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Speaking of which, a full picture of the operating room using this intelligent multi-tentacle surgical robot appeared on the big screen.

"As you can see, surrounding the middle bed are its display operating terminals. We design and install the number of operating terminals according to the actual needs of the hospital and doctors, so it can support at least one doctor to operate, and at most it can even It can be expanded to eight doctors to control intelligent mechanical tentacles to perform surgeries, which is unmatched by traditional surgical robots.

Therefore, the surgical team does not have to stand for several hours or even more than ten hours like traditional surgery, nor does it need to bend down to maintain a posture and be highly concentrated.

Using our smart multi-tentacle surgical robot, the surgical team only needs to sit in a comfortable chair and hold the joystick to control it.

In this way, the doctor's fatigue can be greatly reduced and the efficiency and safety of the operation can be improved.

Furthermore, compared with traditional surgical robots, our intelligent multi-tentacle surgical robot has a shorter learning curve. Because we use an artificial intelligence system, doctors can get started more easily and master the operation calculations faster, thus greatly shortening the time required. study-time. "

After the introduction, Wu Hao smiled, then looked at the CEOs who were listening attentively, and then changed his tone and said.

"What I have mentioned above are only the basic functions of this intelligent multi-tentacle surgical robot. The biggest difference compared to traditional surgical robots is its intelligence. We have introduced an artificial intelligence system, so it is more intelligent.

This intelligent multi-tentacle surgical robot can independently adapt to the surgeon's habits and cooperate with the surgeon in performing surgeries. And it can also analyze and judge the patient's condition based on the database it is equipped with, and formulate relevant surgical plans for the surgeon team to choose and refer to.

Even this intelligent multi-tentacle surgical robot can be unmanned. Through training with massive data, this intelligent multi-tentacle surgical robot can have certain unmanned and intelligent operation capabilities.

It can perform some operations autonomously, such as the simplest debridement and suturing operations, to basic appendix operations, gallbladder removal, etc. Even for more complex surgeries, as data and training accumulate, it will gradually learn to master it and get better and better.

What’s even more frightening is that different doctors perform the same operation with different results. Although they are all successful, the scale of success is different. Some are qualified, some are good, and some are excellent and top-notch.

Once our intelligent multi-tentacle surgical robot is learned and mastered, the surgical results it performs can maintain the same level.

And these intelligent multi-tentacle surgical robots are constantly learning and accumulating data and training, and all data can be shared, thereby ensuring that the level of surgeries performed by this intelligent multi-tentacle surgical robot is equivalent in developed cities and remote cities. This will greatly alleviate the imbalance in medical standards caused by economic and geographical disparities. "

Having said this, Wu Hao slid a few times on his transparent folding device, and then a surgical video was displayed on the large screen hanging next to it.

Wu Hao pointed to the surgery picture on the screen and introduced to everyone: "Please see, this is what our team of surgeons from the Linghu Business District Medical Research Center of Anxi Hospital Affiliated to the Air Force Medical College used our intelligent multi-tentacle surgical robot. A liver tumor resection surgery was performed.

As you can see, the surgical incision on the patient's body is very small. Because of the tumor resection, the incision is relatively large. This is because a large-diameter suction device, which is the thick tube in the middle, needs to be inserted.

But generally speaking, it is controlled within a very small range. If it is a traditional laparoscopic surgery or a surgical robot, the wound will be much larger than this, not to mention the laparotomy, the wound will be even larger.

After extending through the window, these mechanical tentacles will support the patient's abdomen, thereby establishing sufficient surgical space and field of view.

Then we can see that several more probes are inserted and probed against the patient's liver to determine the extent of the tumor.

Immediately afterwards, the patient's peripheral liver tissue was treated using an ultrasonic scalpel, an electrosurgical scalpel, and a traditional scalpel.

This step needs to be very precise to avoid damaging other organs and tissues, especially the hepatic artery, which is very dangerous. Once the injury is serious, it may be life-threatening and lead to a major surgical accident.

After the tissue surrounding the liver is freed, the liver lesions are exposed to the field of view, and then further exploration of the lesion tissue is required to determine the scope of resection.

Traditional open surgery, including laparoscopic surgery, and even surgical robots, most rely on the professional experience of the surgeon to cut the lesion from the periphery and remove it every centimeter or several millimeters. Cut bit by bit, go to Shuyuan www.zhaｏshuyuan.com and then send it to the laboratory for examination to determine whether the resected section is clear.

The cut texture of normal liver tissue is very clear, but because the tumor tissue has invaded the liver tissue, the cut will become blurry, as if it is suppurating.

This was repeated back and forth until the cut surface was completely clear, and the operation was declared a success. Although this is currently the most mature and safest surgical method in liver tumor surgery, in our opinion, this process of sending back and forth for examination is too time-consuming.

Using the high-definition lens on our intelligent mechanical tentacles and these various probes, we can detect during the resection process, so that we can save surgical time and reduce surgical risks.

Moreover, because there is no need to send back and forth for inspection, and the entire surgical process is completed by an intelligent multi-tentacle surgical robot, we can reduce the distance between segmented resections to a few millimeters smaller.

In this way, we can preserve the normal tissue of the liver to the greatest extent, preserve liver function, and reduce the trauma caused by the operation, thus facilitating postoperative recovery.

And because there are a large number of mechanical tentacles and the control is relatively precise, we can have multiple tentacles working at the same time, or work in multi-threads.

And related processes, we can even give instructions to the intelligent multi-tentacle surgical robot to complete it autonomously, such as the process of repeated cutting of tumor tissue, the process of freeing tissue and lymphoid tissue around the liver, including the process of hemostasis, can all be handed over. Let the artificial intelligence system take care of it.

In this way, the entire operation time can be greatly reduced.

Traditional liver tumor resection surgery takes about two to six hours, and complicated cases may take longer. "

…(End of chapter)

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