Black technology: a super empire spanning two worlds

Chapter 265 [A Day That Goes into the History of World Clinical Medicine]

Stimulated by Xiao Yu's Weibo message, Lingjing Technology's stock price quickly soared by more than 10 percentage points, easily breaking through the previous high of 212.22 yuan, and the trading volume also quickly exceeded 1500 billion.

At around 11:30, when the morning session was closed, Lingjing Technology's share price was pulled up by more than 15 percentage points, reaching 225.47 yuan, and its market value soared to 19.57 trillion yuan.

It is rare for such a large plate to surge 15 percentage points in a day.

You know, this is a net increase of 2.5 trillion yuan for Lingjing Technology's market value. This stock was not originally on the popularity list of the day, but the surge in its stock price has attracted a lot of attention from short-term traders, and its popularity index has also soared to the top three.

Xiao Yu's post on Weibo of "good news coming frequently" has aroused unlimited imagination of funds. He also said before that new projects are being prepared, which will also bring a new and strong performance growth point to the company.

The company's expectations were fully met.

Such exciting news came out again today, not only did the company's own stock price soar, but it also led to the medical device sector taking off.

……

At the same time, at Lingjing Technology Headquarters, Clinical Laboratory.

"Boss Xiao!" When the project team members saw the big boss coming here, the person in charge came to him immediately. Xiao Yu waved his hand and said, "What's going on?"

"The operation was a great success. The volunteer who received the transplant has been transferred to the anesthesia recovery room for postoperative care and is expected to wake up in about three hours." The person in charge said so, and his words and expressions were full of excitement. In fact, all the members of the project team present were very excited.

Because they know that today will definitely be a day that will be recorded in the history of world clinical medicine, and they have created this historic moment, and being able to participate in it will surely become a highlight in their careers.

At this moment, Xiao Yu was standing beside a transparent glass curtain wall and looking inside. Inside was the place where surgery was performed. The smart medical operating table was inside, and its smooth metal lines and flashing indicator lights showed its extraordinaryness.

"Look at the footage of the operation." Xiao Yu suddenly said while staring at the operating table inside. There must be a video recording.

"Mr. Xiao, come this way." The project leader immediately signaled, and Xiao Yu followed him to the control room next door. He signaled one of the team members to bring up the surgical footage and play it on the big screen.

As the images played, Xiao Yu also looked at the big screen silently.

Liver transplantation is a relatively large operation. Traditional liver transplantation operations performed by human surgeons usually take 4 to 8 hours.

In addition, due to differences in factors such as hospital grade and doctor's technical level, the actual surgery time may also vary.

However, this liver transplant operation performed by the intelligent medical operating table took only about 40 minutes to complete, and the efficiency of the operation was improved tenfold. The shorter the operation time, the better it is for the patient, and the less surgical consumables will be used, such as hemostatic gauze.

But at this moment, the lighting in the surgical laboratory in the picture being played is soft and bright. There are no busy medical staff like in a traditional operating room. There is only an intelligent medical operating table in operation.

Although there are people around, including surgeons, they are only responsible for observation and will not interfere with the operation unless something unexpected happens.

After the patient volunteer was gently placed on the operating table, the high-precision scanner inside the operating table started up quickly, quickly scanning the volunteer's body, collecting detailed information about the liver and surrounding tissues in the form of a data cloud, and transmitting it to the computer core built into the operating table within milliseconds.

The next scene shows that the operation officially begins.

I saw a surgical robotic arm extending smoothly from the side of the operating table, and the micro-cutting knife at the front end was precisely approaching the predetermined position on the patient's abdomen.

As the cutting knife is turned on, a slight and slightly sharp buzzing sound is emitted. It is a high-frequency vibration cutting technology that can minimize damage to surrounding cells while cutting skin and tissue.

The cutting knife slowly cuts in along the preset trajectory with micron-level precision. With every millimeter of advance, the intelligent algorithm inside the operating table dynamically adjusts the cutting force and speed based on the real-time feedback of tissue status data. In just a few minutes, a neat and smooth incision is presented.

Immediately afterwards, another robotic arm was quickly put into place, with a set of sophisticated blood vessel and tissue separation devices at its end.

The device is like a pair of dexterous hands, using nanoscale grippers and laser coagulation beams to accurately separate the intricate blood vessels and tissues around the diseased liver one by one.

When the laser coagulation beam touches the blood vessel, it instantly releases laser energy with precisely controlled energy, causing the blood at the blood vessel break to coagulate instantly, thus avoiding heavy bleeding.

During the separation process, a high-resolution microscope above the operating table captures every subtle movement in real time and transmits the visual images to the computing core for analysis to ensure the accuracy of the operation.

Once the diseased liver is successfully separated, the intelligent operating table quickly removes a matching healthy liver from the sterile storage compartment.

A robotic arm specially used for transplantation gently lifts the liver and slowly moves it to the designated position in the patient's body.

The precision docking device at the front end of the robotic arm starts working. Based on the data obtained from the previous scan, it accurately docks the blood vessels of the liver with the corresponding blood vessels in the patient's body.

At this time, the operating table once again activated another key technology, molecular-level welding.

By emitting energy waves of a special frequency, the molecular structures at the blood vessel joints fuse together to form a strong and seamless connection. This process is not only fast, but also ensures the stability and sealing of the blood vessel connection, greatly reducing the risk of complications such as postoperative vascular embolism.

"As a surgeon with 20 years of professional experience, after watching the entire liver transplant process on this operating table, I can say responsibly that it surpasses the skills of any human surgical master in the world." A man in his fifties next to Xiao Yu suddenly exclaimed.

He had already watched the whole process, and he was in the picture. He had actually intervened in the surgery when the accident happened, but the whole operation went quite smoothly and he was not needed. Watching it again, he was still amazed and shocked.

However, this surgeon is not worried at all that the smart medical operating table will take his job, nor is he as anxious as other surgeons.

Because he is now an employee of Lingjing Technology, he was recruited by the company to participate in the project.

At this moment, he was naturally looking at this brand-new medical device, the smart operating table, with the same eyes as appreciating a work of art.

But at this moment, the picture shows that after completing the blood vessel docking, the operating table directs the robotic arm to carefully fix and suture the tissues around the liver.

Under the control of the robotic arm, the suture needle quickly and accurately pulls the tissues at the edge of the wound together and sutures them.

The spacing and depth of each needle are strictly set according to the optimal biological healing model to ensure that the wound can heal smoothly.

As the operation draws to a close, the smart medical operating table once again performs a full-scale scan of the patient's body to check for any potential problems at the surgical site.

After confirming that everything was correct, the surgical robotic arm slowly retracted, and the operating table began to automatically clean the surgical area, properly storing the used instruments and medical waste.

The entire operation was completed in one go, efficiently and accurately. This significant human clinical experiment of liver transplantation was successfully completed without the direct involvement of human doctors.

After watching the entire 40-minute operation, which met Xiao Yu's expectations, he said with satisfaction: "Very good, well done, we have created another miracle in the history of clinical medicine."

……

(End of this chapter)