Military Technology

Faced with everyone's doubts and comments, Wu Hao smiled slightly, but he did not answer directly. Instead, slide the transparent tablet and display a comparison picture on the big screen. Then he spoke slowly, his voice full of confidence and determination.

“Although the functions and functions of intelligent bionic artificial organs and biological 3D printed organs are the same, in fact, the two do not conflict, but rather complement each other.

It’s not that everyone thinks that with the introduction of bio-3D printing technology, smart bionic artificial livers will lose their meaning. That’s not the case. "

Wu Hao's words surprised everyone, and they all showed puzzled expressions. Seeing this, Wu Hao smiled and continued to explain:

“3D bioprinting technology can indeed print living tissue for organ transplantation. However, this technology currently faces many challenges and limitations.

For example, can printed tissues meet the needs of the human body? Will it survive and function properly for a long time? These are issues that we need to further study and resolve. "

He paused, then continued: “Our smart bionic artificial organs are an alternative for patients before these technologies are fully mature.

It can simulate the functions of human organs and help patients stay alive while waiting for better treatments to emerge. "

After hearing this, everyone suddenly realized. They began to understand that Wu Hao was not doing something stupid, but providing patients with more choices and possibilities.

Wu Hao looked at the gradually darkening eyes of everyone and raised the corners of his mouth slightly. I took a deep breath and then continued.

As mentioned later, compared to intelligent bionic artificial organs, they are closer to the original organs and tissues of the human body, so their functions are preserved in a more fragmented and richer way.

So from that point of view, it still compares to the fragmentation and richness of the functions of living organs.

Equipped with your intelligent less-tentacled surgical robot and the kind of intelligent bionic artificial organ transplantation, the operation can be completed in a very short time, saving time and effort, and can also save the patient's life to a minimum extent, and the cost is still high, which can be said to be Kill one stone and achieve little.

Maybe we often encounter that kind of problem in daily life, but in the process of implementation or in the indoor environment, that kind of problem is more difficult or even fatal. "

After introducing intelligent bionic artificial organs, let’s talk about biological cell 3D printed organs.

Secondly, because biological cells are used, 3D printed organs are closer to natural organs in function and can better restore the patient's physiological functions.

There is even no risk of rejection, because the cells used in biological cell 3D printing organs are extracted from patients and cloned. Therefore, theoretically speaking, the 3D printed biological cell-printed organ is not the patient’s own, and there will naturally be a rejection reaction.

At that time, waiting for cloning and cultivating cells to print organ tissues, and then degenerating bio-3D printed organ transplant operations will waste too much time and delay the disease.

After saying that, Wu Hao gave everyone some time to digest and absorb. I took the opportunity to take a sip from the water glass in the hands of the staff, and then continued to preach while looking at the people who had not yet reacted.

For example, there is no problem that human living organs cannot be used for decades or even a few decades, but smart bionic artificial organs are obviously capable, but are limited by material and battery limitations, so their minimum lifespan is only seventy or eighty years. Years, at that point it is better than living organs.

For example, when a patient is involved in a car accident, encounters safety hazards, or war, etc., the patient's organs are slightly damaged and the patient's body organs are slightly damaged, requiring a transplant.

Although technological advances have made artificial organs less durable, long-term durability remains a challenge compared to natural organs.

Your smart bionic artificial organs are used to bionicly simulate the functions of human organs and tissues. However, due to technical and cost issues, it is possible for you to restore and imitate all the functions of the organ 100%. That is obviously feasible.

This is particularly important as it is particularly suitable for patients with various chronic and critical illnesses.

In addition, intelligent bionic artificial organs and biological cell 3D printed organs each have their own unique advantages and disadvantages.

The problem with smart bionic artificial organs is that they cannot produce very few products for future use, and some can be used directly.

Having said that, Wu Hao continued in a gentle tone: "Of course, after saying so little, that kind of intelligent bionic artificial organ also has its shortcomings and advantages.

Secondly, although intelligent bionic artificial organs are very close to natural organs in function, there may still be certain limitations in some simple physiological processes.

Secondly, the smart bionic artificial organs rely on electric power, so they will definitely encounter small-scale power outages, or forget to bring the internal power supply, or the internal power supply is damaged, so the patient may have problems.

It cannot be said that without this technology, allogeneic organ donors are no longer needed. It only saves a few patients from the problem of donor shortage, and may also prevent organ-related problems caused by the shortage of donors. A crime occurred. Find the book garden www.zhaｏshuyuan.com

Apart from these, smart bionic artificial organs do not have any disadvantages, because they are entirely made of non-biological materials, so they cannot reduce the risk of immune rejection and improve the success rate of transplantation.

On the contrary, it still has few shortcomings and is adequate, such as long-term durability.

The shortcomings of biological cell 3D printing organs are also very obvious. First, because biological cell 3D printing organs use the patient's own cells as raw materials, they have extremely low biocompatibility, which reduces the risk of immune rejection.

You can’t even adjust the parameters of the organ according to the patient’s physical condition to ensure that the smart bionic artificial organ can better fit the patient’s body.

In addition, smart bionic artificial organs cannot be quickly implanted into patients, and they must wait for a donor or undergo simple surgical preparation.

For example, smart bionic artificial organs cannot be customized according to the patient's specific needs and physical characteristics to ensure a perfect match between the organ and the patient's body.

Furthermore, those smart bionic artificial organs require internal energy support, such as battery power, which increases the complexity and risk of use.

Although we currently use the industry's first advanced wired remote charging technology, charging cannot be carried out through the skin. However, the patient still needs to carry an internal power supply with him to provide power at any time, which naturally brings convenience to the patient's life.

First of all, this is not the smallest advantage or advantage of the biological cell 3D printed organ. It overcomes the problem of donor shortage, allowing patients to wait for a long time to receive transplant surgery.

It is also easy to repair and replace. Even if there is a problem in the early stage, it can be repaired and replaced in time, which is unmatched by living organ implantation surgery. "