Type 2 Medical Lumbar Spinal Transforaminal Endoscopy Instruments For Adult

Type 2 Medical Device Lumbar Spinal Transforaminal Endoscopy Instruments For Adult

1 Introduction:
If you are looking for minimally invasive surgery medical instruments with good quality, competitive price and reliable service. Wanhe medical is manufaturing these for you. We provide general and professional laparoscopic instruments with CE, FDA approved. 

2 Specifications
1 Adopt optinum stainless steel material
2 Corrosion resistant
3 Tough construction
4 Light weight and easy operation
5 Economic price and optimum quality
 
3 Packing & Shipping:

FAQ

Can minimally invasive orthopedic surgical instruments help reduce postoperative complications?

Minimally invasive orthopedic surgical instruments have significant advantages in reducing postoperative complications. According to multiple studies and clinical practice, minimally invasive techniques reduce the incidence of complications through the following aspects:

Minimally invasive: Minimally invasive surgery usually requires only smaller incisions, which greatly reduces damage to surrounding tissues, thus reducing the risk of postoperative complications such as infection and thrombosis.

Precise operation: The use of advanced imaging technology and robot-assisted systems, such as arthroscopy and endoscopic technology, as well as 3D computer navigation or CT-guided fixation, can ensure the accuracy of surgery and reduce damage to nerves, blood vessels and soft tissues.

Less blood loss: Due to the smaller trauma, the blood loss during minimally invasive surgery is also reduced, which not only helps to shorten the operation time, but also reduces the need for postoperative blood transfusion, thereby reducing infection and other related complications.

Fast recovery: Minimally invasive surgery has less trauma and less bleeding, so patients feel less pain after surgery, can conduct rehabilitation training faster, reduce hospitalization time, and improve their quality of life.

Reduce soft tissue damage: Minimally invasive surgery avoids extensive muscle stripping and long-term repeated stretching, thereby reducing muscle fibrosis and avascular necrosis and promoting postoperative functional recovery.

Verification of multi-faceted effects: Multiple studies have shown that minimally invasive surgery shows better results in many aspects compared with traditional open surgery. For example, in the treatment of spinal trauma, minimally invasive surgery significantly reduces complication rates and improves patient satisfaction.

In short, minimally invasive orthopedic surgical instruments effectively reduce the incidence of postoperative complications by reducing trauma, improving surgical accuracy, and accelerating postoperative recovery, providing patients with safer and more effective treatment options.

What are the latest research advances in minimally invasive orthopedic surgery devices in reducing postoperative complications?

The latest research progress of minimally invasive orthopedic surgical instruments in reducing postoperative complications mainly focuses on the following aspects:

Low complication rate of minimally invasive surgery: Grassi et al.’s study showed that minimally invasive surgery significantly reduced the relative risk of overall complications by 0.21 compared with open surgery (P=0.00001), which shows that minimally invasive surgery can reduce postoperative complications. Has obvious advantages.

Intelligent orthopedic surgical robot: Liurenyi's intelligent orthopedic surgical robot uses real-time image navigation and precise tracking and positioning to reduce screw position adjustments and avoid damage to adjacent important neurovascular tissues, thereby reducing surgical complications. In addition, Professor Liu Xinyu's team at Qilu Hospital of Shandong University performed the world's first full-process minimally invasive surgical robot-assisted percutaneous spinal endoscopic intervertebral foraminal approach for L4/L5 lumbar discectomy, further promoting the development of minimally invasive surgical technology. .

Arthroscopically assisted minimally invasive surgery: Research from Ningde Traditional Chinese Medicine Hospital shows that arthroscopically assisted minimally invasive surgery, performed through small incisions, can reduce surgical trauma, reduce pain, and reduce the risk of postoperative complications, such as infection and poor fracture healing. wait.

Orthopedic endoscopic minimally invasive surgical robot: The world's first full-process orthopedic endoscopic minimally invasive surgical robot successfully implemented its first scientific research surgical trial, demonstrating the advantages of high-precision image scanning, convenient surgical planning, and efficient and high-precision surgical channel establishment. The advantages of these technologies Application helps reduce surgical trauma and complications.

Trans-channel minimally invasive system: In recent years, trans-channel minimally invasive system has been widely used in orthopedic surgical treatment, especially for the repair of acute closed Achilles tendon rupture, which can reduce surgical injuries and complications.

Minimally invasive treatment of pelvic fractures: Research by Zhang et al. found that minimally invasive screw fixation assisted by orthopedic robots in the treatment of unstable pelvic fractures can significantly shorten the operation time and reduce surgical trauma, and has the advantages of safety and accuracy.

What is the specific comparative data on postoperative recovery time between minimally invasive surgery and traditional open surgery?

The specific comparative data on postoperative recovery time between minimally invasive surgery and traditional open surgery are as follows:

Minimally invasive surgery recovery time:

Minimally invasive surgery recovers faster than open surgery, and you can return to normal life one month after surgery.
You can get out of bed 6 hours after minimally invasive surgery. You can remove the urinary catheter after the infusion is completed on the day after surgery. You can take a semi-liquid diet 24 hours after surgery and you can be discharged from the hospital 3 days after surgery.
Generally, patients can be discharged from the hospital 1-2 days after minor minimally invasive surgeries. Most complex minimally invasive surgeries require recovery within 3-5 days.
After laparoscopic cholecystectomy, you can be discharged from the hospital in about 3 days.
After minimally invasive chest surgery, the patient can return to normal and engage in light physical labor about 2 weeks after the operation, and can return to the preoperative state 3 months after the operation.
Recovery time for traditional open surgery:

Because traditional surgery destroys muscles, the recovery time is about 6-12 weeks.
Other comparative data:

Studies have found that, compared with open surgery, minimally invasive surgery has significant advantages in reducing hospital stay and shortening postoperative recovery time.

Minimally invasive surgery results in less tissue damage, less nerve interference, less blood loss, less postoperative pain symptoms, shorter hospital stay, and faster recovery and return to work.

How detailed are the advanced imaging technologies and robotic-assisted systems used in minimally invasive surgery and their impact on surgical accuracy?

In minimally invasive surgery, the application of advanced imaging technology and robotic-assisted systems (RAS) has significantly improved the precision and accuracy of surgery. These technologies include cutting-edge diagnostic imaging technologies such as artificial intelligence, CT, PET, MRI and nuclear scanning. Through these technologies, surgeons can achieve more precise surgical operations with the assistance of the RAS system.

For example, in total knee replacement surgery, the robot-assisted osteotomy system can achieve precise modeling of the anatomy of the knee joint, three-dimensional planning of the preoperative osteotomy path, image registration, and intraoperative robot visual navigation. This multi-modal image fusion and active contour model segmentation technology makes it possible to automatically model and visualize the knee joint, including articular cartilage, thereby improving the accuracy and success rate of surgery.

The da Vinci robotic surgical system is another example, which integrates three-dimensional high-definition vision and rotatable wrist surgical instruments to further improve the accuracy of minimally invasive surgery. In addition, intraoperative imaging and real-time navigation systems provide clearer visualization and precise surgical guidance, helping to improve the success rate of surgery and treatment effects.

The application of intelligent surgical robots also reduces errors and risks during surgery, and improves the success rate and treatment effect of surgery. They have the advantages of precise positioning, shortening operation time, and saving doctors' physical consumption. For example, in orthopedic surgery, AI and big data technologies are used for precise surgical planning, and robots are used to assist in the precise placement of channel screws during the surgery, ensuring a high success rate for the surgery.

In the treatment of spinal trauma, what are the comparative studies on the efficacy of minimally invasive surgery compared with traditional open surgery?

In the treatment of spinal trauma, comparative research on the efficacy of minimally invasive surgery compared with traditional open surgery mainly focuses on the following aspects:

Comparison of efficacy: Multiple studies have shown that the efficacy of minimally invasive surgery in treating spinal trauma is equivalent to that of traditional open surgery, and even performs better in some indicators. For example, it was pointed out that minimally invasive surgery is more effective and allows for faster postoperative recovery.

Operative time and hospital stay: Minimally invasive procedures generally have shorter operating times and hospital stays. mentioned that minimally invasive surgery has shorter operating time and hospital stay than traditional open surgery.

Intraoperative blood loss: Minimally invasive surgery has less intraoperative blood loss, which helps reduce the patient’s risk of blood loss. This is also mentioned in .

Complication rates: Minimally invasive surgery has a lower complication rate, which means patients face fewer risks after surgery. All emphasized the advantages of minimally invasive surgery in reducing the incidence of complications.

Postoperative recovery speed: Patients with minimally invasive surgery recover faster, which may be related to the small surgical trauma and low postoperative pain scores. Shortened postoperative activity time and lower pain scores were noted.

Recovery of spinal function: Minimally invasive surgery can help restore the height of the front edge of the vertebral body and the function of the spine, as mentioned in .

Compared with traditional open surgery in the treatment of spinal trauma, minimally invasive surgery has the advantages of accurate curative effect, short operation and hospitalization time, less intraoperative bleeding, low complication rate, and fast postoperative recovery.

What are the studies on the impact of minimally invasive orthopedic surgical instruments on postoperative complications in patients with specific types (such as arthritis, fractures, etc.)?

Research on the impact of minimally invasive orthopedic surgical instruments on postoperative complications in patients with specific types (such as arthritis, fractures, etc.) mainly focuses on the following aspects:

Minimally invasive percutaneous internal fixation has a significant impact on complications and pain levels in patients with thoracolumbar fractures. Studies have shown that this surgical method can effectively reduce the occurrence of postoperative complications and reduce the patient's pain.

The effectiveness and complications of minimally invasive percutaneous pedicle screw surgery in patients with spinal fractures were also evaluated. The results showed that minimally invasive surgery has advantages in reducing complication rates compared with conventional surgery.

Research on arthroscopically assisted minimally invasive surgery for the treatment of complex tibial plateau fractures has shown that this surgical method can effectively control postoperative complications, such as wound infection, skin necrosis, fracture displacement and non-union, and improve knee joint function.

For periprosthetic or internal fixation fractures after hip replacement due to arthritis or femoral neck fracture, minimally invasive multiaxial locking plate treatment has shown good results, despite complications such as refracture and nonunion. But overall the occurrence of related complications is reduced.

A study on wrist arthroscopy-assisted titanium internal fixator in the treatment of complex distal radius fractures showed that although some patients experienced adverse events such as K-wire loosening, decreased mobility, and superficial infection, the overall biocompatibility was good and no Serious complications occur.

Research on sodium hyaluronate combined with arthroscopic minimally invasive surgery in elderly patients with knee osteoarthritis shows that this method can improve knee joint function and reduce the level of inflammatory factors, but it may cause muscle atrophy, ankle stiffness and discomfort or wounds after surgery. Infection and other issues.

Studies of minimally invasive surgery to treat fragility pelvic fractures in the elderly have recorded perioperative complications, postoperative ambulation time, and follow-up mortality and ambulation index, indicating that minimally invasive surgery can effectively reduce complications and improve quality of life.

Minimally invasive orthopedic surgical instruments have shown the potential to reduce postoperative complications in different types of orthopedic diseases, but specific effects and complication rates vary by disease type and individual differences.

For more photos and details please contact me:
Company Name: Tonglu Wanhe Medical Instruments Co., Ltd.
Sales: Emma
Tel:+86 571 6991 5082
Mobile: +86 13685785706