Steel Surgical Instruments Urology Rigid Biopsy Forceps For Customized Request

Steel Customization Surgical Instruments Urology Rigid Biopsy Forceps for Customized Request

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
Adopt 3Cr13, 304, 630 stainless steel material
Tough construction
Corrosion resistant
High durability

3 Packing & Shipping:

FAQ

How to ensure the accuracy and safety of surgical instruments in urological surgery?

In urological surgery, it is crucial to ensure the accuracy and safety of surgical instruments. Here are a few key measures:

Testing the accuracy of surgical instruments is essential to ensure patient safety and surgical success. Accurate instruments are essential for precise incisions, suturing and other critical tasks during surgery. Testing helps identify any potential problems or failures that may affect patient treatment outcomes.

Using micro high-precision surgical instruments can improve the accuracy and smoothness of intraoperative operations. For example, the self-balancing main hand configuration design with posture decoupling can shorten the learning curve and improve the intuitiveness of operation; the three-dimensional electronic high-definition visual system can provide three-dimensional, intuitive and clear surgical information; and the force sensing alarm safety mechanism can ensure surgical safety.

Providing an intelligent operating environment, through technical means such as X-ray and other auxiliary tools, so that doctors can know the specific location of surgical instruments in the patient's body in real time, so as to achieve faster, more accurate and efficient surgery.

Robot-assisted surgery achieves high-precision control of surgical instruments through motion consoles, reduces the scope of surgery to the millimeter level, reduces surgical risks caused by human factors, and improves the accuracy and stability of surgery. In addition, the robotic operating system solves the drawbacks of open surgery and laparoscopic surgery, and has the advantages of less trauma, faster recovery, and easy teaching.

CNC processing technology plays an important role in the production of surgical robot components, and the stability and safety of these devices are guaranteed by high-precision and high-efficiency processing technology.

Modern urological surgery ensures the safety of surgery in many aspects: detailed preoperative evaluation, including medical history, physical examination, laboratory tests and imaging examinations, helps doctors fully understand the patient's condition and formulate personalized surgical plans.

Advanced anesthesia technology and intraoperative monitors should be placed within the surgeon's line of sight to facilitate the assessment of equipment problems and timely resolution. The monitor should be placed at the lower eyeline at a comfortable distance from the surgeon, slightly below the eyeline, and slightly tilted towards the surgeon to reduce neck fatigue.

Urological laparoscopic surgery has high requirements for the cost, disinfection and maintenance of instruments. Most hospitals have gradually increased the frequency of use and purchase of instruments for laparoscopic urology surgery, so a sound management system is needed to ensure the cleaning and maintenance of instruments.

Evaluate the three best radiation-free medical device navigation technologies for minimally invasive surgery. This cutting-edge technology not only solves the limitations of previous navigation technologies, but also sets new standards for accuracy, adaptability and radiation-free navigation.

Through the application of the above methods and technologies, the accuracy and safety of surgical instruments in urological surgery can be significantly improved, thereby ensuring the overall health and safety of patients.

How to accurately test and calibrate surgical instruments to ensure their accuracy in urological surgery?

In order to ensure the accuracy of surgical instruments in urological surgery, accurate testing and calibration are required. Here are the detailed steps:

Image processing and detection:

Use the surgical instrument detection and segmentation method based on improved YOLOv5s, and correct the brightness and contrast of the image through the Gamma correction algorithm to solve the problems of reflection and shadow occlusion of surgical instruments.
Use deep learning model frameworks (such as avs) to accurately detect and classify a variety of surgical instruments, and the recognition effect can reach 90%.
Elasticity test:

Using a high-precision surgical blade elasticity tester, it can accurately measure the subtle changes in the elasticity of surgical blades, and set a variety of test modes and parameters according to the characteristics and requirements of different surgical blades.
Calibration and verification:

According to the calibration and verification procedures for medical devices, the device measurement results are compared with the reference standard, the measurement deviation is recorded, and the necessary adjustments and calibrations are made to the device according to the recorded measurement deviation.
Visual detection and tracking:

Surgical instrument detection and tracking technology based on hardware methods can assist clinicians or use surgical robots to complete clinical operations. Although this method is relatively simple, it requires expensive hardware equipment and additional measures such as marking and aseptic processing.
Visual detection and tracking algorithms for minimally invasive surgical instruments can be applied to surgical operations to assist clinicians or use surgical robots to complete clinical operations. These algorithms analyze the images transmitted by the surgical robot endoscope to ensure the accuracy of the operation.
Performance testing:

Performance testing of common surgical instruments using specific testing materials and methods. For example, using surgical scissors to cut cotton cloth or acrylic rods to evaluate their shearing effect and cut surface flatness.
Quality requirements and testing methods:

For specific instruments such as staplers, use automatic control to pull up the probe until the blister box and dialysis paper of the test sample are separated, and record the maximum pulling force. At the same time, ensure that the size of the intestinal duct or the length of the intestinal suture is consistent with the size of the measured instrument, and perform a pressure test to ensure no leakage.

What are the application cases of high-precision surgical instruments in urological surgery?

The application cases of high-precision surgical instruments in urological surgery include the following aspects:

Laparoscopic surgical robot: It can meet the delicate operation requirements of various urological procedures, especially for difficult surgeries, it has safer and more efficient treatment advantages. The robot has the characteristics of small incisions and less bleeding, which helps patients recover quickly.

Surui single-port laparoscopic surgical robot: Surui single-port laparoscopic surgical robot contains 68 high-precision servo motors, which is suitable for a variety of urological surgeries and has many advantages.

Da Vinci Surgical System: In recent years, the Da Vinci Surgical Robot System has been widely used in urological surgery, making it possible to perform more precise and complex operations. In addition, the Da Vinci surgical robot has also been used to repair rare "four-wheel drive" kidney hydrops, and combined with 3D three-dimensional image reconstruction technology, it has successfully performed highly difficult operations.

Tumai Robot: Academician Zhang Xu's team has achieved ultra-remote urological surgery through the domestic Tumai robot, promoting the application of new remote surgical technologies.

What is the specific effect of robot-assisted surgery in reducing surgical risks?

Robot-assisted surgery has a significant effect in reducing surgical risks. Specifically, robot-assisted surgery reduces surgical risks in the following ways:

Minimally invasive treatment: Using orthopedic surgical robots and other equipment for minimally invasive surgery can achieve the effect of "small trauma, few incisions, less bleeding, and less pain", thereby greatly reducing surgical risks and shortening patients' recovery and hospitalization time.

Precise operation: Robot-assisted surgical systems such as the da Vinci surgical robot can achieve more precise, flexible and controllable operations, making the surgical process more delicate, reducing the damage to the patient's body and reducing surgical risks.

Reduce complications: Robot-assisted surgery can achieve smaller incisions, shorten recovery time, reduce the risk of complications, reduce blood loss and pain.

Reduce radiation: Some robotic surgical systems can also reduce the radiation received by doctors and patients during surgery, further reducing surgical risks.

Real-world data support: Studies based on real-world data show that robot-assisted surgical systems are safer, can effectively reduce safety accidents, and improve the safety of the system.

The application of CNC machining technology in the production of urological surgical instruments and its impact on equipment stability and safety.
The application of CNC machining technology in the production of urological surgical instruments and its impact on equipment stability and safety can be analyzed in detail from the following aspects:

Application of CNC machining technology
The automation and efficiency of CNC precision machining technology have greatly improved the production efficiency and quality consistency of medical equipment. Compared with traditional machining methods, CNC machining can reduce human errors and improve machining accuracy, while reducing production costs and shortening production cycles.

Urological surgical instruments usually have complex geometries and high precision requirements. CNC machining technology can ensure the specification consistency of these instruments and the precise machining of complex geometries.

CNC machining technology can also be used for rapid prototyping and can process a variety of materials, which makes it more flexible and efficient when designing and testing new instruments.

The impact of equipment stability and safety
In order to ensure the stable and reliable operation of the equipment, it is necessary to regularly inspect and maintain the CNC equipment to ensure that the various indicators of the equipment meet the requirements and reduce the occurrence of equipment failures and accidents. In particular, attention should be paid to whether the safety protection devices of the equipment are intact.

In the CNC machining process, the implementation of strict quality inspection measures is an important means to ensure the quality and stability of parts. Including first-piece inspection, process monitoring and final inspection, etc., to ensure that the machining process meets the process requirements.

Only fully trained operators can accurately identify and respond to potential safety risks and ensure the safety of the machining process. In addition, the formulation of reasonable operating procedures, procedure verification and equipment maintenance are key measures to ensure the safety of CNC machining.

When operating CNC machining equipment, you need to pay attention to safety, wear safety equipment, keep the area around the equipment clean and clear, and avoid accidents. These measures help to further improve the safety of the processing process.

CNC processing technology not only improves production efficiency and product quality in the production of urological surgical instruments, but also ensures the stability and safety of the equipment through strict equipment maintenance, quality inspection and operating procedures.

What are the latest advances in radiation-free navigation technology in minimally invasive urological surgery?

The latest advances in radiation-free navigation technology in minimally invasive urological surgery are mainly reflected in the following aspects:

MONARCH Urological Surgery Platform: This platform reduces 80% of radiation in percutaneous access compared with traditional fluoroscopic guided access technology by using unique minimally invasive technology. This not only improves the safety of surgery, but also enhances patient comfort.

Multimodal image-guided surgical navigation: This technology combines computer technology, stereotactic technology and image processing technology, and has the advantages of less trauma, good efficacy, fast recovery, low cost and repeatability. It can achieve good efficacy under small incisions and reduce surgical complications, becoming one of the most promising minimally invasive treatment methods in the 21st century.

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Company Name: Tonglu Wanhe Medical Instruments Co., Ltd.
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Tel:+86 571 6991 5082
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