Chapter 1024 The most intuitive explanation of surgery
Soon, two Nobel Prize winners came to the Digital Medicine Laboratory of Nandu Medical University with a worldly mentality.
Two Nobel Prize winners came to the same laboratory at the same time, and they came not to give lectures, but to experience the VR operating room. Not only the whole laboratory was boiling, but also the entire Nandu Medical University was boiling. What kind of power brought these two Nobel Prize winners together?
attracted many visitors, one of whom was the famous Maninstein.
Maninstein's reputation is very great in the medical community, and he is simply a god in people's minds. After the news spread, many people gathered in the Digital Medicine Laboratory, hoping to meet this god.
Yang Ping took them directly to the laboratory as soon as they got off the car. Professor He and several doctors were already waiting at the door. Academic people's respect for academics is very pure. Director He also knew Yang Ping's intention and took this opportunity.
By promoting Nandu Medical University’s digital medical technology to the world, we hope to lead the formulation of standards in this field. The highest voice in any field internationally is to be able to control the formulation of standards.
When we came to the VR operating room, there was no nonsense. Everyone went straight to the topic, everyone entered their own positions, put on VR helmets, glasses and gloves, and Director He started the procedures in the VR operating room.
The virtual body was lying on the operating table, the blood vessels on the exposed heart surface were swollen, and the heart was beating violently in front of the eyes.
"This is a virtual Elsa replicated using VR technology. You see, this is modeled and replicated using her original examination data. The degree of restoration is very high. Currently, no other team in the world can achieve this level of realism.
Yang Ping explained as he prepared to take action.
Maninstein and Brian looked down at the virtual body. In terms of clarity, it was even clearer than in reality, because the lines and pores of the skin are visible to the naked eye. In the VR world, it seems that the observer's vision has been greatly improved.
"You can reach out and touch it." Yang Ping reminded Brian.
Brian carefully stretched out a finger and gently pressed it on the exposed heart surface. The touch was so lifelike that he was very surprised.
Brian has a relatively good understanding of VR virtual technology. He visited laboratories in the United States and the United Kingdom in depth. At that time, he was very shocked by the technology of these two laboratories, especially the tactile feedback technology. He originally thought it was the best in the world.
VR technology, I didn’t expect that the VR virtual bodies in front of me are more realistic. The touch of my fingers just now is so delicate that it can almost look real.
"You can try to cut it open." Yang Ping handed Brian a scalpel.
Brian was hesitant with the virtual scalpel in his hand. Because it was so realistic, he couldn't tell the real thing from the fake one and didn't dare to do it.
"She is a virtual body. Don't be afraid. Cut it open boldly and see what the heart looks like under the skin." Yang Ping encouraged Brian.
OK, I'll try.
Following Yang Ping's gestures, Brian began to gently cut the skin. The skin did not break under the knife. Small blood vessels and capillaries were severed, blood seeped out, and some small arteries began to spurt blood.
"The establishment of virtual bodies relies on superb digital human technology, and our digital human simulation has reached the cellular level. The VR you are experiencing now is the world's top digital human technology, no one." Yang Ping used gauze to compress the incision.
edge, and then use virtual electrocautery to stop bleeding.
Everything is just like the real thing. The electric knife coagulates the blood vessels, and with a sizzling sound, a faint smoke comes out, and then the blood vessels are occluded and the bleeding stops.
"Our modeling is very complex, with millions of various parameters considered. This is a simulation of Aisha's anatomy. I can demonstrate the entire surgical process to you. You can know how this surgery is done. What we are facing
What are the risks, and how should we solve them once problems arise?"
Yang Ping took the scalpel from Brian's hand and continued the operation.
"The bleeding of the blood vessels is completely based on the caliber and pressure of the blood vessels in this part of the human body. Including the clotting time, it is also designed according to the physiological standards of the human body?" Brian said curiously. He didn't know whether this simulation was a simulation or just a mere simulation.
Express an existence without considering its details.
Yang Ping began to dissect the pericardium and expose the heart: "These are just the most basic technologies for our digital humans. Almost all physiological functions of the human body will be realized here. In the future, any of our human experiments can be completed in the virtual laboratory. In this way
With the help of the computing power of supercomputers, we can put certain changes in the human body into a virtual environment and scale them up or down. Human experiments that originally took ten years to complete will one day be completed in just one copy.
"
Oh my god, what is this concept? This is to virtualize, speed, and simulate human experiments. Once realized, this will be epoch-making. For example, it will be disruptive in the field of medical research and development. I have worked hard to collect it for more than ten years.
Data, using digital human technology to complete more than ten years of evolution in a few minutes, directly collect data.
"A top-notch VR human body simulation requires three aspects: advanced digital human technology, advanced image inspection technology, and analysis and reconstruction of image inspection pictures. Each of them is indispensable. Our digital human technology is the first to realize the function in the world.
Our image analysis and construction model is also the most advanced in the world. You see, this is Aisha's heart, the anatomical structure between the pericardium and the myocardium. We simulated it very well because our model considers more parameters.
Compared to our model, other VR simulated human bodies can only be described as toys." Yang Ping had cut open the pericardium and showed the heart to Brian, letting him see what his granddaughter's heart looked like.
This kind of scene simulated using VR has an immersive effect, which is definitely not comparable to those images and pictures.
"Look, this is Aisha's heart. We have to move it into the chest, and we also have to correct all the accompanying deformities." Yang Ping pointed to Brian's heart.
Brian reached out and gently touched the beating heart. He immediately retracted his hand after just touching it, because the feeling of the heart under his fingers was so realistic that he almost thought it was real.
"Patients with Cantrell's pentad are often accompanied by a variety of cardiac malformations, such as ventricular double outlet, atrial septal defect, ventricular septal defect, abdominal midline defect, umbilical hernia, etc. All of these malformations must be corrected, which is what you see now.
This heart is not only malformed in position, but also structurally malformed, and we must restore it to normal."
Yang Ping explained the operation to Brian while Maninstein acted as a temporary assistant.
Using VR technology to demonstrate Elsa's heart surgery without using too many words, Brian only needed to explain a few key steps, and Brian knew everything.
He has taken Aisha to almost every possible hospital in the world, including the best hospital in the United States. No doctor has ever been able to explain his condition to him like this. Only now does he realize that the hospital he went to is not the best hospital in the world at all.
And now the Chinese hospitals are the best hospitals in the world.
Yang Ping's hands were very dexterous, and his surgical movements were steady and brisk. It was the first time for Brian to experience the different surgical styles of Easterners.
"Now we need to arrest the heart by injecting virtual cardioplegia and then using virtual extracorporeal circulation in a virtual environment." Yang Ping stopped the scalpel in his hand.
Maninstein asked: "You also have virtual cardioplegia technology? Virtual cardioplegia solution."
"Yes, its essence is a program module." Yang Ping began to inject cardioplegia.
