As the operation began, a young doctor here pushed a device from the side rail. This device was a bit like a large mechanical octopus. Above it is a big, white, boxy head. There are four screens hanging on the four sides of this big head, which display various data.
Under this big square head, there is a group of intelligent mechanical arms, dozens of large and small. These mechanical tentacles are divided into groups, like the tentacles of an octopus.
This boxy, octopus-like device is Wu Hao's intelligent medical multi-tentacle surgical robot, and the key to this surgery lies in this surgical robot.
A few more young doctors brought over several control consoles full of operation buttons and remote sensing. These consoles happened to be spliced onto the operating table, surrounding the entire operating table and the patients on it, leaving only the The surgical field was lowered.
As the splicing of the equipment was completed, the doctors who had been waiting for a long time began to take their positions. In front of each console, they held joysticks and began to control its tentacles.
There is a transparent screen in front of each console, which displays various data and screen information.
As for Director Tong, he was sitting on a high stool, watching the monitoring screen next to him and paying attention to the situation inside the surgical wound.
Seeing these doctors getting ready, the doctors from various hospitals who were watching the live broadcast looked envious. This operating room and this technology are what all surgeons dream of.
Not to mention anything else, not everyone can own this and dozens of smart medical multi-tentacle surgical robots for sale. Haoyu Technology has previously released intelligent medical multi-tentacle robots, but they were all eight-tentacle, sixteen-tentacle, and even twenty-four-tentacle level.
As for the one in front of me, it looks like it should be at the thirty-six-tentacle level, which is a whole generation ahead of these products on the market.
Although the number of tentacles does not measure the quality of a medical surgical robot, having more tentacles means that more doctors can control the operation and perform more complex and delicate operations.
For example, the level 36 medical multi-tentacle surgical robot in front of you can be controlled by a team of six doctors at the same time. A team can control six tentacles and perform a minor surgery alone. In this way, even complex surgeries can be completed in a short time under the simultaneous control of six surgical teams.
"Follow what we have practiced before and start peeling off the coronary vascular tissue. Be careful not to injure the heart and surrounding tissue with the knife. Remember to mark the incision with a marker. Pay attention to drainage and keep the surgical field clean." Director Tong, who was in charge of the command Taking a deep breath, he immediately issued the order.
"Yes, understand!"
As each team of doctors responded, they began to take control. This joystick is a bit like the control of minimally invasive surgery, but it has a more comprehensive ergonomic design and is lighter, more delicate and precise to control.
As each group of medical tentacles came into view, the operation officially began. The first thing to do is to peel off the original coronary artery tissue, and only in this way can new blood vessels be replaced.
This is not just a simple and rough peeling. During the entire operation, everyone needs to be careful and meticulous, and there can be no mistakes. Especially since this is the most fragile heart, a small mistake may cause permanent trauma to the heart.
Each tentacle control team is controlled by two doctors. One doctor serves as the chief surgeon and controls the equipment for surgery, while the other doctor serves as an assistant to assist.
In the scenes of each tentacle control team, the two doctors cooperated tacitly, using micro hemostats to clamp the ends to prevent blood from flowing out, and then used a sharp scalpel to cut off the coronary arteries, and then slowly The use of micro-sells removes these vascular tissues with a little bit of peeling.
The extracted vascular tissue will be clamped by the tentacles into the tissue storage box next to it. In order to avoid damaging the heart tissue as much as possible in the future, the coronary artery tissue on the surface of the patient's heart will be cut into small pieces and then gradually removed.
The entire coronary blood vessel extraction process was very smooth. With the completion of the operations by each team, the two left and right coronary aorta blood vessels of the entire heart, as well as the main branch blood vessels, have been successfully extracted.
Director Tong, who was the chief surgeon and person in charge of this operation, after a careful inspection, immediately began to flush the heart, flushing out all remaining tissue and blood, and eliminating the need to use a catheter to extract it.
In this way, a clean heart and field of vision were exposed. After the inspection showed no problems, Director Tong immediately ordered the implantation of a tubular artery to begin.
To put it simply, the printed tubular arterial blood vessels are implanted into the heart space that has been extracted to replace the original blood vessels. This implantation work is more complicated than the stripping and extraction work.
Because it is necessary to ensure that the entire heart tissue and coronary arteries are not damaged, it is necessary to penetrate in reverse direction from the end and gradually pull each branch blood vessel to the appropriate position.
The entire threading process should be regarded as the most troublesome, detailed and time-consuming work in the operation and requires patience.
This is not to say that the transverse threading process is difficult, as long as it is to ensure that the blood vessels and heart are not damaged during the threading process. Because the heart is alive, so are the blood vessels. After the operation, the heart needs to be activated to resume beating. These blood vessels will also replace the original coronary arteries and continue to supply blood to the heart.
If you are injured during the entire threading process, it is likely to cause damage to the blood vessels, resulting in bleeding. Or it may cause damage to blood vessels, leading to complete necrosis, which will make the entire operation fail.
In the surgical observation teaching room, Zhang Junzheng stared at the picture on the big screen with his fists clenched, looking very nervous.
Seeing Zhang Jun's situation, Wu Hao couldn't help but comfort him: "Don't worry, Director Child and the others have rehearsed the entire operation many times. There will definitely be no problem. Don't worry."
After hearing his words, Dean Liao nodded and said, "The entire operation went very smoothly. You see, the patient's vital signs are very stable now and nothing will happen.
Moreover, Director Tong and others are very experienced, and they have been preparing for this operation for a long time. In terms of the surgical plan alone, very comprehensive measures have been taken to deal with problems that may arise during the operation.
For example, for the coronary artery being threaded, Director Tong asked him to prepare three pairs, six in total, so that even if problems arise during the threading and suturing process, they can be replaced in time to ensure the smooth completion of the operation. "
(End of chapter)
