Science and technology in the world today. Interesting inventions of the world

The Chepetsk Mechanical Plant (ChMZ JSC, part of the TVEL Fuel Company of Rosatom) received a Russian patent for wire for processing metallurgical melts and a method for its manufacture.

The patented method is used for the production, among other things, of calcium injection wire (CIW). The unique technology was developed by specialists from the Chepetsk Mechanical Plant several years ago, which opened up new opportunities for the domestic metallurgical industry. And today the Chepetsk Mechanical Plant is the only Russian manufacturer calcium injection wire from electrolytic calcium of our own production.

The instrumentation is a monolithic electrolytic calcium in a steel shell. It is applied for optimal mode extra-furnace processing of metallurgical melts, which improves the performance properties of steel. Due to better absorption of calcium, it provides material savings of 3-5 times compared to traditional calcium-containing powder wire.

Sechenov University announced the development of a mobile artificial kidney. The invention will make it possible to “untie” those suffering from renal failure. For now, they are forced to spend several hours in a lying position.

Patients are forced to remain in a lying or semi-sitting position for several hours due to the bulkiness of the devices that filter the blood. This is the so-called dialysis, or blood purification. The alternative is a kidney transplant. But while the transplant takes place, the person suffering from kidney failure has to be tied to a hospital bed.

Sechenov University has proposed a new alternative. Scientists have invented a device that will allow dialysis solution to be pumped through a catheter into abdominal cavity. The device can be carried in a backpack. It weighs 3.5 kilograms. This is an artificial portable kidney.

“The device consists of a system of pumps and valves that circulate liquid through a system of filters for mechanical cleaning, while the device is controlled via a smartphone,” explained the university press service.

The first tests have already been completed. The device has been tested on animals. Tests have shown that the device is safe. It is claimed that it helped increase the efficiency of blood purification several times.

The CES 2016 event is widely known all over the world. All the innovations in technology, electronics and gadgets of various kinds are presented here. This exhibition attracts thousands of people. Everyone should look at the amazing exhibits! All new products from world leaders in production and progressive companies deserve attention. We've collected 25 of the most popular gadgets this year.

1. Rumors about fully flexible smartphones have long been in the news. LG has realized the idea of ​​science fiction writers: an 18-inch OLED panel easily rolls up into a tube.

2. The EHANG passenger drone was also presented in Las Vegas. The ergonomics of the model impresses even non-professionals.

3. Grill from GOSUN. Powered by solar energy, heats up to 550 degrees in 15 minutes.

4. LG TV with a 2.57 mm screen. All electronics were transferred to the block stand.

5. A virtual reality headset was waiting for HTC lovers.

6. POWERUP presented an “origami” drone. The paper FPV drone is controlled via Wi-Fi and can be equipped with an augmented reality helmet.

7. LG smartphones on the Android platform from the K-line are budget multifunctional gadgets. A distinctive feature is a great camera.

8. Varia Vision from GARMIN is an augmented reality device for cycling enthusiasts. Displays an image on glasses, presenting data on heart rate, pressure, and plotting a route. The demonstration can be seen in this YouTube video:

9. Arke 3D printer from MCOR. Creates colored models from paper.

10. Manufacturer FLEYE created a spherical drone with hidden blades for the safety of others.

11. New products at CES 2016 included a CASIO smart watch that is insulated from moisture, temperature changes and pressure when diving to a depth of 50 meters.

12. NIMA from 6 Sensor Labs. Provides rapid testing for the presence of gluten in food.

13. Prototype from PANASONIC - the first Blu-ray player for 4K format.

14. The DIGITSTOLE brand presented “smart shoes” with Bluetooth, heating, a system for calculating steps and calories “burned” while walking.

15. A camera with 4K image from SONY is the first gadget of its kind available to the average consumer. Highest quality, the ability to shoot in dim light and record deep, realistic sound - that's what it's all about!

16. The CANON brand pleased us with 5 models from the PowerShot line. Innovations include additional functions, higher resolution, zoom, and color rendition.

17. Interactive Hyundai application for getting to know the car through a smartphone. Demonstrates the functions and capabilities of the machine.

18. Family Hub – a refrigerator with a 21.5-inch touch screen from SAMSUNG.

19. Automaker BMW demonstrated the AirTouch system for controlling car functions using gestures.

20. PC ROG GT51 from ASUS is a desktop gaming gadget that is small in size. The functionality and design are tailored to gamers: everything is aggressive, fast and powerful.

21. Personal Robot from ROBOTBASE - personal artificial intelligence. The robot recognizes faces, speech, performs a lot of functions and can move.

22. INTEL presented a mini-computer to the public. What's most interesting is that its size does not exceed a button. At the same time, the functionality is very diverse!

23. The exhibition review also included OSVR, a universal augmented reality helmet from RAZER. They promise to leave the software and hardware in the public domain.

24. The SONY Life Space UX line will clearly replace TVs, because this year it was replenished with a home mini-projector for displaying images on the wall.

25. RAZER Blade Stealth – an ultra-thin gaming laptop that will be available at an extremely low price.

This year's electronics exhibition was literally a science fiction writer's dream. The companies demonstrated both models ready for mass production and prototypes. These include tablets, mobile gadgets, and media players.

The automotive industry stood out separately. Various machines and their components were presented in abundance. Fundamentally new technologies also created excitement. In particular, hydrogen fuel cars. In general, among hundreds of exhibits it is difficult to single out a clear favorite! You can see some of the things on the video from YouTube:

Behind modern technologies costs the future development of civilization. New devices, technologies and methods are all actively promoted now. Innovative models of the future are truly worthy of attention! Looking for equipment for yourself? Pay attention to the new products, the same cameras and household appliances. They are becoming more diversified and budget-friendly. Just like laptops, PCs, phones.

Please rate this post! Write in the comments your opinion about the results of the companies’ work and your favorite models. And be sure to share the innovations from CES 2016 with your friends! And also read about, which you can buy now in our online stores!

In the Institute organic chemistry them. N.D. Zelinsky RAS, Poisk journalists come often. The reason for this meeting was the victory of Iokhovo residents in the recently completed competition of the Russian Science Foundation to support projects implemented in world-class laboratories. The Russian Science Foundation recognized 49 structures as such, one of which - the laboratory of glycoconjugate chemistry - is headed by our author, Corresponding Member of the Russian Academy of Sciences Nikolai NIFANTYEV, who came to work at the Institute of Organic Chemistry immediately after graduating from Moscow State University almost 40 years ago. When he has time, he gladly tells the history of this institute; he will certainly mention that half of the lobby is decorated with marble from the destroyed Cathedral of Christ the Savior, and how many talents worked here. As we walk to his office, I notice that it would be nice to invest at least part of the funds from the grants won into maintaining the historical appearance of the building. No, spending money on repairs is not allowed by the rules of the funds,” Nikolai Eduardovich responds. – And the scientific reputation of the institute is not judged by the varnish of the doors, but by the quality of the research. There are big problems with the maintenance of the IOC buildings due to the change of ownership of the RAS property. With the creation and liquidation of FANO, the institute receives extremely small repair resources. We hope that the Ministry of Science and higher education(MES), which is now responsible for the institutions, will take this seriously. What problem does the money from the Russian Science Foundation help you solve, because it’s quite a lot? The main expense items are researchers' salaries, the purchase of new instruments and reagents, and business trips to conferences. Thanks to grants from the Russian Science Foundation, we were able to update and significantly expand our equipment fleet in the interests of advanced research areas. But in 2019 arose serious problem. Previously, RSF funds, unlike budget funding, were not burdened with labor-intensive procedures. It was enough to order the necessary equipment and wait for delivery, although the selection of devices in the required configuration already takes a lot of time, but is carried out by the authors of the project themselves, since only they know what equipment and when to buy. In 2019, the situation changed dramatically for the worse. The Ministry of Education and Science, which now manages academic institutions, for some reason abruptly intervened in the rules for using grants. The procurement regulations assigned by the ministry were developed by it for the expenditure of budget funds under 44-FZ. RSF funds are extra-budgetary, and their spending is regulated by 223-FZ, which allows grant holders to choose what they need and its supplier. The Ministry of Education and Science's procurement regulations require that equipment be purchased through electronic platforms, actually equating extrabudgetary funds with budget ones. This complicates and lengthens the process of obtaining equipment and reagents, which are always urgently needed for research. Because price plays a key role in choosing the winning bidder, the door opens for unscrupulous suppliers and, as a result, a decrease in the efficiency of research and the expenditure of grants. Such sad examples have already happened. This categorically does not meet the needs of a modern, dynamically developing scientific institution and negates the convenient funding conditions from the Russian Science Foundation. Does the Russian Science Foundation really not check what grants are spent on? Checks, but within reasonable limits. The Russian Science Foundation professionally and without unnecessary formalities monitors the implementation of projects in detail and controls the correctness of spending. To do this, it conducts on-site inspections with its teams, which work quickly and efficiently, since their teams include specialists from various fields. The Russian Science Foundation, it must be admitted, has an enviable reputation. Undoubtedly! By the way, the fund has been in existence for six years, and interim results can already be summed up. I believe that the Russian Science Foundation is very successfully fulfilling the tasks that were assigned to it during its creation. The foundation's grants gave a powerful impetus to the development of scientific work: we received large funds for advanced research, which, having completed, created the basis for moving on to the next, even more complex projects. For example, planning our new RSF project became possible after we created a biochemical research module using funds from a previous “institutional” RSF mega-grant. Note, at the Institute of Organic Chemistry. The first stage has been launched, we are preparing the second, and this is already giving results that are fundamentally more high level. It really turned out that money was put into business, like feed for a horse. Please tell us about your new RSF project. In short, his task is to develop fundamental approaches for creating third-generation vaccines and enzyme-linked immunosorbent sandwich diagnostics based on carbohydrate ligands. And if it’s simpler about the same thing, as they now say, in their own words... Such products are necessary for the detection and prevention of clinically significant bacterial and fungal infections. But let's start with carbohydrate ligands. Everyone has heard of genomic and proteomic research. Long years they defined important directions in the sciences of living systems, but in Lately Glycomic ones are actively developing (the prefix “glyco” denotes that they belong to compounds with a glycosidic bond, i.e. carbohydrates). They are aimed at studying the biosynthesis and functioning of carbohydrate structures of cells - oligo- and polysaccharides, glycolipids, glycoproteins, etc. The priority in the study of such compounds explains the fact that they play a key role in the development serious illnesses, including cancer, inflammation, infectious lesions, immune and hormonal disorders and others. Therefore, glycomedicines, vaccines and diagnostics form very important segments of the global pharmaceutical market. Let me give you an illustrative example: carbohydrate vaccines in value terms account for up to half national calendars preventive vaccinations in many countries, including the Russian Federation. Unfortunately, such products are imported; we do not have our own full-cycle production of carbohydrate conjugate vaccines. That is, the implementation of your project will serve to fill this significant gap? Certainly. Our area of ​​research is a priority now; we are the first to synthesize many antigens in the world and are the first to get our hands on the tools to create the vaccines and diagnostics that are in demand today. And this despite the fact that in the USA, developed EU countries, Japan, and China there are specialized national programs on glycosciences, the study of the synthesis and biology of carbohydrate compounds and the creation of promising products based on them. The goal is to increase duration and quality human life. A priority program in glycosciences is urgently needed in Russia, otherwise we will find ourselves outsiders of scientific progress. It is worth noting that brain research and many innovative medical technology, especially cellular, genomic and post-genomic, which are now so much talked about, are either directly related to biologically significant carbohydrate compounds and rely on glycotechnologies, or are intended to influence the processes that determine carbohydrate molecules in target cells. Yes, the situation is extraordinary, especially since this area of ​​research meets the objectives of the Strategy for Scientific and Technological Development. Is your project also related to countering biogenic threats? We have chosen very complex objects for ourselves: we are working on the creation of first-in-class vaccines against bacteria included in the ESCAPE list, which, according to WHO, pose a special threat to humanity. In addition, we are developing a third generation Haemophilus influenzae vaccine. For now, to prevent hemophilus influenzae infection, the Russian vaccination calendar for children at risk includes the second generation French vaccine. It has many shortcomings, but we don’t have a better one yet. And from 2020, all children in Russia must be vaccinated against hemophilus influenzae. I would like to note that in order to obtain a hemophilus influenzae vaccine, in addition to the carbohydrate ligand, a special carrier protein is required, which was specially produced for us at Microgen JSC (part of the Rostec Group of Companies). Let's get back to fungal infections. How scary are they? Very! In everyday language, they kill several million people a year, about as many as tuberculosis and malaria. Effective control of fungal pathogens is difficult due to their incredible diversity and antibiotic resistance. Therefore, the development of antifungal carbohydrate vaccines is so urgent. It began in the world recently, and here we have a good position, cooperation has been established with leading foreign and domestic mycological laboratories. Combining research competencies is very important to speed up the delivery of the target product. Conidia (spores) of Aspergillus fumigatus (black mold), a fungal pathogen that causes most dangerous disease– invasive aspergillosis You say so optimistically, as if between fundamental research and there are no medications for decades. The grant is given to you for four years, and if you work well, they will extend it for another three. Maximum - seven. Not enough? Not enough to finally create a vaccine. But the RSF grant is designed to solve problems at the research stage, and clinical trials are supported in a different way. It’s another matter that the one we chose research program very intense and intense, but we are reasonably focused on positive results. Why, in addition to vaccines, are you also developing diagnostics? Because vaccines and diagnostics are related products, because it is difficult to develop vaccines without effective methods infection control and treatment. We develop immunoenzyme sandwich diagnostics in various formats - from individual immunochromatographic strips (as in pregnancy detection kits) to laboratory tablets and robotic systems. If things are tolerable with bacterial diagnosticums, then with mycodiagnosticums it is a disaster: there are no registered immunoenzyme diagnosticums in the Russian Federation - neither domestic nor imported. Therefore, in our project, special attention is paid specifically to diagnostic kits for detecting the main types of invasive mycoses. A lot of new drugs are needed, but who will decide which ones first? To keep abreast of priorities, I communicate a lot with mycologists and go to major infectious disease conferences. In April, for example, I will be in Amsterdam at the European Symposium on Clinical Microbiology and infectious diseases. The last forum brought together 15 thousand participants, every tenth from the USA. From us, if there were a dozen specialists, that would be good. Doctors come together to exchange results and catch new trends. In particular, last year there were two sessions on the relationship between influenza and fungal infections. It was found that those who died from influenza often died not from it, but from invasive aspergillosis. Every day we inhale hundreds of spores of Aspergillus - mold fungi, there are three hundred species of them, living on all continents in any climate. For people with strong immunity, aspergillus is not dangerous, but as a result of influenza, serious operations, and oncology treatment, the immune system is suppressed, so the mold “grabs” into the bronchi and lungs, injuring the skin, visual apparatus, and central nervous system. nervous system. And quite quickly brings the patient to fatal outcome. But we do not have a diagnostic tool to detect a marker of invasive aspergillosis, so we are working especially intensively on its creation. Can you compare your products, even future ones, with imported analogues? This topic deserves a separate discussion. Behind last years Thanks to major support from the Russian Science Foundation, we were able to develop new chemical approaches and study reaction mechanisms, including those involving computer methods. This made it possible to synthesize a very wide range of oligosaccharides, reflecting key fragments of polysaccharides from the fungal cell wall. Using these unique libraries of carbohydrate ligands, we were able to study the specificity of the antibodies used in the enzyme immunoassay kits of a leading international diagnostic concern, and were surprised to find that the specificity of the antibodies was not at all the same as declared by the manufacturer. This is the reason false positive results, and consequently, errors with prescribed medications. We recently published an article in a specialized international magazine(from Q1) about the antibodies used in the invasive aspergillosis detection kit. That is, the international expert community agreed with our conclusions. Now we are writing an article about antibodies that are mistakenly used in a kit to detect invasive and other types of candidiasis. In general, fungal pathogens are a Klondike for researchers. There are hundreds of mycopathogens, many of them dangerous, but often just beginning to be studied. Now, for example, the hit of the season is Candida auris, which causes invasive infections with a mortality rate reaching 60%. What about cryptococci? They also “pounce” on patients with viral infections. We work very intensively against all these “creatures”. Are there any special features of RSF grants for world-class laboratories? Yes. First, we need to hold a school for young researchers every year. The second requirement is unusual: on the subject of the project, an agreement must be concluded with an industrial partner who will co-finance the work or, together with us, conduct research on the subject of the project to create the final product. Our partner is one of the largest domestic companies - R-Pharm JSC, which today is already an international company. She is actively involved in the vaccine research consortium that we created several years ago. And not only with its resources, but also by providing expert support, which is very valuable to us. The joint project that we will carry out with R-Pharm is aimed at developing a first-in-class vaccine against a bacterial pathogen from the ESCAPE group. Nikolai Eduardovich, are young people interested in your project? Young researchers, starting with the responsible executor, Candidate of Chemical Sciences Vadim Krylov, who is 33 years old, are the main part of our team. This, by the way, is a requirement for all RSF competitions. Due to the interdisciplinary nature of the project, we also invited young colleagues from the Institute of Vaccines and Serums. I.I. Mechnikov, Hematological scientific center Ministry of Health of the Russian Federation, Research Institute of Medical Mycology named after. P.N. Kashkin, Institute of Chemical Biology and Fundamental Medicine SB RAS, State Research Institute of Genetics National Research Center "Kurchatov Institute" and other organizations. They have the biomedical base required for research. But the core of the project is our laboratory at the Institute of Organic Chemistry, and links from it extend to different institutes, where world-class research will also be conducted. Apparently, it is world-class not only in the quality of science, but also in its significance for humanity. Interviewed by Elizaveta Ponarina

If you take you back to the mid-90s, it will take you a very long time to get used to life there. And it’s not a fact that you’ll get used to it. The point is not that the dollar then cost 3,926 rubles, but that it was a world without widespread Internet and without mobile phones. We decided to figure out which technologies will also change our reality in the coming years.

1.

We initially liked Google Glass with its augmented reality and ability to capture everything you see, but then we realized they had one a big problem. It's not the price or the software, but the fact that Google Glass makes anyone look like a complete idiot. By the way, people from Google also understood this - they invited a designer from Apple and sent the product for revision. But while the glasses are being completed, it may turn out that no one will need them anymore, because “smart” contact lenses are on the way.

Less pretentious and noticeable to others, they are capable of giving a person Terminator-like super vision. Thus, the Innovega company, which once worked on a project of such lenses for the US military in collaboration with the DARPA agency, now plans to release a civilian version called iOptik.

With these lenses, of course, you won’t be able, like Schwarzenegger’s hero, to immediately determine whether your opponent’s clothing size will suit you in a fight, but you will receive email and messages from social networks right in your eye, and also see navigator tips right on the way to Sarah Connor. In addition, these “smart” lenses, like their regular counterparts, will correct your vision: you will be able to read signs on the street even from a skyscraper window (they promise that iOptik will have a built-in zoom).

And since we started this article with Google products, we’ll end with it - in addition to the mentioned glasses, this company is also working on lenses. Google is testing a model for diabetics: a system is built into the lenses that checks the sugar level in a person's tears every second and sends the data to a smartphone. Perhaps in the future it will be able to display the sugar level directly on the picture that a person sees with the eye, as in computer game you see the health status of your hero.

Expected: in 2020

Possible problems: and now about the sad thing - at the moment, for full-fledged operation, iOptik “smart” lenses need glasses with built-in projectors, which display the entire Additional information. Well, at least you don’t have to carry a backpack with batteries with you.

2.

The sky outside your window will soon become much noisier - drones will deliver mail, parcels and purchases from stores. However, that’s why we’ll better tell you what will happen to this food next. Scanners are coming that will be able to tell in detail exactly how much of certain useful substances are contained in what you are about to eat.

It will be easier than ever to control your diet. The Israeli company Consumer Physics is ready to begin production of such gadgets, called SciO, as soon as it raises $200,000 on a crowdfunding platform.

A device the size of a flash card will understand from the light reflected from the product what it consists of, and, after checking with cloud service, via Bluetooth will display the exact composition on the screen of your smartphone. Finally, it will be possible to check how environmentally friendly “farm products” are.

Expected: in 2017

Possible problems: There don’t seem to be any problems with the scanner, but as far as drones are concerned, things are not so rosy. Already, robot flights are banned in some cities, and given the ever-increasing security measures, it will not be easy for them to get the green light.

3.

Virtual reality is becoming more and more real, and headsets like the Oculus Rift are proof of this. Soon it will be possible, wearing special glasses or a helmet, to instantly not only see the most distant countries from your sofa, but also feel their aroma. Harvard University professor David Edwards, in partnership with his student Rachelle Field, has already shown a device called oPhone, which can form up to 300,000 odors from special cartridges, so this future is just around the corner.

“Virtual leisure can become in a great way stress relief, says Professor Karol Žliczyński from the Silesian Technical University. - Research shows that a virtual walk is even more relaxing than a regular one.

Expected: in 2017

Possible problems: It is better to refrain from using it when watching porn and horror films.

4.

Arkady Raikin also called for attaching a dynamo to the ballerina’s leg so that it would generate current. And he was right. “Our bodies are constantly producing energy, some of which is wasted,” says Dr Joe Briscoe from Queen Mary University of London. “If we could use at least part of it, the problem of unexpectedly dead phones would be solved.”

Dr. Briscoe is experimenting with piezoelectric materials that generate energy when they are stretched or compressed. This technology also has a second advantage - clothing made from such materials allows you to track every movement of a person, which can be useful when caring for the sick or monitoring criminals under house arrest.

Expected: in the coming year

Possible problems: For now, the material turns out to be quite hard and unpleasant for the body, so such clothes will not suit either ballerinas or athletes.

5.

Evgeny Leonov’s hero in “Big Change” also tried to study in his sleep. It didn't work out for him. And you might succeed.

Dream analysis was useful in Freud's time, but your dream may serve you differently in the future. Neurological studies show that learning in sleep is real, the main thing is to synchronize it with the phases of a person’s sleep (and today even fitness bracelets have learned to track them). How about learning kung fu using the Neo system from The Matrix?

During sleep, the brain structures and “organizes” the knowledge acquired during the day, and it is quite possible to influence this process, stimulating neurons and strengthening memory.

Expected: in 2030

Possible problems: Most likely, it will not be possible to completely shift learning to sleep time, and at night we will only be able to consolidate previously learned material.

6.

"Green" ways of generating electricity are already saving the planet, but this does not reflect in any way on your electricity bills. But never mind, soon everything will fall into place: environmentally friendly current will flow into your sockets, and “green” (and this time we’re talking about dollars) will flow into your pockets.

Draw a meter by meter square on the wall next to the window of your apartment. One fine (and not too distant) day, as soon as the sun floods it with its light, you will receive a flow of electricity capable of lighting 7 100-watt light bulbs.

Scientists are now close to creating a paint that replaces solar panels, which could supply your home with energy, and possibly money (if you decide to sell excess electricity to your neighbors). This paint contains so-called quantum dots - microscopic conductors or semiconductors. When it goes on sale, you will be able to read with a smile the news that “tariffs for the population will grow at a faster pace in 2017–18.”

Expected: in 2019

Possible problems: So far, the efficiency of the paint is 15–20 times lower than that of conventional solar panels.

7.

Scientists will soon be able to grow new legs, lungs, fingers or scalps with hair directly on the patient's body. You don't have much in common with an amphibian. Alas. Cut off her leg and it will grow back, fully functional and absolutely healthy. Perform the same trick on you, and the result will be tragic.

Scientists believe this is temporary. They are working on a technology for growing spare parts based on the patient's own stem cells directly on his body. If now, after a donor organ transplant, a person has to take drugs that suppress the immune system for the rest of his life, then it will be much easier for the body to get used to an organ or limb obtained from its own cells. Especially if transplant surgery is not required.

In the summer of 2015, biotechnologists from the Massachusetts General Hospital at Harvard University were able to obtain a fully functional rat's paw in a few weeks, and they are much more proud of it than the kidneys, lungs and heart that were previously recreated using a similar algorithm.

The fact is that the paw (read - leg or arm) is more complex, as it consists of muscles, bones, cartilage, ligaments, nerves and blood vessels, but everything went well. And although this paw grew in a test tube, in the future there are plans to transfer this process to the patient's body.

“Even today we see almost unlimited potential for creating any parts human body, says Dr David Pan, research program director at the UK Regenerative Medicine Platform. - The goal is to learn to use the patient’s own stem cells to repair cells or tissues on site, which could revolutionize transplantation, because the very need to do transplants of anything will disappear. This will be a revolution in medicine!”

Expected: in 2025

Possible problems: for the foreseeable future, such treatments will be very expensive. Even small “spare parts” for experimental rodents cost hundreds of thousands of dollars.

8.

Late diagnosis and incorrect treatment- the main killers on our planet. It's time to send them to three letters - DNA. It could be just a dust allergy, or it could be dengue fever, syphilis or the Ebola virus. Fears of illness can become a thing of the past along with unpleasant medical procedures like gastro- or colonoscopy, which will seem as barbaric as bloodletting seems today.

The era of DNA medicine is coming. The UK National Health Service (NHS) has allocated £300,000,000 for the massive 100,000 Genomes Project, which will sequence the genomes of 100,000 people with cancer or one of the rare diseases. hereditary diseases. Similar projects, but on a smaller scale, exist in other countries. Their goal is not only to learn as much as possible early stages notice the signs future illness, but also select the most appropriate one based on the patient’s DNA effective remedy fight her.

Dr. Jeff Barrett, practicing genetic research at the Sanger Institute, believes that our DNA will replace the usual medical records, which will allow doctors to get all the necessary information about what is happening inside you, without having to invade your body from the front or back door.

Expected: in 2022

Possible problems: DNA databases will become a new target for criminals, because they will allow them to blackmail people and even kill them without weapons, selecting individual poisons that may consist of completely harmless substances.

9.

The flu mutates year after year, so we never have a vaccine that would guarantee full protection. While scientists are developing a new one, the disease itself is changing. This was the case, but soon everything will change: a medicine is already in development that affects the proteins in the core of the virus, through which the disease spreads throughout your body. If everything works out, the new medicine will nip the flu in the bud, and you won’t even notice how you got infected and recovered.

Expected: in 2023

Possible problems: you'll have to find a new excuse for missing work.

10.

As you know, all restrictions and boundaries are in your head. Turn it off, and your results in sports will increase; it’s not for nothing that violent crazy people sometimes show strength and invulnerability that Superman himself would envy. However, even sensible people are capable of unexpected feats at certain moments. For example, when their life is in danger.

If Rocky had used a real angry tiger while training instead of the song Eye of the Tiger, he would have run up not only the stairs, but the wall of the building. And that's a fact. The body always reserves a certain amount of energy for emergencies.

Scientists are now looking for ways to easily access this NT. If they succeed, perhaps we, at will, will be able to not only instantly open a second wind, but we will even learn to slow down time for ourselves, as happens in the case of great danger, when in seconds you manage to remember the smallest details.

Expected: in 2019

Possible problems: Some techniques are being tested, but their safety for your health is still in question.

• Anton Ivanov

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