Lumbar Transforaminal Endoscopic Spine Surgery Instruments GJ1007.2 3.5x360mm Grasping Forceps

Lumbar Transforaminal Endoscopic Spine Surgery Instruments GJ1007.2 3.5x360mm Grasping Forceps

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

Are invasive orthopedic surgical instruments easy to operate and do they require special training?

The difficulty of operating invasive orthopedic surgical instruments and whether special training is required depends on many factors, including the specific type of instrument used, the experience of the doctor, and the complexity of the surgery.

Difficulty of operation:

Traditional orthopedic surgical instruments are usually difficult to operate. For example, traditional surgical instruments exhibit a lever effect, and the movement direction of the end of the surgical instrument is opposite to the movement direction of the doctor's hand, which increases the difficulty of operation.
Orthopedic surgery assisted by robots greatly reduces the difficulty of operation. For example, the Q1 joint robot is simpler in operation process, suitable for more complex and customized instruments, and can provide accurate preoperative planning and real-time surgical guidance. Advanced orthopedic surgical equipment such as PIEZOSURGERY®flex is also widely used for its excellent cutting ability and flexibility, which can achieve thinner and more precise bone resection, reduce bone loss, and improve surgical control and sensitivity.
Training needs:

Orthopedic surgery usually requires systematic training to master. For example, trauma orthopedic training includes aspects such as rotation purpose, basic requirements and clinical operation technical requirements, aiming to familiarize trainees with technologies such as fracture plate screws. The standardized training of residents also emphasizes the comprehensive learning of trauma orthopedic knowledge and skills.
For robot-assisted surgery, although its operation difficulty is relatively low, beginners still need to go through a certain learning curve to master it. For example, although the MAKO robot-assisted posterolateral approach total hip replacement is easier to learn and master than the traditional procedure, beginners still face certain learning challenges.
In addition, the application of the Six Sigma management model in the training of new nurses in orthopedic robotic surgery shows that systematic training helps to improve surgical cooperation ability and satisfaction, thereby improving the overall training effect.
Specific case analysis:

In some difficult orthopedic surgeries, such as optic nerve decompression for patients with osteopetrosis, it is necessary to fully prepare and use tools such as internal and external three-tooth rotatable straight blades and curved blades of multiple specifications before surgery. The use of these tools requires high skills and experience.
Manually operated and self-locking surgical instruments such as minimally invasive retractors are used to expose the surgical field and protect tissues, and their operation also requires certain skills and experience.
The difficulty of operating invasive orthopedic surgical instruments varies depending on the specific instruments and the type of surgery. Although some modern robot-assisted equipment and advanced surgical tools can reduce the difficulty of operation, in most cases, systematic training and practice are still required to master it. Therefore, special training is necessary for most orthopedic surgeries.

What are the latest technological advances in orthopedic surgical instruments?

According to the results, the latest technological advances in orthopedic surgical instruments are mainly concentrated in the following aspects:

Combination of 3D printing and artificial intelligence: It is mentioned that 3D printing technology is used to tailor personalized surgical plans for patients, while combining AI technology for precise preoperative planning and intraoperative navigation to reduce surgical risks and improve surgical success rates.

Robot-assisted technology: The latest advances in orthopedic surgical robots are introduced in detail. For example, Globus Medical's Excelsius Flex system is used for stereotactic positioning of knee surgery; Professor Liu Xinyu's team at Qilu Hospital of Shandong University implemented a full-process minimally invasive surgical robot-assisted percutaneous spinal endoscopic transforaminal approach L4/L5 lumbar discectomy; Ge Rui Technology's "Newton" completed the animal in vivo experiment of spinal endoscopic surgical robots.

Intelligent navigation and three-dimensional imaging technology: It points out that the O-arm 3D navigation system simulates stereoscopic images in preoperative planning, so that the surgeon can plan the best surgical path, and provide 360-degree automatic circular scanning and imaging during the operation, and real-time correction.

Digital orthopedic technology: It mentions the application of virtual reality (VR) and augmented reality (AR) technology in orthopedic surgery. These technologies can scientifically evaluate surgical indications, formulate the best surgical plan, minimize surgical trauma, and restore limb function as soon as possible.

How to effectively evaluate and select invasive orthopedic surgical instruments suitable for specific orthopedic surgery?

Effectively evaluating and selecting invasive orthopedic surgical instruments suitable for specific orthopedic surgery requires comprehensive consideration of multiple factors, including instrument performance, brand strength, technical standards, and specific surgical needs. The following are detailed steps and suggestions:

There are many types of orthopedic surgical instruments, including osteotomies, orthopedic endoscopic knives, reaming knives, opening cones, tapping cones, etc. Each instrument has its specific functions, such as:

Osteotomies: used to cut bones, usually made of stainless steel, with rigid and sharp single-edged cutting blades.
Bone curettes, bone chisels, bone saws, etc.: used for different types of bone tissue processing.
When selecting instruments, ensure that the selected products meet the mandatory standards of the country and the industry. For example, "Titanium and Titanium Alloy Processing Materials for Surgical Implants" (GB/T 13810-2007), "Biological Evaluation of Medical Devices Part 1: Evaluation and Testing in the Risk Management Process" (GB/T 16886.1-2011), etc. These standards can ensure the safety and effectiveness of the instruments.

Brand strength is an important reference factor for selecting instruments. Choosing a brand with good basic strength and mature technology can improve the reliability and use effect of the instrument.

When formulating product technical requirements, enterprises should clearly define the division of specifications and models, and the performance indicators should at least meet the requirements of relevant standards. For example, orthopedic surgical instruments with mechanical power provided by active equipment should meet the corresponding safety and performance requirements.

Use CT examinations and three-dimensional reconstruction and other means to conduct preoperative evaluations to determine the specific surgical plan and required instruments. For example, in minimally invasive surgery for complex pelvic fractures, special instruments such as pelvic channel screw fixation systems and pedicle screw rod systems may be required.

In actual surgery, adjustments and optimizations are made according to specific circumstances. For example, in lower limb reconstruction surgery, the diameter and size of the IM nail are determined, and the final position is determined by simulating the surgical process.

After the operation, the instrument usage data should be collected, and continuous monitoring and evaluation should be carried out to continuously improve the instrument design and usage methods to ensure the best clinical results.

What does the robot-assisted orthopedic surgery training course include?

The content of the robot-assisted orthopedic surgery training course includes the following aspects:

Basic theory: This part covers the advantages and characteristics of robotic surgical technology and the similarities and differences with traditional laparoscopic surgery, as well as the explanation of specific operation methods. In addition, a large number of real clinical cases will be explained to allow trainees to deeply understand the application value and operation skills of orthopedic surgical robots.

Operation skills: The training will focus on computer operation training, and some small games will be used for practice, such as specific forms of ferrules, lens movement, etc., to help doctors adapt to the robot's operating habits more quickly. At the same time, specific exercises will be carried out to perform basic surgical operations on ex vivo organs, such as separation of electrical energy, robot suture and knotting, etc.

Clinical case analysis: Through the combination of theoretical explanation and practical operation, the trainees can fully master the relevant knowledge of robotic surgery and improve their clinical application ability through actual case analysis.

Live animal surgery experiment: In the final stage of training, doctors can simulate clinical procedures to perform operations, which is more in line with the needs of clinical surgery.

Assessment and certification: During the entire training process, the trainer will assess and score the doctor's operation level, and the training certificate can be issued only after the assessment is passed.

What are the common errors in the operation of surgical instruments and their correction methods?

Common errors in the operation of surgical instruments and their correction methods can be analyzed and summarized from multiple perspectives. The following are some of the main types of errors and corresponding corrective measures:

Improper instrument cleaning:

Error: The instrument was not sent to CSSD (Clinical Service Center) for treatment in time after being stained with a large amount of blood, resulting in the blood condensation and drying.
Correction method: It should be cleaned immediately after use, and the decomposable dirt should be decomposed as much as possible, and the joint part and the locking part should be kept open for cleaning. After cleaning, it needs to be thoroughly cleaned with running water and completely dried, and then sterilized using a method suitable for each instrument.
Errors in the handover of instruments:

Error: There are errors in the handover between the operating room and the supply room in the pre-processing, registration and reservation of instruments.
Corrective measures: Develop standardized processes, intervene through the PDCA (Plan-Do-Check-Act) method, and the quality control team randomly checks the situation every month to ensure the correct handover rate.
Equipment failure:

Error: The medical device cannot function properly, affecting the operation time and may cause harm to the patient.
Corrective measures: Establish an adverse event reporting and root cause analysis mechanism, repair the equipment in a timely manner, and ensure that the equipment is in good condition. In addition, encourage formal equipment replacement plans and compliance with safety initiatives.
Equipment problems during surgery:

Error: Equipment failure or damage during surgery, such as jaws not working properly, high-frequency electrode plate leakage, etc.
Corrective measures: Check the equipment before surgery, and notify relevant personnel to deal with any equipment problems found during surgery to avoid continuing to use defective equipment.
Improper use and aging:

Error: Failure and damage caused by improper use and equipment aging.
Corrective measures: Regularly maintain and update equipment, avoid overuse of high-risk equipment, and strengthen professional training for users.

What preparations do doctors usually need to make before invasive orthopedic surgery?

Before invasive orthopedic surgery, doctors usually need to make a series of detailed preparations to ensure the smooth progress of the operation and the patient's postoperative recovery. The following are specific preparation steps:

Comprehensive medical history and physical examination: The doctor needs to collect a comprehensive medical history and physical examination of the patient to understand the patient's current health status, past medical history, and possible complications.

Preoperative evaluation and laboratory tests: including emergency screening items such as blood routine, biochemical full items, five blood coagulation items, D-2 polymers, and imaging examinations such as electrocardiograms and chest radiographs. These examinations help assess the patient's physiological state and potential risks.

Drug management and fasting water: Depending on the type of surgery and the specific situation of the patient, the doctor will instruct the patient to fast for 8 hours and fast for 4 hours before surgery, and give antibiotics before surgery to prevent infection.

Preparation of the surgical area: including skin preparation (shaving), skin cleaning, nail clipping, etc. in the surgical area to reduce the risk of infection during surgery.

Anesthesia preparation: The doctor will coordinate with the anesthesiologist to ensure the safety and effectiveness of the anesthesia plan and conduct drug sensitivity tests if necessary.

Surgery consent and communication: The doctor needs to explain the surgical process, risks and possible complications after surgery in detail to the patient and his family, and obtain written consent.

Preoperative discussion and summary: The doctor needs to have a preoperative discussion with other members of the medical team, develop a detailed surgical plan, and keep a preoperative summary record.

Psychological care: The doctor should pay attention to the patient's mental state, help him prepare mentally, enhance his confidence and relax his mood, so as to better cooperate with the surgery.

Preoperative exercise: For orthopedic surgeries in certain specific parts, such as cervical spine surgery, the doctor will recommend that the patient perform corresponding preoperative exercises to improve the surgical effect.

Blood matching: For surgeries that require blood transfusion, the doctor will arrange blood matching in advance to ensure that blood can be replenished in time during the operation.

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Company Name: Tonglu Wanhe Medical Instruments Co., Ltd.
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Tel:+86 571 6991 5082
Mobile: +86 13685785706