Medical Device Regulatory Type Type 2 Elevator Tip for Lumbar Transforaminal Endoscopy

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

FAQ

What are the applications of minimally invasive orthopedic surgical instruments in hand surgery?

The application of minimally invasive orthopedic surgical instruments in hand surgery is mainly reflected in the following aspects:

High-precision and high-degree-of-freedom robotic arms: For example, the MedBot® minimally invasive® robot provides high-definition three-dimensional stereoscopic images with high magnification to help doctors accurately locate anatomy. Its high-degree-of-freedom mechanical simulation wrist enables surgical instruments to perform surgical operations without dead angles in narrow anatomical spaces.

Reduce the impact of hand tremors: Many minimally invasive surgical robots have hand tremor filtering functions, which makes surgery more delicate and efficient. For example, the Toumai® laparoscopic surgical robot improves operational stability by filtering out the doctor's hand tremors.

A variety of special tools and components: The Acumed® Hand Fracture System includes various tray components, plate positioners, hexagonal wrenches, etc. These tools are used for different types of hand fracture repairs, such as dorsal percutaneous scaphoid fixation, percutaneous fixation of fresh scaphoid fractures, etc.

Percutaneous pinning and screw fixation: Minimally invasive techniques are widely used in metacarpal and phalangeal injuries, including percutaneous pinning, percutaneous screw fixation, intramedullary pinning, and hinged fixation combined with dynamic traction.

Customized stability and support: Acumed® offers a variety of specialized plates, such as the Avulsion Fracture Hook Plate and the Metacarpal Neck Plate, that provide customized stability and support for different types of fractures.

Reduce surgical trauma and improve safety: By using minimally invasive surgical robots, surgical trauma and radiation dose can be reduced, while improving surgical success and safety.

Flexible surgical path selection: For example, the MUSA minimally invasive surgical robot can connect blood vessels as small as 0.3 mm, reduce the range of motion, filter out tremors, and keep the workflow and infrastructure of the operating room unchanged.

Development of intelligent surgical application fields: The Honghu® orthopedic surgical robot marks a new progress in my country's intelligent surgical application field, which can achieve precise osteotomy and quickly complete the operation, improving surgical accuracy and efficiency.

In short, the application of minimally invasive orthopedic surgical instruments in hand surgery not only improves the accuracy and safety of the surgery, but also significantly reduces the impact of surgical trauma, bringing better treatment effects to patients.

What are the latest technological advances in minimally invasive orthopedic surgical instruments in hand surgery?

The latest technological advances in minimally invasive orthopedic surgical instruments in hand surgery are mainly reflected in the following aspects:

High-precision 5G remote control: Through 5G dedicated lines, doctors can achieve remote surgery, remote synchronization and precise control. This technology can effectively filter out hand shaking, accurately reach the lesion, and complete a 540° rotation that human hands cannot achieve.

AMIC technology: This is a minimally invasive surgical technique for hand and wrist bone shaft injuries with a higher success rate. Compared with traditional bone marrow transplantation, AMIC technology can be completed in a single operation, does not require bone marrow from the patient, and can better limit the migration of mesenchymal stem cells into the joint cavity.

Endoscopic/arthroscopic technology and high-quality imaging micro C-arms: These tools are widely used in minimally invasive hand surgery to reduce damage to tissues and sliding surfaces, thereby improving efficacy and accelerating recovery.

Optical Assisted Technology (AR): AR technology provides a new way of information visualization for minimally invasive interventions, including display-based AR, projection-based AR, and optical perspective-based AR, which make surgery more precise and intelligent.

Surgical Robots: The next generation of orthopedic surgical robots will develop in the direction of intelligence, remote control, master-slave control, and full-process assistance, which will lead the wave of minimally invasive and digital technology in orthopedics.

New materials and implants: For example, Chondro-Gide membrane, which is composed of type I/III collagen, has a double-layer structure, can adhere to the bone surface and cartilage surface, and has good biocompatibility.

Small incision surgery: This technology can reduce postoperative swelling while ensuring smooth tendon movement and improving surgical results.

How to evaluate the effectiveness of minimally invasive orthopedic surgical instruments in improving surgical precision?

To evaluate the effect of minimally invasive orthopedic surgical instruments in improving surgical precision, a detailed analysis can be conducted from the following aspects:

The application of navigation technology in orthopedic surgery has made significant progress. By assisting surgeons in locating the surgical area, identifying target bones, planning internal fixation strategies, and guiding the internal fixation insertion point and direction during surgery, navigation technology can significantly improve the accuracy of surgery. For example, the O-arm 3D navigation system not only expands the doctor's field of vision, but also improves the accuracy of steel nail insertion, thereby enhancing the safety of surgery.

The optical tracking system (OTS) is an important part of modern computer-assisted orthopedic surgery (CAOS). By considering patient movement and developing representative test methods to evaluate the accuracy of OTS, the accuracy of surgery can be further improved.

The robotic arm system enhances the accuracy and precision of the surgical process through high stability, and its image compatibility helps surgeons better understand the patient's body structure, thereby improving the accuracy of surgery. In addition, the Honghu® orthopedic surgical robot has customized preoperative planning and multiple safety protection functions, which can shorten the learning curve and improve surgical accuracy.

A clinical study based on 68 patients showed that patients who used minimally invasive techniques recovered faster after surgery, had less intraoperative bleeding, had a low incidence of complications, and had a high overall satisfaction. These data show that minimally invasive techniques ensure a clear surgical field of view while also ensuring precise positioning, thereby reducing trauma and adjacent tissue damage, and reducing the incidence of scars and complications.

New open orthopedic surgery technology uses ultrasonic micro-vibration technology to achieve perfect control of cutting movements, minimize bone sacrifice, and reduce damage to surrounding soft tissues. This technology not only improves surgical precision, but also promotes postoperative healing.

Comprehensive data shows that minimally invasive orthopedic surgical instruments have a significant effect in improving surgical precision.

What are the specific case studies of minimally invasive orthopedic surgical instruments in reducing surgical trauma and improving safety?

There are multiple specific case studies of minimally invasive orthopedic surgical instruments in reducing surgical trauma and improving safety. The following are several typical examples:

In the treatment of hip fractures, the safety and precision of surgery can be significantly improved by using orthopedic surgical robot navigation and positioning to assist in surgery. This technology not only reduces intraoperative injuries, but also reduces the risk of complications for patients, and helps balance the application of rehabilitation robots for obstacles, thereby improving the recovery of the elderly after falls.

The first "5G+Robot" remotely operated medial patellar retinaculum reconstruction in Qinghai was successfully implemented, demonstrating the advantages of orthopedic robots in improving surgical accuracy, reducing intraoperative injuries, and improving patient prognosis. The surgery achieved minimally invasive treatment methods such as small trauma, few incisions, less bleeding, and mild pain, greatly reducing the risks during surgery.

Research from the Pancreatic Center of Ruijin Hospital showed that robotic pancreatic surgery is safer than traditional open surgery. Ten years of research data showed that robotic pancreatic surgery showed a lower complication rate and better safety in the comparison of 450 robotic surgeries with 634 open surgeries.

Clinical research analysis based on 68 patients showed that the application of minimally invasive technology in trauma orthopedics can significantly reduce tissue damage, ensure a clear surgical field of view and precise positioning, thereby reducing damage to the trauma site and adjacent tissues, and reducing the incidence of scars and complications. The patients in the observation group were better than those in the control group in terms of operation time, postoperative exhaust time, hospital stay, and intraoperative bleeding, and their satisfaction was also higher.

Research from Chongzuo People's Hospital showed that the use of minimally invasive surgery in spinal trauma surgery can reduce damage to the body and reduce the stripping of soft tissues such as muscles, fascia, and ligaments behind the spine, thereby reducing the incidence of complications. Minimally invasive surgery helps early postoperative activities and improve spinal function.

Using ultrasonic micro-vibration technology to achieve precise cutting and minimally invasive treatment can reduce soft tissue damage, promote healing, and reduce the risk of bone necrosis. Related studies have shown that the device has shown good results in both pediatric skull base surgery and adult orthopedic surgery, minimizing damage to surrounding soft tissues and improving surgical vision.

These case studies fully demonstrate the significant advantages of minimally invasive orthopedic surgical instruments in reducing surgical trauma and improving safety.

In hand surgery, what are the advantages and disadvantages of minimally invasive orthopedic surgical instruments compared with traditional surgical methods?

In hand surgery, minimally invasive orthopedic surgical instruments have significant advantages and disadvantages compared with traditional surgical methods.

Advantages
Less trauma, faster recovery: Minimally invasive surgical instruments achieve smaller incisions and less tissue damage through fine design and advanced technology, thereby reducing patient pain and speeding up postoperative recovery.
Pain relief: For example, MIPO (minimally invasive distal radial clavicle plate) technology can reduce pain on the first day after surgery, making it a viable option for one-day surgery and providing good cosmetic results without complications.
Precise operation: Robot-assisted minimally invasive surgical systems can eliminate tremors in the operator's hands and convert large movements of the control handle into fine movements in the patient's body in proportion, improving the accuracy and stability of surgical operations.
Clear vision: The use of equipment such as magnifying glasses can ensure the safety and accuracy of the operation, and restore function even in the case of finger or wrist amputation.
High flexibility: Robot-assisted minimally invasive surgery has excellent three-dimensional images and flexible operation capabilities, and can perform complex operations and keep the surgical field intuitive and stable.
Disadvantages
High requirements for doctors: Since the exposed area during minimally invasive surgery is small, doctors need to have rich experience and knowledge reserves, otherwise it is difficult to operate accurately.
Unable to handle heavy bleeding: Minimally invasive surgery cannot handle heavy bleeding in the first place, which may be a disadvantage in some emergency situations.
Higher cost: Although the specific cost data is not explicitly mentioned, advanced minimally invasive equipment and technology usually result in higher medical expenses
.
Minimally invasive orthopedic surgical instruments have obvious advantages in terms of less trauma, faster recovery, less pain, precise operation and clear vision, but they have certain disadvantages in terms of requirements for doctors, ability to handle heavy bleeding and cost.

What are the potential technological innovations or application field expansions of minimally invasive orthopedic surgical instruments in the future development trend?
There are several potential technological innovations and application field expansions in the future development trend of minimally invasive orthopedic surgical instruments:

Intelligence and automation: With the advancement of technology, minimally invasive surgical instruments are moving towards intelligence and automation. For example, equipment such as staplers are experiencing a wave of intelligent and automated upgrades. In addition, surgical robots are also moving towards intelligence, remoteness, individualization and popularization, and will be more widely used in orthopedic surgery
.
Integration: One of the development trends of the minimally invasive surgical medical device industry is integration, which means that future equipment will be more versatile and efficient.

Application of digital technology: The application of finite element analysis technology in the field of orthopedics is becoming more and more extensive, including the exploration of the musculoskeletal system, the guidance of fracture fixation devices, and the innovation of surgical robot technology.

The combination of digital systems and new technology concepts will further promote the development of orthopedic surgery towards minimally invasive and intelligent directions.

Robot-assisted surgery: The application scope of robot-assisted surgery is constantly expanding, not only limited to the traditional fields of neurosurgery and plastic surgery, but also expanded to other minimally invasive fields.

High-tech research and industrial integration: Using high-tech research and industrial integration in the fields of robots, intelligent control, sensing and information, innovatively provide a complete solution for robot intelligent surgery that can prolong and reshape life.

The future development trend of minimally invasive orthopedic surgical instruments is mainly concentrated in the application of intelligent, automated, integrated, digital technologies and robot-assisted surgery.

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