specific fracture, individual healing rate, and surgical procedure. It is essential to follow your surgeon's advice and avoid excessive physical activity during the initial healing phase. As the bone heals, you can gradually increase your activity level, including gentle range of motion exercises and strengthening exercises.
The future market for humerus multi-lock intramedullary nails is set to grow, driven by advancements in orthopedic technologies, increasing demand for minimally invasive solutions, and expansion in emerging markets.
Humerus multi-lock intramedullary nails are effective surgical implants for stabilizing humerus fractures. They offer several advantages, including minimal invasiveness, faster healing, and improved functional outcomes. However, it is important to understand the potential risks and complications associated with this procedure. By following proper surgical techniques and postoperative care, patients can achieve optimal healing and recovery.
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.
Products | Picture | Specific Models | Specification |
Humerus Multi Lock Intramedullary Nails | RJSG18160R | 8.0×160R | |
RJSG18160L | 8.0×160L | ||
RJSG19160R | 9.0×160R | ||
RJSG19160L | 9.0×160L | ||
RJSG17180R | 7.0×180 | ||
RJSG17195R | 7.0×195 | ||
RJSG17210R | 7.0×210 | ||
RJSG17225R | 7.0×225 | ||
RJSG17240R | 7.0×240 | ||
RJSG17255R | 7.0×255 | ||
RJSG18180R | 8.0×180 | ||
RJSG18195R | 8.0×195 | ||
RJSG18210R | 8.0×210 | ||
RJSG18225R | 8.0×225 | ||
RJSG18240R | 8.0×240 | ||
RJSG18255R | 8.0×255 | ||
RJSG17180L | 7.0×180 | ||
RJSG17195L | 7.0×195 | ||
RJSG17210L | 7.0×210 | ||
RJSG17225L | 7.0×225 | ||
RJSG17240L | 7.0×240 | ||
RJSG17255L | 7.0×255 | ||
RJSG18180L | 8.0×180 | ||
RJSG18195L | 8.0×195 | ||
RJSG18210L | 8.0×210 | ||
RJSG18225L | 8.0×225 | ||
RJSG18240L | 8.0×240 | ||
RJSG18255L | 8.0×255 | ||
Screw Nut | RJSG1WM0 | 0 | |
RJSG1WM2 | 2 | ||
RJSG1WM5 | 5 | ||
RJSG1WM10 | 10 | ||
RJSG1WM15 | 15 | ||
Locking Screw-I | RJSG1LD4530 | 4.5×30 | |
RJSG1LD4532 | 4.5×32 | ||
RJSG1LD4534 | 4.5×34 | ||
RJSG1LD4536 | 4.5×36 | ||
RJSG1LD4538 | 4.5×38 | ||
RJSG1LD4540 | 4.5×40 | ||
RJSG1LD4542 | 4.5×42 | ||
RJSG1LD4544 | 4.5×44 | ||
RJSG1LD4546 | 4.5×46 | ||
RJSG1LD4548 | 4.5×48 | ||
RJSG1LD4550 | 4.5×50 | ||
RJSG1LD4552 | 4.5×52 | ||
RJSG1LD4554 | 4.5×54 | ||
RJSG1LD4556 | 4.5×56 | ||
RJSG1LD4558 | 4.5×58 | ||
RJSG1LD4560 | 4.5×60 | ||
Locking Screw-II | RJSG1LD3526 | 3.5×26 | |
RJSG1LD3528 | 3.5×28 | ||
RJSG1LD3530 | 3.5×30 | ||
RJSG1LD3532 | 3.5×32 | ||
RJSG1LD3534 | 3.5×34 | ||
RJSG1LD3536 | 3.5×36 | ||
RJSG1LD3538 | 3.5×38 | ||
RJSG1LD3540 | 3.5×40 | ||
RJSG1LD3542 | 3.5×42 | ||
RJSG1LD3544 | 3.5×44 | ||
RJSG1LD3546 | 3.5×46 | ||
RJSG1LD3548 | 3.5×48 | ||
RJSG1LD3550 | 3.5×50 | ||
Locking Screw-III | RJSG1LD4018 | 4.0×18 | |
RJSG1LD4020 | 4.0×20 | ||
RJSG1LD4022 | 4.0×22 | ||
RJSG1LD4024 | 4.0×24 | ||
RJSG1LD4026 | 4.0×26 | ||
RJSG1LD4028 | 4.0×28 | ||
RJSG1LD4030 | 4.0×30 | ||
RJSG1LD4032 | 4.0×32 | ||
RJSG1LD4034 | 4.0×34 | ||
RJSG1LD4036 | 4.0×36 | ||
RJSG1LD4038 | 4.0×38 | ||
RJSG1LD4040 | 4.0×40 | ||
RJSG1LD4042 | 4.0×42 | ||
RJSG1LD4044 | 4.0×44 | ||
RJSG1LD4046 | 4.0×46 | ||
RJSG1LD4048 | 4.0×48 | ||
RJSG1LD4050 | 4.0×50 | ||
RJSG1LD4052 | 4.0×52 | ||
RJSG1LD4054 | 4.0×54 | ||
RJSG1LD4056 | 4.0×56 | ||
RJSG1LD4058 | 4.0×58 | ||
RJSG1LD4060 | 4.0×60 |
1.Straight nail design for central insertion point.
|
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 Multi-Lock Humerus Intramedullary Nail Product Catalog.
2. Choose Your Interested Multi-Lock Humerus Intramedullary Nail Product.
3. Ask For A Sample To Test Multi-Lock Humerus Intramedullary Nail Quality.
4.Make An Order Of Xc Medico's Multi-Lock Humerus Intramedullary Nail.
5.Become A Dealer Of Xc Medico's Multi-Lock Humerus Intramedullary Nail.
1. Better Purchase Prices Of Multi-Lock Humerus Intramedullary Nail.
2.100% The Highest Quality Multi-Lock Humerus Intramedullary Nail.
3. Less Ordering Efforts.
4. Price Stability For The Period Of Agreement.
5. Sufficient Multi-Lock Humerus Intramedullary Nail.
6. Quick And Easy Assessment Of XC Medico's Multi-Lock Humerus Intramedullary Nail.
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 humerus multi-lock intramedullary nail is a surgical implant designed to stabilize fractures of the humerus bone in the upper arm. It is a long, slender rod made of titanium or stainless steel that is inserted into the medullary cavity of the humerus. The nail is secured in place with locking screws that are inserted into the bone and the nail itself.
The nail includes several proximal and distal locking points that provide secure fixation. This feature allows for flexibility in handling various fracture types, including transverse, oblique, and comminuted fractures.
With an ergonomic design that facilitates ease of insertion and positioning, the nail reduces surgical time and enables accurate alignment with minimal adjustments.
Constructed from high-grade titanium, the nail is lightweight, corrosion-resistant, and biocompatible, Made of biocompatible materials that are well-tolerated by the body, reducing the risk of postoperative complications and ensuring longevity.
Reduces the risk of tissue irritation and infection.
The multi-locking system provides enhanced stability, reducing the risk of rotational instability and ensuring secure fracture fixation, particularly beneficial in comminuted fractures.
Its minimally invasive nature reduces soft tissue disruption, resulting in less post-operative pain, lower infection risk, and faster recovery for patients.
Patients often regain mobility sooner due to the nail’s load-sharing capabilities, which support early weight-bearing, essential for reducing complications associated with prolonged immobilization.
Its compatibility with different fracture patterns and humeral anatomies makes it a versatile choice for trauma surgeons, ensuring high success rates across a range of cases.
Including detailed medical history, physical examination, imaging examination (X-ray, CT, etc.) to evaluate the type and degree of fracture and the condition of surrounding soft tissue.
According to the imaging data, a detailed surgical plan is formulated, including the selection of approach, intramedullary nail model, number and position of locking screws, etc.
Brachial plexus block or general anesthesia is usually used.
This is the most commonly used approach, through the incision on the anterior deltoid muscle, the proximal humerus is exposed.
For some special fracture types, other approaches may be required, such as the subcoracoid approach.
Under the guidance of a C-arm X-ray machine, the fractured bone fragments are reduced to the anatomical position by manipulation or with the help of instruments.
For complex fractures, open reduction may be required through a small incision.
The medullary cavity is gradually enlarged using a medullary cavity expander to accommodate the diameter of the intramedullary nail.
Under the guidance of the C-arm X-ray machine, the guide needle is inserted into the medullary cavity from the humeral head or greater tuberosity to the distal end of the fracture.
Insert the intramedullary nail along the guide needle until it reaches the predetermined position.
Under the guidance of the C-arm X-ray machine, a hole is drilled at the humeral head or greater tuberosity through a special drilling sleeve, and then a locking screw is inserted.
Drill a hole at the distal end of the fracture and insert a locking screw.
Screw reinforcement: The number of locking screws can be increased according to the type and stability of the fracture.
After thorough hemostasis, the soft tissue is closed layer by layer.
Place a drainage tube if necessary.
Bandage the wound with a sterile dressing.
After surgery, the affected limb usually needs to be fixed on a triangular bandage or use a shoulder brace.
Functional exercises of the shoulder joint are started early after surgery to prevent joint stiffness.
To prevent infection, antibiotics are given after surgery.
Regular follow-up to monitor fracture healing.
Although rare, nail migration can occur if not securely locked, so surgeons must verify that all locking points are properly engaged during surgery.
Proper sterilization protocols must be followed rigorously to prevent post-operative infections, especially given the minimally invasive nature of the procedure.
Using controlled force during insertion helps prevent bone splintering or excessive widening of the canal, which could lead to complications or delayed healing.
NSAIDs and other pain relievers are commonly used to manage post-operative pain, with additional therapies as needed to ensure patient comfort.
Supervised physical therapy may be introduced after 4-6 weeks to restore muscle strength, flexibility, and range of motion, helping the patient regain normal arm function.
Patients are advised to watch for signs of infection at the incision site, such as redness or swelling, and to follow up with regular check-ups.
Regular imaging is conducted to track bone healing and ensure the nail remains in the correct position, which is crucial for a successful recovery.
The timeline for returning to normal activities varies depending on the specific fracture, individual healing rate, and surgical procedure. It is essential to follow your surgeon's advice and avoid excessive physical activity during the initial healing phase. As the bone heals, you can gradually increase your activity level, including gentle range of motion exercises and strengthening exercises.
The future market for humerus multi-lock intramedullary nails is set to grow, driven by advancements in orthopedic technologies, increasing demand for minimally invasive solutions, and expansion in emerging markets.
Humerus multi-lock intramedullary nails are effective surgical implants for stabilizing humerus fractures. They offer several advantages, including minimal invasiveness, faster healing, and improved functional outcomes. However, it is important to understand the potential risks and complications associated with this procedure. By following proper surgical techniques and postoperative care, patients can achieve optimal healing and recovery.
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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