The next generation nanotechnology can repair tissues and make surgical operations
The robot spiders
The robot spiders, what are created for making repairing for the next generation high-flying airships, what mission is to operate as the communication platform, while they are on airborne can make much more things, what is like straight from the Sci-Fi books. This case those robot spiders would be connected to the biotechnology, which allows creating the cell transplants from the patients own cells.
If that technology would be effective enough, that means that those small robots can fix the large tissue damages in the natural environment by using the own cells of the patient. The problem is to get enough cells to complete that mission, but the genome transfer, which makes the cells divide extreme fast would allow creating the small size cell cultures, what can transform the cells to the large tissue damage areas of the patients.
Genome transfer could make this scenario true in some day.
Those robot spiders can be equipped with cell cultures, which allows them to fix the large scale tissue repairing, in the cases where the rescue crew would not able to touch the person. In that case, the robot spiders would use the artificial tissues, which are made from the patients own cells. In that scenario, the cells are equipped with the genomes, which makes the cells multiply themselves in a very fast period.
If that technology would someday able to function, the thing would cause the situation, that those robot spiders take the cells from the patient, and then the genome would transform to those cells. The problem in this thing is the immune reaction, what will terminate those tissues and the cell cultures must have enough cells, that it can fix the large tissue damage areas.
The miniature submarine can fix the blood veins in the future.
Sometimes nanomachine makers have portrayed the idea of the very small size submarines, what are observing things in the human blood system. But the new idea is to create the biological version of the robots, which are used for fixing the oil tubes. Those cylinder-shaped robots are normally traveling in the oil tubes and weld the holes, what they see.
But the nanotechnology version of that thing would be equipped with cell culture. That robot would use the small size pistons to put the cells in the places, where is internal tissue damage in blood veins. That small size cell culture would allow creating this revolutionary machine, what can repair blood veins in the case, where the internal blood leak will cause death and of course those nano-submarines can block the blood from the damaged areas, and they can equip also with ventilates.
That would allow sending the blood through the system when it is needed. That would help to handle brain injuries because the system can observe the condition of the neurons, and let the blood go to the damaged area when the cells need oxygen. And also the internal blood leak would be smaller, which allows keeping the pressure in the brains smaller. That might be the future of nanotechnology, and maybe those systems someday will save human lives.
The robot spiders
The robot spiders, what are created for making repairing for the next generation high-flying airships, what mission is to operate as the communication platform, while they are on airborne can make much more things, what is like straight from the Sci-Fi books. This case those robot spiders would be connected to the biotechnology, which allows creating the cell transplants from the patients own cells.
If that technology would be effective enough, that means that those small robots can fix the large tissue damages in the natural environment by using the own cells of the patient. The problem is to get enough cells to complete that mission, but the genome transfer, which makes the cells divide extreme fast would allow creating the small size cell cultures, what can transform the cells to the large tissue damage areas of the patients.
Genome transfer could make this scenario true in some day.
Those robot spiders can be equipped with cell cultures, which allows them to fix the large scale tissue repairing, in the cases where the rescue crew would not able to touch the person. In that case, the robot spiders would use the artificial tissues, which are made from the patients own cells. In that scenario, the cells are equipped with the genomes, which makes the cells multiply themselves in a very fast period.
If that technology would someday able to function, the thing would cause the situation, that those robot spiders take the cells from the patient, and then the genome would transform to those cells. The problem in this thing is the immune reaction, what will terminate those tissues and the cell cultures must have enough cells, that it can fix the large tissue damage areas.
The miniature submarine can fix the blood veins in the future.
Sometimes nanomachine makers have portrayed the idea of the very small size submarines, what are observing things in the human blood system. But the new idea is to create the biological version of the robots, which are used for fixing the oil tubes. Those cylinder-shaped robots are normally traveling in the oil tubes and weld the holes, what they see.
But the nanotechnology version of that thing would be equipped with cell culture. That robot would use the small size pistons to put the cells in the places, where is internal tissue damage in blood veins. That small size cell culture would allow creating this revolutionary machine, what can repair blood veins in the case, where the internal blood leak will cause death and of course those nano-submarines can block the blood from the damaged areas, and they can equip also with ventilates.
That would allow sending the blood through the system when it is needed. That would help to handle brain injuries because the system can observe the condition of the neurons, and let the blood go to the damaged area when the cells need oxygen. And also the internal blood leak would be smaller, which allows keeping the pressure in the brains smaller. That might be the future of nanotechnology, and maybe those systems someday will save human lives.
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