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Laparoscopic Surgical Instruments
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| Model | Name | Specifications |
| HF2001.1 | Titanium clip applier, for flat-middle clip, single action | Φ10×330mm |
| HF2001.1B | Titanium clip applier, for large clip, single action | Φ10×330mm |
| HF2001.2 | Titanium clip applier, for flat-middle clip, dual action | Φ10×330mm |
| HF2001.3 | Titanium clip applier, for flat-middle clip, side-loaded | Φ10×330mm |
| HF2001.4 | Titanium clip applier, for small clip | Φ5×330mm |
| HF2001.5 | Titanium clip applier, for flat middle clip, distal head disassembly | Φ10×330mm |
| Package detail: | Poly bag and special shockproof paper box. |
| Delivery detail: | By air |
FAQ
The laparoscopic single-port surgical system is China's first laparoscopic single-port surgical robot. It consists of a doctor's console, a patient surgical platform, a three-dimensional electronic laparoscopic endoscope, surgical instruments and accessories, and is mainly used for laparoscopic surgery in urology. The system uses a single-port method to perform surgery, which can reduce the number of abdominal incisions in patients, and has the advantages of less trauma to patients and faster postoperative recovery.
The surgical instruments of this system use innovative technologies that are internationally pioneered and have independent intellectual property rights, with technical advantages such as a wide range of motion, strong load capacity and high reliability. The endoscope and surgical instruments have multiple active degrees of freedom and can complete complex surgical operations in a small space. The external positioning arm remains stationary during teleoperation, avoiding the risk of mutual collision during surgery.
Doctors use the unique control system of this product to control it, which can improve the level of operation refinement and reduce surgical trauma. In addition, the design of the system also includes surgical instruments with multiple degrees of freedom and shoulder-elbow-wrist flexible hinge joints to achieve flexible and accurate operation and large load capacity.
The laparoscopic single-port surgical system not only fills the domestic gap, but also provides a more minimally invasive and efficient solution for laparoscopic surgery in urology.
The specific technical principles of the laparoscopic single-port surgical system are mainly based on the "master-slave teleoperation" method. The operator controls it through the main controller on the doctor's console, and the system calculates and drives the surgical instruments to complete the surgical operation through robotics principles such as sensor measurement, master-slave mapping changes, and motion ratio conversion. The system consists of a doctor's console, a patient surgical platform, a three-dimensional electronic laparoscopic endoscope, surgical instruments and accessories, and is used for laparoscopic surgery in urology.
In addition, the single-port surgical system can complete the surgical operation only by the movement of the surgical instruments in the patient's abdominal cavity during the operation, reducing the number of abdominal openings in the patient, and the external positioning arm remains stationary during the teleoperation process, avoiding the risk of mutual collision during the operation.
The laparoscopic single-port surgical system is significantly different from traditional laparoscopic surgery in the postoperative recovery period.
Single-port laparoscopic surgery has a shorter postoperative recovery time due to its minimally invasive nature and operational flexibility. For example, after a single-port laparoscopic surgery, patients can usually get up and resume normal activities and diet on the second day, and can be discharged from the hospital within a week. In addition, the use of the single-port surgical system reduces the number of abdominal incisions, further reducing the trauma of the patient, thereby speeding up postoperative recovery.
In contrast, although traditional laparoscopic surgery is also a minimally invasive surgery, the recovery time is relatively long. Generally, it takes a week to two or three months for patients to fully recover after surgery. Specifically, patients who undergo ovarian cysts and fallopian tube surgery can usually resume normal activities on the second day after surgery, but full recovery may take about a month.
The independent intellectual property technology of the laparoscopic single-port surgical system is achieved through the long-term research and development and innovation of the domestic scientific research team. Specifically, the "Laparoscopic Single-port Surgical System" produced by Beijing Surui Robotics Co., Ltd. has been approved by the State Food and Drug Administration, becoming the first such system in China. In addition, Professor Xu Kai's team at Shanghai Jiaotong University has also developed China's first single-port laparoscopic surgical robot, which has been approved for marketing. These achievements mark important progress in my country's robotic surgery field and have broken the foreign technology monopoly.
In addition to its wide application in the field of urology, laparoscopic single-port surgical systems have also been used in many other medical fields. Specifically, these application areas include:
Gynecology: Single-port laparoscopic surgical systems are used for gynecological laparoscopic benign and malignant disease surgery.
General Surgery: The system has also completed the registration clinical trial of general surgery.
Thoracic Surgery: The thoracoabdominal laparoscopic surgical control system can be used for laparoscopic surgery in thoracic surgery.
In addition, the Da Vinci SP system, as part of the single-port laparoscopic technology, has also been used in general surgery, obstetrics and gynecology and other fields.
The laparoscopic single-port surgical system (LESS) has performed well in terms of market acceptance and patient satisfaction.
In terms of patient satisfaction, patients in the transumbilical LESS surgery group had less postoperative pain, faster intestinal function recovery, shorter postoperative hospital stay, shorter postoperative drainage tube retention time, and higher incision satisfaction. This shows that patients have a high acceptance of this surgical method and believe that its effect is better than traditional multi-port laparoscopic surgery.
In terms of market acceptance, although the da Vinci surgical robot has a dominant position in the market, the approval of the Surui laparoscopic single-port surgical system has broken the monopoly of the domestic single-port laparoscope market. This shows that the market acceptance of the new single-port surgical system is gradually increasing.
In addition, the market acceptance of surgical robots is affected by many factors, including the speed of adoption by medical institutions and the acceptance of new technologies by patients. Although the current information is mainly focused on the da Vinci surgical robot, it can be speculated that with the development and promotion of technology, the single-port surgical system is expected to gain wider market recognition in the future.
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Company Name: Tonglu Wanhe Medical Instruments Co., Ltd.
Sales: Aiden
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