Customized Orthopedic Lumbar Endoscopy Instruments Nerve Hook-Probe for Precision Results

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

Can minimally invasive orthopedic surgical instruments help reduce surgical trauma and pain?

Minimally invasive orthopedic surgical instruments can really help reduce surgical trauma and pain. The following is a detailed analysis:

Reduce surgical trauma:

Minimally invasive surgery is performed through small incisions, which significantly reduces surgical trauma compared to the large incisions of traditional open surgery.
The application of minimally invasive technology in orthopedic trauma can reduce the mortality rate of early definitive surgical treatment and has a significant effect on the treatment of fractures in patients with severe multiple injuries.
The application of advanced equipment such as Tianji orthopedic surgical robots makes surgery more minimally invasive and precise, reducing patient trauma.
Reduce postoperative pain:

Minimally invasive surgery can reduce postoperative pain, reduce the use of analgesics, and facilitate patients' postoperative recovery.
Studies show that patients who recover from minimally invasive surgeries experience less pain and do not require the large doses of painkillers required by patients with conventional surgeries.
Various pain management measures, such as local anesthesia, are used during minimally invasive surgery to reduce the patient's pain.
Arthroscopically assisted minimally invasive surgery can reduce surgical trauma, relieve surgical pain, and reduce postoperative complications.
Promotes rapid recovery:

Minimally invasive surgery allows patients to have smaller incisions, smaller traumatic stress reactions, better tolerance to surgery, reduced postoperative pain, earlier ambulation, and faster recovery of organ function.
Minimally invasive surgery can speed up patient recovery, improve prognosis, reduce complications, and ensure treatment safety.
Minimally invasive spine surgery shortens the incision and uses a half-inch tubular retractor to speed up post-operative recovery and reduce pain.
Other advantages:

Minimally invasive surgery also has the advantages of less bleeding, faster recovery, and less psychological and social damage.
Minimally invasive surgery can reduce interference and damage to normal tissues and protect normal tissues such as nerves and blood vessels.
In summary, minimally invasive orthopedic surgical instruments have significantly improved patients' postoperative experience and quality of life by reducing surgical trauma, alleviating postoperative pain, and promoting rapid recovery.

What are the specific technologies and methods of minimally invasive orthopedic surgical instruments in reducing surgical trauma?

Minimally invasive orthopedic surgical instruments use a variety of specific technologies and methods to reduce surgical trauma, including:

Closed reduction technology: The fracture is reduced in a closed manner, avoiding the incision and bleeding of traditional open surgery, thereby significantly reducing surgical trauma.

Longitudinal small incision approach: The use of smaller incisions for surgical operations not only reduces skin and soft tissue damage, but also reduces the risk of postoperative infection.

Precise implantation of the self-positioning calcaneal navigation plate: Use the navigation system to accurately position and implant the fixation device to ensure the accuracy and safety of the surgery while reducing interference to surrounding tissues.

Piezo-Surgery® micro-vibration technology: This technology uses ultrasonic micro-vibration to achieve precise cutting of bone tissue while maintaining smooth blood flow and reducing damage to adjacent soft tissues. This approach minimizes soft tissue damage and improves surgical outcomes and patient satisfaction.

Arthroscope-assisted minimally invasive surgery: operates through small incisions and uses an arthroscope to clearly observe the fracture site, allowing the doctor to perform reduction and fixation more accurately while reducing damage to surrounding soft tissues and shortening recovery time.

Robot-assisted surgery: Minimally invasive fracture reduction and fixation is performed with the assistance of a robot. By designing an appropriate surgical plan, the surgery is completed through only a tiny incision, which improves the accuracy and stability of the surgery.

The application of high-tech equipment: such as transumbilical single-port laparoscopy technology, which uses the umbilical fold wall to block the surgical incision, further reducing surgical trauma.

Minimally invasive interventional technology: Emphasizes the use of precise positioning technology to reduce the trauma to surrounding tissues and interference with the patient's physiological functions while ensuring the efficacy of conventional surgery.

How does minimally invasive surgery reduce postoperative pain, and what specific pain management measures are used?

Minimally invasive surgery is widely used in various surgeries due to its advantages of less trauma and faster recovery. However, postoperative pain management remains an important issue. Here are several specific pain management measures:

Drug analgesia:

nonsteroidal anti-inflammatory drugs (NSAIDs) are the analgesics of choice.
If the above drugs are ineffective, partial opioid agonists can be given as needed.
As an auxiliary means in multimodal analgesia, dexamethasone optimizes the analgesic effect through intravenous, peripheral nerve and intraspinal administration.
Multimodal analgesia:

Multimodal analgesia combines a variety of analgesic methods, such as oral cyclooxygenase inhibitors, opioid analgesics, epidural patient-controlled analgesia, etc., to achieve better analgesic effects.
Emotional care and psychological support:

Nursing staff should pay attention to patients' emotional changes, provide positive psychological counseling and emotional guidance, and help patients adjust their psychology and maintain a good attitude, which is conducive to recovery from surgery.
Infiltration analgesia around the incision:

Minimally invasive surgery can help reduce patients' postoperative pain, and infiltration analgesia around the incision can effectively reduce postoperative pain and accelerate recovery.
Peripheral nerve block:

Peripheral nerve block achieves analgesic effect by blocking pain signal transmission, reducing pain and opioid use during and after surgery.
Rapid Recovery Surgical Care:

Guide the patient to lie down and try to maintain a flat position to avoid compressing the surgical incision, and distract the patient by watching TV, listening to music and other activities.
Preoperative preventive analgesia:

Preoperative preventive analgesia can reduce peripheral and central nervous system pain sensitization, reduce the need for analgesics and reduce adverse drug reactions.

How much does minimally invasive spine surgery affect patient recovery time, and what are its advantages over traditional open surgery?

Minimally invasive spine surgery has a significant impact on patient recovery time and has many advantages over traditional open surgery.

In terms of operation time and hospitalization time, minimally invasive spine surgery has shorter operation time and significantly reduced hospitalization time. For example, in one study, the operative time in the minimally invasive surgery group was 50.95 minutes ± 21.38 minutes, compared with 56.54 minutes ± 20.64 minutes in the traditional open surgery group. In addition, the length of stay in the minimally invasive surgery group was 9.13 days ± 2.65 days, compared with 14.63 days ± 2.55 days in the traditional open surgery group. This shows that minimally invasive surgery can effectively shorten the patient's hospitalization time and improve treatment efficiency.

In terms of postoperative recovery, the advantages of minimally invasive surgery are also significant. According to another study, the time to first ambulation and return to normal activities in the minimally invasive surgery group were shorter than those in the traditional open surgery group (P<0.05). This means patients can begin daily activities and rehabilitation more quickly after surgery, speeding up the overall recovery process.

In addition, minimally invasive surgery has smaller incisions and lower complication rates. For example, the incisions for minimally invasive surgery are usually only 2 inches or smaller, while the incisions for traditional open surgery are 5-6 inches long. This small incision not only reduces post-operative pain and discomfort, but also promotes faster wound healing and reduces the risk of infection.

In addition, minimally invasive surgery reduces intraoperative bleeding and postoperative drainage. For example, in a comparative study, the intraoperative blood loss in the minimally invasive surgery group was 97.68 ml ± 21.26 ml, compared with 272.87 ml ± 43.49 ml in the traditional open surgery group. Low blood loss not only reduces the need for blood transfusions but also reduces the likelihood of postoperative drain placement.

In summary, minimally invasive spine surgery is superior to traditional open surgery in terms of shortening operation time, reducing hospital stay, reducing the incidence of postoperative complications, and promoting faster recovery.

What is the mechanism by which minimally invasive surgery protects normal tissues such as nerves and blood vessels?
The mechanism of minimally invasive surgery in protecting normal tissues such as nerves and blood vessels is mainly reflected in the following aspects:

Avoid direct contact: During minimally invasive surgery for varicose veins, doctors will use special catheters to inject drugs into the diseased area to avoid direct contact with normal tissue.

Application of endoscopic technology: Microvascular decompression in neurosurgery uses endoscopic technology to bypass the obstruction of brain tissue and go directly to the surgical area, reducing the traction on brain tissue and nearby important nerves, thus helping to protect brain tissue and peripheral nerves and blood vessels. .

Operations under a microscope: Microneurosurgery is performed through a microscope, allowing precise repair of small organs such as nerves and blood vessels, and is performed using magnification techniques under a microscope to minimize damage to normal tissue.

Small incisions and simple surgeries: Standard surgical procedures emphasize that normal tissues should be protected from damage as much as possible during the operation. For example, surgical incisions should be as small as possible while exposing the lesions. Simple surgeries can never be used to cure diseases. Use larger and more complex techniques.

Minimally invasive interventional technology: Minimally invasive intervention does not require surgery to expose the lesion. It can not only reduce the patient's pain, but also protect the integrity of the normal tissue and organ functions around the tumor to the maximum extent and cause minimal damage to the human body.

Minimally invasive spine surgery: Minimally invasive spine surgery uses special surgical instruments such as medical imaging equipment, endoscopes, and microscopes to reduce damage to normal tissues, reduce surgical trauma, and achieve smaller surgical incisions, thereby protecting normal tissues such as nerves and blood vessels. .

What are the latest development trends and future prospects of minimally invasive orthopedic surgical instruments?

The latest development trends and future prospects of minimally invasive orthopedic surgical instruments are mainly focused on the following aspects:

The development trend of minimally invasive surgical instruments and consumables is characterized by integration and intelligence. With the advancement of technology, surgical robots are increasingly used in the field of orthopedics, especially under the core concepts of precision and minimally invasive, reshaping is achieved through surgical robots. For example, the combination of orthopedic surgery robots and artificial intelligence (AI) makes minimally invasive, intelligent, safe, precise and personalized disease treatment possible, effectively making up for the shortcomings of traditional orthopedic surgery.

The next generation of orthopedic surgical robots will develop in the direction of intelligence, remoteness, master-slave control, and assist the entire surgical process. The application of 5G technology makes remote control of orthopedic surgical robots a reality, improving the accuracy and reliability of surgery.

It is expected that China's minimally invasive surgical equipment market will reach US$34.24 billion by 2024, and reach US$47.11 billion in 2029, with a compound annual growth rate of 6.59%. Among them, the market size of disposable MISIA (minimally invasive surgical instruments and consumables) is approximately 20.4 billion yuan. In addition, it is expected that by 2024, China's MISIA market size will exceed 40 billion yuan.

Future surgical procedures will revolve around the core concepts of precision and minimal invasiveness, with the help of surgical robots to achieve personalized and precise treatment. Developing surgical plans based on individual patient differences is also one of the future research and development trends to achieve more effective treatment results.

Reducing the cost of orthopedic robots and ensuring their high quality and accuracy will be the key to popularization
. In the future, active robots are expected to become mainstream, freeing up doctors' hands and improving surgical efficiency.

The latest development trends of minimally invasive orthopedic surgical instruments include intelligence, integration, remoteness, master-slave control, personalization and precision.

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Company Name: Tonglu Wanhe Medical Instruments Co., Ltd.
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