RJSD
XCmedico
1 Pcs(72 Hours Delivery)
Tibia
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: | |
Prduct | Picture | REFTitanium Alloy | Specification |
Tibia Intramedullary Nailmatch 4.5mm locking screw Full-threaded | RJSD08240 | Ф8x240 | |
RJSD08260 | Ф8x260 | ||
RJSD08280 | Ф8x280 | ||
RJSD08300 | Ф8x300 | ||
RJSD08320 | Ф8x320 | ||
RJSD08340 | Ф8x340 | ||
RJSD08360 | Ф8x360 | ||
RJSD08380 | Ф8x380 | ||
RJSD09240 | Ф9x240 | ||
RJSD09260 | Ф9x260 | ||
RJSD09280 | Ф9x280 | ||
RJSD09300 | Ф9x300 | ||
RJSD09320 | Ф9x320 | ||
RJSD09340 | Ф9x340 | ||
RJSD09360 | Ф9x360 | ||
RJSD09380 | Ф9x380 | ||
RJSD10240 | Ф10x240 | ||
RJSD10260 | Ф10x260 | ||
RJSD10280 | Ф10x280 | ||
RJSD10300 | Ф10x300 | ||
RJSD10320 | Ф10x320 | ||
RJSD10340 | Ф10x340 | ||
RJSD10360 | Ф10x360 | ||
RJSD10380 | Ф10x380 | ||
RJSD11240 | Ф11x240 | ||
RJSD11260 | Ф11x260 | ||
RJSD11280 | Ф11x280 | ||
RJSD11300 | Ф11x300 | ||
RJSD11320 | Ф11x320 | ||
RJSD11340 | Ф11x340 | ||
RJSD11360 | Ф11x360 | ||
RJSD11380 | Ф11x380 |
1. Three innovative locking options, in combination with cancellous bone locking screws, increase the stability of the proximal fragment for proximal third fractures. 2. Two state-of-the-art mediolateral (ML) locking options enable primary compression or secondary controlled dynamization. |
1. Anatomic bend for ease of nail insertion. 2. Titanium alloy TAN* for improved mechanical and fatigue properties. 3. Cannulated nails (from 8 mm to 10 mm) for reamed or unreamed techniques, enabling nail insertion over the guide wire. 4. The ball-tipped guide wires may be removed through the nail and insertion handle assembly (no exchange tube required). |
1.Distal oblique locking option to prevent soft tissue damage and increase stability of the distal fragment. 2. Two ML and one anteroposterior (AP) locking options for stability of the distal. |
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 Tibia Intramedullary Nail product catalog.
2. Choose your interested Tibia Intramedullary Nail product.
3. Ask for a sample to test Tibia Intramedullary Nail quality.
4.Make an order of XC Medico's Tibia Intramedullary Nail.
5.Become a dealer of XC medico's Tibia Intramedullary Nail.
1. Better Purchase Prices Of Tibia Intramedullary Nail.
2.100% The Highest Quality Tibia Intramedullary Nail.
3. Less Ordering Efforts.
4. Price Stability For The Period Of Agreement.
5. Sufficient Tibia Intramedullary Nail Inventory
6. Quick And Easy Assessment Of XC Medico's Tibia 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.
Tibia intramedullary (IM) nail surgery is a common procedure used to treat fractures of the tibia, the long bone in the lower leg. This technique involves inserting a metal rod (nail) into the marrow canal of the tibia to stabilize and align the bone as it heals. It's often chosen for its effectiveness in treating various types of tibial fractures, particularly in the shaft area, and can be used in cases of both closed and open fractures.
Static Locking: Screws are inserted through both the proximal and distal ends of the nail, preventing rotation and longitudinal movement. This is ideal for unstable fractures.
Allows for controlled axial movement, which can help with bone healing by allowing slight compression at the fracture site. It's used for stable fractures where some motion can promote healing.
Some nails offer various screw hole positions, allowing for angular stability and better adaptation to different fracture patterns.
Tibia nails come in various diameters and lengths to fit patients of different sizes and fracture locations. Surgeons can select the appropriate size to ensure optimal stability and fit.
Nails with options for proximal and distal adjustments allow better adaptation to patient anatomy, even if the tibial canal is irregular.
Many tibia IM nails are cannulated (hollow) to allow for insertion over a guidewire. This feature facilitates easier and more accurate placement, especially in minimally invasive procedures.
A slight bend or curve is often designed into the nail to better match the natural anatomy of the tibia and improve alignment within the bone canal.
Made from either titanium or stainless steel, interlocking screws help secure the nail within the bone. They provide rotational and angular stability, preventing unwanted movement and ensuring proper alignment during healing.
These notches or holes facilitate locking screw placement at different angles, which can aid in stabilizing comminuted fractures (those with multiple bone fragments) or fractures close to the joints.
Some nails have specialized coatings, such as hydroxyapatite, which can promote bone growth and integration. Others may have a polished or roughened surface to reduce friction and prevent tissue irritation.
Certain nails are equipped with radiolucent markers to help the surgeon verify the nail's position during surgery using fluoroscopy or X-rays. These markers improve accuracy and help monitor alignment.
IM nailing typically requires only small incisions, which minimizes soft tissue disruption and reduces scarring. This minimally invasive approach helps preserve the surrounding muscle and blood supply, promoting faster healing and reducing post-operative pain.
Compared to other fixation methods, tibia IM nails allow for early weight-bearing, often within a few weeks of surgery. This helps patients regain mobility faster and can reduce the risk of complications associated with prolonged immobility, such as blood clots or muscle atrophy.
IM nails provide strong internal support by aligning the fracture along the central axis of the bone. Locking screws at both ends of the nail secure the bone fragments and prevent rotation or movement, which ensures proper alignment during healing and reduces the risk of malunion.
By providing stable fixation and allowing for controlled micro-movement at the fracture site (especially with dynamic locking), IM nails can stimulate bone healing. This can lead to faster recovery times compared to other fixation methods like external fixation or plating.
IM nailing preserves the bone’s periosteal blood supply since it doesn’t involve extensive dissection of the bone’s outer surface. This promotes better bone health and facilitates natural healing, especially important for fractures with compromised blood flow.
IM nails can be used for a wide range of tibial fractures, including transverse, oblique, comminuted (with multiple fragments), and segmental fractures. They are also suitable for both closed and some open fractures, depending on the injury's severity and location.
Since the IM nail is internal, it is less prone to infection than external fixation devices, which have pins or wires that extend outside the skin. Additionally, the small incisions required for IM nailing lower the overall risk of infection.
IM nails are located within the bone and don’t typically cause external irritation. Patients often experience less discomfort compared to external fixation devices or bulky casts, which can restrict movement and impact daily activities.
The stability provided by IM nails allows for quicker mobilization, which can often lead to a reduced need for prolonged hospital stays or extensive rehabilitation. This can be beneficial for both the patient’s recovery and healthcare costs.
IM nails are designed to provide robust support throughout the healing process and are less likely to fail under normal stress loads. They can often remain in place indefinitely unless complications arise or removal is necessary.
Tibia intramedullary nail surgery is a common procedure used to treat fractures of the tibia, the long bone in the lower leg. This technique involves inserting a metal rod (nail) into the marrow canal of the tibia to stabilize and align the bone as it heals. It's often chosen for its effectiveness in treating various types of tibial fractures, particularly in the shaft area, and can be used in cases of both closed and open fractures.
The patient is usually under general or regional anesthesia. A small incision is made at the top of the tibia, near the knee, to access the bone.
A guidewire is inserted into the marrow canal, and then a reamer is used to enlarge the canal. The intramedullary nail, typically made of titanium or stainless steel, is then inserted over the guidewire and positioned within the canal.
To secure the nail, locking screws are placed at both ends of the tibia, often guided by X-ray imaging to ensure accurate placement. These screws prevent rotation and provide additional stability to the bone.
The incision is closed with sutures, and the patient may be fitted with a brace or cast depending on the severity of the fracture and the surgeon's preference.
Although the risk is lower than with external fixation, infections can still occur, particularly at the incision or around the hardware. Deep infections may necessitate additional surgeries to remove or replace the hardware.
In some cases, the bone may not heal properly (non-union) or healing may be delayed. This can result from poor blood supply, infection, or inadequate stabilization of the fracture.
Malunion occurs when the bone heals in an incorrect alignment. This may lead to deformities, pain, and functional impairments. It can result from improper nail placement or inadequate stabilization.
The IM nail or locking screws can sometimes break or loosen, especially if the fracture doesn't heal as expected. This may require additional surgery to replace or repair the hardware.
Some patients experience chronic pain in the front of the knee, especially if the nail was inserted near the knee joint. This can be due to irritation from the hardware or the nail's placement.
This rare but serious complication involves increased pressure within the leg's muscle compartments, which can lead to tissue damage if untreated. It often presents as severe pain, swelling, and numbness.
During surgery, there’s a risk of damaging nearby nerves or blood vessels. This could lead to temporary or permanent numbness, weakness, or circulation problems.
A rare complication, this can occur when fat particles enter the bloodstream during the reaming process. It can lead to respiratory distress, confusion, and other systemic symptoms.
Medication, Elevation and Ice
Dressing Change, Avoid Soaking
Gradual Weight-Bearing, Walking Aids
Range of Motion Exercises, Strengthening Exercises, Gradual Progression
Avoid High-impact Activities
Signs of Infection, Signs of Blood Clots Etc
The amount of time it takes to return to activity after tibia intramedullary nail surgery varies greatly depending on individual factors and the severit
Rest and Elevation,Non-weight Bearing or Partial Weight-Bearing,Basic Mobility
Partial Weight-Bearing,Physical Therapy,Daily Activities
Full Weight-Bearing,Increased Activity,Return to Work
Higher Impact Activities,Strength and Conditioning
Return to Sports and High-impact Activities,Monitoring and Final Recovery
According to Apol's research, the global intramedullary nail market sales in 2023 will be approximately US$470 million, and it is expected to grow at a CAGR (compound annual growth rate) of more than 3.82% during the forecast period of 2024-2030. This shows that the intramedullary nail market, including Tibia intramedullary nails, will continue to expand globally, providing a broad market space for manufacturers and suppliers.
Tibia intramedullary (IM) nail is a metal rod inserted into the center of the tibia to stabilize fractures. This minimally invasive procedure provides strong internal support, enabling early weight-bearing and faster recovery. During the surgery, a nail is placed within the bone canal and secured with locking screws to prevent movement.However, the success of the operation is closely related to the doctor's skills, individual differences of the patient and postoperative care. Patients should choose a regular hospital, have the operation performed by an experienced doctor, and strictly follow the doctor's instructions for postoperative rehabilitation.
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.
Prduct | Picture | REFTitanium Alloy | Specification |
Tibia Intramedullary Nailmatch 4.5mm locking screw Full-threaded | RJSD08240 | Ф8x240 | |
RJSD08260 | Ф8x260 | ||
RJSD08280 | Ф8x280 | ||
RJSD08300 | Ф8x300 | ||
RJSD08320 | Ф8x320 | ||
RJSD08340 | Ф8x340 | ||
RJSD08360 | Ф8x360 | ||
RJSD08380 | Ф8x380 | ||
RJSD09240 | Ф9x240 | ||
RJSD09260 | Ф9x260 | ||
RJSD09280 | Ф9x280 | ||
RJSD09300 | Ф9x300 | ||
RJSD09320 | Ф9x320 | ||
RJSD09340 | Ф9x340 | ||
RJSD09360 | Ф9x360 | ||
RJSD09380 | Ф9x380 | ||
RJSD10240 | Ф10x240 | ||
RJSD10260 | Ф10x260 | ||
RJSD10280 | Ф10x280 | ||
RJSD10300 | Ф10x300 | ||
RJSD10320 | Ф10x320 | ||
RJSD10340 | Ф10x340 | ||
RJSD10360 | Ф10x360 | ||
RJSD10380 | Ф10x380 | ||
RJSD11240 | Ф11x240 | ||
RJSD11260 | Ф11x260 | ||
RJSD11280 | Ф11x280 | ||
RJSD11300 | Ф11x300 | ||
RJSD11320 | Ф11x320 | ||
RJSD11340 | Ф11x340 | ||
RJSD11360 | Ф11x360 | ||
RJSD11380 | Ф11x380 |
1. Three innovative locking options, in combination with cancellous bone locking screws, increase the stability of the proximal fragment for proximal third fractures. 2. Two state-of-the-art mediolateral (ML) locking options enable primary compression or secondary controlled dynamization. |
1. Anatomic bend for ease of nail insertion. 2. Titanium alloy TAN* for improved mechanical and fatigue properties. 3. Cannulated nails (from 8 mm to 10 mm) for reamed or unreamed techniques, enabling nail insertion over the guide wire. 4. The ball-tipped guide wires may be removed through the nail and insertion handle assembly (no exchange tube required). |
1.Distal oblique locking option to prevent soft tissue damage and increase stability of the distal fragment. 2. Two ML and one anteroposterior (AP) locking options for stability of the distal. |
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 Tibia Intramedullary Nail product catalog.
2. Choose your interested Tibia Intramedullary Nail product.
3. Ask for a sample to test Tibia Intramedullary Nail quality.
4.Make an order of XC Medico's Tibia Intramedullary Nail.
5.Become a dealer of XC medico's Tibia Intramedullary Nail.
1. Better Purchase Prices Of Tibia Intramedullary Nail.
2.100% The Highest Quality Tibia Intramedullary Nail.
3. Less Ordering Efforts.
4. Price Stability For The Period Of Agreement.
5. Sufficient Tibia Intramedullary Nail Inventory
6. Quick And Easy Assessment Of XC Medico's Tibia 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.
Tibia intramedullary (IM) nail surgery is a common procedure used to treat fractures of the tibia, the long bone in the lower leg. This technique involves inserting a metal rod (nail) into the marrow canal of the tibia to stabilize and align the bone as it heals. It's often chosen for its effectiveness in treating various types of tibial fractures, particularly in the shaft area, and can be used in cases of both closed and open fractures.
Static Locking: Screws are inserted through both the proximal and distal ends of the nail, preventing rotation and longitudinal movement. This is ideal for unstable fractures.
Allows for controlled axial movement, which can help with bone healing by allowing slight compression at the fracture site. It's used for stable fractures where some motion can promote healing.
Some nails offer various screw hole positions, allowing for angular stability and better adaptation to different fracture patterns.
Tibia nails come in various diameters and lengths to fit patients of different sizes and fracture locations. Surgeons can select the appropriate size to ensure optimal stability and fit.
Nails with options for proximal and distal adjustments allow better adaptation to patient anatomy, even if the tibial canal is irregular.
Many tibia IM nails are cannulated (hollow) to allow for insertion over a guidewire. This feature facilitates easier and more accurate placement, especially in minimally invasive procedures.
A slight bend or curve is often designed into the nail to better match the natural anatomy of the tibia and improve alignment within the bone canal.
Made from either titanium or stainless steel, interlocking screws help secure the nail within the bone. They provide rotational and angular stability, preventing unwanted movement and ensuring proper alignment during healing.
These notches or holes facilitate locking screw placement at different angles, which can aid in stabilizing comminuted fractures (those with multiple bone fragments) or fractures close to the joints.
Some nails have specialized coatings, such as hydroxyapatite, which can promote bone growth and integration. Others may have a polished or roughened surface to reduce friction and prevent tissue irritation.
Certain nails are equipped with radiolucent markers to help the surgeon verify the nail's position during surgery using fluoroscopy or X-rays. These markers improve accuracy and help monitor alignment.
IM nailing typically requires only small incisions, which minimizes soft tissue disruption and reduces scarring. This minimally invasive approach helps preserve the surrounding muscle and blood supply, promoting faster healing and reducing post-operative pain.
Compared to other fixation methods, tibia IM nails allow for early weight-bearing, often within a few weeks of surgery. This helps patients regain mobility faster and can reduce the risk of complications associated with prolonged immobility, such as blood clots or muscle atrophy.
IM nails provide strong internal support by aligning the fracture along the central axis of the bone. Locking screws at both ends of the nail secure the bone fragments and prevent rotation or movement, which ensures proper alignment during healing and reduces the risk of malunion.
By providing stable fixation and allowing for controlled micro-movement at the fracture site (especially with dynamic locking), IM nails can stimulate bone healing. This can lead to faster recovery times compared to other fixation methods like external fixation or plating.
IM nailing preserves the bone’s periosteal blood supply since it doesn’t involve extensive dissection of the bone’s outer surface. This promotes better bone health and facilitates natural healing, especially important for fractures with compromised blood flow.
IM nails can be used for a wide range of tibial fractures, including transverse, oblique, comminuted (with multiple fragments), and segmental fractures. They are also suitable for both closed and some open fractures, depending on the injury's severity and location.
Since the IM nail is internal, it is less prone to infection than external fixation devices, which have pins or wires that extend outside the skin. Additionally, the small incisions required for IM nailing lower the overall risk of infection.
IM nails are located within the bone and don’t typically cause external irritation. Patients often experience less discomfort compared to external fixation devices or bulky casts, which can restrict movement and impact daily activities.
The stability provided by IM nails allows for quicker mobilization, which can often lead to a reduced need for prolonged hospital stays or extensive rehabilitation. This can be beneficial for both the patient’s recovery and healthcare costs.
IM nails are designed to provide robust support throughout the healing process and are less likely to fail under normal stress loads. They can often remain in place indefinitely unless complications arise or removal is necessary.
Tibia intramedullary nail surgery is a common procedure used to treat fractures of the tibia, the long bone in the lower leg. This technique involves inserting a metal rod (nail) into the marrow canal of the tibia to stabilize and align the bone as it heals. It's often chosen for its effectiveness in treating various types of tibial fractures, particularly in the shaft area, and can be used in cases of both closed and open fractures.
The patient is usually under general or regional anesthesia. A small incision is made at the top of the tibia, near the knee, to access the bone.
A guidewire is inserted into the marrow canal, and then a reamer is used to enlarge the canal. The intramedullary nail, typically made of titanium or stainless steel, is then inserted over the guidewire and positioned within the canal.
To secure the nail, locking screws are placed at both ends of the tibia, often guided by X-ray imaging to ensure accurate placement. These screws prevent rotation and provide additional stability to the bone.
The incision is closed with sutures, and the patient may be fitted with a brace or cast depending on the severity of the fracture and the surgeon's preference.
Although the risk is lower than with external fixation, infections can still occur, particularly at the incision or around the hardware. Deep infections may necessitate additional surgeries to remove or replace the hardware.
In some cases, the bone may not heal properly (non-union) or healing may be delayed. This can result from poor blood supply, infection, or inadequate stabilization of the fracture.
Malunion occurs when the bone heals in an incorrect alignment. This may lead to deformities, pain, and functional impairments. It can result from improper nail placement or inadequate stabilization.
The IM nail or locking screws can sometimes break or loosen, especially if the fracture doesn't heal as expected. This may require additional surgery to replace or repair the hardware.
Some patients experience chronic pain in the front of the knee, especially if the nail was inserted near the knee joint. This can be due to irritation from the hardware or the nail's placement.
This rare but serious complication involves increased pressure within the leg's muscle compartments, which can lead to tissue damage if untreated. It often presents as severe pain, swelling, and numbness.
During surgery, there’s a risk of damaging nearby nerves or blood vessels. This could lead to temporary or permanent numbness, weakness, or circulation problems.
A rare complication, this can occur when fat particles enter the bloodstream during the reaming process. It can lead to respiratory distress, confusion, and other systemic symptoms.
Medication, Elevation and Ice
Dressing Change, Avoid Soaking
Gradual Weight-Bearing, Walking Aids
Range of Motion Exercises, Strengthening Exercises, Gradual Progression
Avoid High-impact Activities
Signs of Infection, Signs of Blood Clots Etc
The amount of time it takes to return to activity after tibia intramedullary nail surgery varies greatly depending on individual factors and the severit
Rest and Elevation,Non-weight Bearing or Partial Weight-Bearing,Basic Mobility
Partial Weight-Bearing,Physical Therapy,Daily Activities
Full Weight-Bearing,Increased Activity,Return to Work
Higher Impact Activities,Strength and Conditioning
Return to Sports and High-impact Activities,Monitoring and Final Recovery
According to Apol's research, the global intramedullary nail market sales in 2023 will be approximately US$470 million, and it is expected to grow at a CAGR (compound annual growth rate) of more than 3.82% during the forecast period of 2024-2030. This shows that the intramedullary nail market, including Tibia intramedullary nails, will continue to expand globally, providing a broad market space for manufacturers and suppliers.
Tibia intramedullary (IM) nail is a metal rod inserted into the center of the tibia to stabilize fractures. This minimally invasive procedure provides strong internal support, enabling early weight-bearing and faster recovery. During the surgery, a nail is placed within the bone canal and secured with locking screws to prevent movement.However, the success of the operation is closely related to the doctor's skills, individual differences of the patient and postoperative care. Patients should choose a regular hospital, have the operation performed by an experienced doctor, and strictly follow the doctor's instructions for postoperative rehabilitation.
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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