10. Artificial cells simulate the smallest cells or artificial cells are engineering particles that simulate one or more functions of biological cells. The term does not specify a specific physical entity, but it represents a view that different structures or functions of biological cells can be enhanced or replaced by compounds. Sometimes, artificial cells are polymers or biofilms around bioactive substances. In this modern society, the process of artificial cell mimicry can be started. In this process, human cells and tissues will be developed in the laboratory. The results of mouse experiments show that this chemical can be transferred from young people to old people like blood transfusion.
9. Sensor treatment of diseases This is an interesting technology, which can help patients observe the anatomical structure of the human body and the changes in blood circulation after taking medicine. This method is also helpful to understand how serious the side effects of a drug on human body are and how to find its substitutes. There is also a multi-sensor fusion decision-making system, which uses neural networks to predict the existence of diseases.
8. HIV can treat genetic diseases. It sounds dangerous to treat genetic diseases with deadly and dangerous viruses. However, Italian scientists have found a way to treat two serious genetic diseases, wiskottaldrich syndrome and metachromatic leukemia, with gene therapy vectors extracted from human immunodeficiency virus. DNA vectors have unique properties and are very effective in introducing information into specific DNA of cells. HIV works by changing and infecting a DNA cell, but according to research, it can also infect a dysfunctional cell, and its genetic material is missing, so it can cure some genetic diseases.
7. Printing a fracture is very painful. When the bone heals, it must be cast, which is very annoying. But it seems that this period has passed. Now, with the help of a 3D printer, researchers have developed a hybrid material with the same performance, flexibility and strength, just like a real bone. This model can be implanted in the fracture, and the real bone grows around like a scaffold. Once the goal is achieved, the model will collapse. The materials used for bone structure combine with stem cells, and the growth rate of bones is much faster than normal. This technology is very feasible, and any tissue or even all organs can grow.
6. Cultivating body parts This sounds incredible, but now it is possible to cultivate body parts. In the laboratory, scientists are trying to create human organs. It will soon be possible to cultivate complex organs, such as heart and kidney. Scientists have done all kinds of research in the laboratory and used many scientific methods to obtain these media in order to achieve their goals. Ears, eyes and fingers can now be cultured artificially in science laboratories, and scientists will soon try to cultivate hearts and brains.
5. hemostatic gel usually, any progress in the medical field comes from years of high-budget research. Sometimes, this is a sudden accident, and sometimes, a brave team will make a truly creative discovery. Isaac Miller, Joe Lando Linna and their Veti-Gel are such examples. This is a substance similar to cream, which can immediately seal the wound and start the coagulation process. Hemostatic gel forms a synthetic framework covering extracellular matrix, which is a natural substance that can help human growth. If this product goes on the market, it can save millions of lives.
4. Test paper detection of pancreatic cancer is a very fatal disease. Pancreatic cancer is a very fatal cancer, and it needs to be diagnosed as soon as possible to get proper treatment. Have you ever heard of a paper test to help detect pancreatic cancer? Jack Andraka, an adolescent optimist, invented a promising method to detect pancreatic cancer. This test will definitely lead to major changes in the medical field. The test in this paper is cheap and of good quality, and it can definitely detect cancer cells in pancreas. It can also repair damaged body tissues and regulate antibodies.
3.DNA Lego toy DNA is like a mentor of life, telling cells what they must do. They changed the structure, so did the information. DNA is also called the cornerstone of life, and engineers at Harvard University put it more bluntly. They use DNA as building blocks, so they use nano-scale Lego blocks to build buildings. DNA is usually encoded by four different letters; A, T, G and C, when DNA is combined, the connection between G and C, the connection between T, they designed a DNA chain, including two letters of each letter, in the form of Lego blocks. Put them together and you can make anything. Lego can regulate cells and tissues, and also organize new activities of human body. Soon, we will see this innovative technology enter our lives.
2. Vaccination without injection Many people are facing the phobia of injection, so they are hesitant about vaccination and injection. About 50% children are not vaccinated because of fear and pain, and Heath personally faces difficulties in managing inhalation. For this reason, the prevalence of influenza is increasing every year. So professionals have developed the needle-free method. With this method, the vaccine is delivered directly to the human body. This technology is very beneficial to these people. For everyone, no one will endure the pain of acupuncture without help. This technology will involve the use of microneedle arrays formed by intervertebral discs as a substitute for vaccination needles.
1. The technology of electric underwear sounds strange, but it is not. This technology can really save thousands of lives. For bedridden patients, this is indeed a relief technique. When patients are hospitalized and stay in bed for days, weeks or even months, they will suffer from bedsores. These bedsores are very painful, adding more pain to the lives of patients who are struggling with the disease. Bedridden ulcers can be fatal, with about 60,000 people dying of bedsores and infections every year. This New Pants can provide electric shock in pants, which may prevent stress pain in bedridden patients. Bedsore, also known as bedsore, is an ulcer that stays in one place for a long time and causes skin damage. They grow in skeletal areas near the skin, including the back, ankles, buttocks and heels. These bedsores can lead to life-threatening diseases such as gangrene or fatal infection. Pants will heal wounds and press the skin under the action of electricity. This is incredible, but when people see its magical effect, they will believe it.