Medical portals about modern technologies. New technologies in medicine

Science is always amazing with its new discoveries, turning things that could only be dreamed of into real working inventions, which we, in turn, often take for granted in a world of frantic pace. A feature that is evolving at such a rate that some of the things we're used to seeing in sci-fi movies will soon find their way into the healthcare system. All of these innovations have the potential to change the face of the healthcare industry and the lives of millions of people.

From human head transplants and cancer traps to new ways to treat depression, all these medical changes will become a reality in 2017. If any of the innovations seem crazy, remember that once video communication, smartphones and space travel were only on the pages of science fiction books.

15. Fast healthcare with compatible resources


Many health insurance departments and companies around the world have been under tremendous pressure for many years. Some of them are already close to closing due to the needlessly complicated system. As a result, patients experience excruciating delays when it comes to paying medical bills or making routine doctor appointments.

Thanks to the BHSD, the health care system will function much easier. The BZSR will act as an interpreter between the two health care systems. This will help simplify the clinical data return process. Why is this so revolutionary? Because more life-saving data can be shared across departments, which means more lives will be saved. You might be interested in the article 10 myths about homeopathy.

14. Wireless health monitoring


Smartwatches can track fitness levels and help you stay fit. But what about technology that you can carry everywhere with you, which, moreover, can save a life? In 2013, a team of Swiss biologists developed an implantable device that can monitor substances in the blood and send this data to a phone. The researchers hope the device will be ready for sale by 2017.

The device is 14mm long and its surface is partially coated with an enzyme that can detect chemicals such as glucose and lactate. In essence, this thing can monitor in real time and may be able to warn the patient about heart attack in a few hours. Despite the fact that the device is under development, the potential of this mini-lab is amazing.

13. Improved car safety and driverless models


If the idea of ​​driverless cars is intimidating, think of the dreadful statistic that includes driverless cars. More than 38,000 cars are involved in accidents every year, resulting in deaths or leaving people disabled.

Fortunately, car safety is getting smarter every day. Whether there will be driverless cars or not, one thing is certain - a four-wheeled friend will take care of your safety. Automatic features such as collision warning sensors, softer cruise control and anti-sleep devices will find their way into cars coming out in 2017. Slowly but surely, safety technology is aiming to get rid of the human factor while driving.

12. Teeth regeneration


By 2017, decaying and falling teeth can be regenerated. A group of Japanese cytologists from the University of Tokyo has demonstrated mouse tooth regeneration, and now they believe that with further research, this technology will be available to humans.

Using a combination of stem cells and certain tooth germs from mouse embryos, the team was able to successfully grow a new tooth in a mouse jaw in 36 days, with roots, pulps and an outer layer of enamel - just like a real one! Once the procedure is available, it will cost a considerable amount.

11. Microbiome


The GI tract is home to trillions of bacteria that create a community called the microbiome. What's both scary and great about it is that these microbes can release chemicals into the body that interfere with food digestion, drug reactions, or help spread diseases.

10. Diabetes drugs to reduce heart disease


For decades, diabetes has been a major problem. People with diabetes are twice as likely to have heart disease or a stroke than those who don't. However, thanks to medications, patients have a better chance of living a long, healthy life with diabetes.

9. Liquid biopsy that looks for cancer


Usually, in order to find cancer cells in the body, a biopsy is used, which involves collecting a large amount of the patient's tissue. Fortunately, a less painful and more expensive form of biopsy is on the way. A liquid biopsy is a blood test that will show signs of cancerous DNA.

This incredible leap means that cancer could soon be detected through cerebrospinal fluid, body fluids, and even urine. New tests will be carried out next year. With advances like these, it's not that hard to imagine a world without cancer.

8. Chimeric T-lymphocyte antigen receptor therapy for leukemia


Chimeric antigen receptor is a form of cellular immunotherapy. It means an incredible breakthrough for leukemia patients. The therapy involves the removal of T-lymphocytes and their genetic modification in order to find and destroy cancer cells.

Once cancer cells are destroyed, T-lymphocytes remain in the body to prevent recurrence. This unique treatment could put an end to chemotherapy in the future and may even be able to treat advanced leukemia.

7. Bioabsorbable stents


600,000 patients receive metal stents to treat blockages coronary artery. Once an artery has been expanded, stents remain permanently in the body. IN rare cases they can cause blood clots, ironically destroying the whole point of the stent itself.

Fortunately, the new self-dissolving stent will allow patients to rely less on blockage medications. This new stent is made from a naturally soluble polymer. It dilates the arteries like conventional stents, but remains in the body for two years, after which it is absorbed by internal processes.

6. Treatment of depression with ketamine


Even in 2016, we don't know much about depression and the various effects it has on people, which makes it even more serious illness. A third of patients do not respond to traditional medicines due to lack of research and development, which costs lives.

However, there is a ray of hope in the form of ketamine. Formerly known as party» A drug, ketamine contains properties that target the inhibition of NMDA receptors in nerve cells. These receptors are extremely responsive to symptoms of depression. Studies have already shown that 70% of patients with drug-resistant depression noticed improvements in their symptoms after 24 hours.

Such successful effects of ketamine on patients have already spurred the development of other drugs that target NMDA to increase the availability of more effective treatment depression in 2017.

5. HPV self-testing


HPV is responsible for 99% of cervical cancers. And the concern here is that many women around the world may be at risk of dying from cervical cancer even without being able to be diagnosed.

Currently, HPV prevention and treatment is limited to women with access to HPV testing and vaccines, leaving women completely in the dark when it comes to identifying the dangerous virus. Fortunately, scientists are planning to increase the level of peace of mind for women in 2017. HPV self-testing will allow patients to send samples to the lab.

4. 3D aids in surgery


Surgery is incredibly difficult at the best of times, but for eye and neurosurgeons it is even more difficult because they are calculated to the minute. In these cases, attention to detail is a matter of life and death. Many surgeons have to spend hours doing jewelery work with their heads tilted, looking through a microscope, which keeps the back and neck in constant tension.

This approach to work is not productive for both the surgeon and the patient. That's why new 3D cameras have been developed. They help surgeons and their colleagues during complex operations. These 3D cameras create holographic anatomical aids that allow surgeons to work more comfortably. Rishi Singh, a surgeon at the Cleveland Eye Microsurgery Institute, has been working with the new technology for 6 months. He notes that this expands the field of view and provides greater comfort. Knowing that the surgeon is in comfort, the patient himself will feel more confident.

3. HIV vaccine


Between 1983 (when HIV was first described) and 2010, the HIV/AIDS virus claimed the lives of over 35 million people worldwide. Many people live with this virus. A working HIV vaccine is seen as the holy grail. The ongoing vaccine trials that emerged in 2012 are fortunately leading ever closer to that most holy grail.

The 2012 vaccine, known as SAV001, has been successfully tested in experimental animals and has now entered the human testing phase in Canada. The vaccine has been administered to women and men aged 18 to 50 with positive results. The patients did not experience any side effects or reactions to injections and have even shown an increase in immunity. The vaccine had positive results in phases 2 and 3. It is hoped that it will be commercially available in 2017.

2. Treatment of prostate cancer with FUVI


Prostate cancer is the second leading cause of cancer-related death in men in men over the age of 50. What makes prostate cancer deadly is that it spreads very quickly to other parts of the body, including bones and lymph nodes.

Fortunately, prostate cancer survival rates are increasing, thanks to new effective forms of treatment. HIVI was used in a 2012 study in which cancer cells were killed and 95% of participants were cured after 12 months. FUVI targets cancer cells the size of a grain of rice and heats them up to 80-90 degrees. This effectively kills cancer cells in one place without damaging nearby healthy tissue.

Since then, more tests have been conducted with similar successful results. The treatment is slated to be offered worldwide in 2017, potentially saving the lives of thousands of men each year.


You have heard about hair and face transplantation. Now an ambitious Italian surgeon wants to try the first human head transplant. Sergio Canavero even has a volunteer for the incredibly risky and complex procedure, 31-year-old Russian man Valery Spiridonov, who suffers from muscular dystrophy and has been confined to a wheelchair all his life.

The record-breaking operation will take place in December 2017. The procedure will involve 150 medical staff and will take about 36 hours, during which the donor's head and body will be frozen to -15 degrees to prevent cell death.

Due to the poor state of life and limited life expectancy, Spiridonov considers the risk justified. Let's hope Dr. Canavero can get it right... (and put everything back together properly).

Information Technology (IT) in modern world applied everywhere. Healthcare is no exception. Modern IT developments have a positive impact on the development of new ways of organizing medical care population. A large number of countries have long been actively using new technologies in the field of healthcare. Carrying out teleconsultations of patients and staff, the exchange of information about patients between different institutions, remote recording of physiological parameters, real-time monitoring of operations — all these opportunities are provided by the introduction of information technology in medicine. This brings healthcare informatization to a new level of development, having a positive impact on all aspects of its activities. Robomed Systems develops its own software product and contributes to the development of medical technologies.

The introduction of IT in the healthcare sector can improve the quality of service, significantly speed up the work of staff and reduce service costs for patients. These benefits are now available to every clinic. Modern RoboMed software gives this opportunity to each of its users. This is a domestic system that allows you to bring the institution to a new level of service and work.


Information technologies in medicine and health care help to solve the following tasks:

  • keep records of clinic patients;
  • monitor their condition remotely;
  • save and transfer results diagnostic examinations;
  • control the correctness of the prescribed treatment;
  • conduct distance learning;
  • provide advice to inexperienced employees.

Information technology in medicine makes it possible to conduct high-quality monitoring of the condition of patients. Maintaining electronic medical records reduces the time spent by clinic staff on the preparation of various forms. All information about the patient is presented in one document available to the medical staff of the institution. All data on examinations and results of procedures are also entered directly into the electronic medical record. This makes it possible for other specialists to assess the quality of the prescribed treatment, to detect diagnostic inaccuracies.

The use of IT in medicine allows doctors to conduct online consultations at any convenient time. This increases the availability of medical services. People can get qualified help from experienced doctors remotely. This is especially true for people:

  • living in geographically remote areas;
  • with disabilities;
  • caught in an emergency;
  • which are in a confined space.

Thus, patients or doctors do not need to travel long distances to receive a consultation. The doctor can, with the help of modern information technologies evaluate the patient's condition, conduct an examination and get acquainted with all the results of his examinations.

Such consultations are necessary not only for patients with physiological problems. Conversations also allow people who need psychiatric or psychological help. Audiovisual communication allows the doctor to establish contact with the patient and provide him with the necessary support.

Prospects for healthcare informatization

Today, medical information systems are actively developing, allowing institutions to work more efficiently and faster. Informatization of health care in Russia today is experiencing increased attention from the side of the authorities. Financial investments in the development of new medical IT have a positive effect on their development and improvement.


A striking example is the unified medical system RoboMed. Developers are constantly working to improve this software for clinics. Regular updates give users the opportunity to use all available information technologies in medicine.


In addition, in Russia today there is an increase in the need to introduce innovations into the healthcare system. Ensuring maximum data protection of such systems remains an urgent issue. Therefore, now the forces of developers are aimed at eliminating the possibility of intrusions from the outside.

Informatization of health care is a fairly broad concept, which also includes activities aimed at informing specialists with the help of IT about scientific achievements in the world in the field of medicine. Thus it is effective method training and advanced training of the personnel of hospitals and clinics.

With the help of such technologies, physicians can quickly receive information about new developments and discoveries that will help them work more efficiently. This problem is especially relevant for health workers who work in remote settlements.

The introduction of innovative technologies in medicine is quick and easy. The interface of such systems is accessible and intuitive even for untrained users. Clinic staff are able to quickly master the operation of these new technologies. The developers will help you understand all the nuances of the product operation. After completing the training, which takes a minimum of time, the medical staff will be able to:

  • work with information resources;
  • hold teleconferences;
  • work in local and global computer networks;
  • use help systems.

Today, as part of the informatization of healthcare in Russia, it is planned to create a national telemedicine system. At right approach this technology will not only significantly improve the quality of medicine, but will also help reduce costs. For example, doctors will not need to allocate money for travel to scientific conferences. They will be able to participate in such events remotely.

The possibilities of modern IT in healthcare allow to have a positive impact on all aspects of medical care. The use of information technology in medicine also allows:



  • conduct distance learning;
  • to establish contacts with colleagues for the exchange of experience;
  • receive latest information in the field of healthcare.

In addition, technology can improve the management of a medical institution. Medical systems make it possible to automate the work of:

  • clinic administration;
  • planning and economic department;
  • personnel department;
  • financial service;
  • pharmacies;
  • material services.

Managers are also given the opportunity to interact more effectively with the compulsory health insurance fund, the territorial health management authority. IT in medicine allows you to optimize the work of doctors, the registry, the admissions department and other services.

In addition, the use of innovative systems simplifies the drug supply system of the institution. New technologies help quickly:

  • to register income and expenditure transactions;
  • carry out control of warehouses;
  • generate supply requests medicines;
  • control the consumption of medicines;
  • write off materials, preparations;
  • create and transfer reporting documentation to higher authorities.

Information technologies are actively used in medicine in the field of education. Remote seminars allow students of universities and medical schools to gain the necessary knowledge. Such technologies enable young professionals to attend lectures by eminent doctors, gain new knowledge and experience.

All these opportunities are now available for Russian clinics. RoboMed's unified medical system is the future of your institution. Your employees will work more efficiently, bring more profit and keep up with Western clinics. We will help you implement this technology in your business. In addition, we will train your staff to work with the system in as soon as possible. If any questions arise during the operation of RoboMed, our highly qualified staff will help you quickly answer them and resolve any problem that has arisen. When you purchase this system, you are assigned a personal service manager who comes to the rescue at any time, informs you about new program features and available updates.

New technology from Stanford University makes it possible to make internal organs transparent

A team of researchers at Stanford University has developed a method that allows the organs of mammals, such as laboratory mice or human bodies, bequeathed to science, to be made transparent. Once they are made transparent, scientists can inject chemicals into them that attach to and illuminate certain structures, such as different types of cells. The result is a complete organ that scientists can see inside and out.

Since such imaging is very promising for studying organs, this is not the first time scientists have tried to make the brain transparent. The new technique, called CLARITY, works better with chemical agents and is faster than its predecessors.

To demonstrate its capabilities, its Stanford developers took several pictures of the mouse brain:

Image of the mouse brain obtained using CLARITY technology


Part of a mouse hippocampus with different types of neurons colored in different colors
Or take a look at this video from Nature for more shots, plus some models:

These images take eight days to complete. First, a hydrogel solution is injected into the mouse's brain. The brain and gel are then placed in a special incubator. In it, the gel is attached to various components of the brain, with the exception of lipids. These lipids are transparent and surround every cell. When scientists extract this unattached fat, they have a clear image of the rest of the brain.

After that, researchers can add different molecules to it to color the parts of the brain they want to study and study them under a light microscope.

New glowing antibiotics help detect bacterial infections

Despite advances in technology and all the efforts of physicians, bacteria often manage to enter living tissue on medical implants such as bone screws, where they cause severe, even life-threatening, infections. A new study published in Nature Communications suggests using luminescent antibiotics to catch these kinds of infections before they become too dangerous.

As lead author of the study, Marleen van Oosten explained that it is very difficult to distinguish between normal postoperative swelling and infection - the only way is a biopsy, which is an invasive procedure in itself. A microbiologist at the University of Groningen in the Netherlands stressed that such an infection can be a huge problem, as the latter spreads and develops for many years before finally being detected. To better localize the bacteria in the body, van Oosten and her colleagues stained the antibiotic vancomycin with a fluorescent dye to help identify affected tissues. If there are no bacteria, then nothing happens, but if it is a bacterial infection, then the drug specifically binds to bacterial cell membrane peptides, and, due to the addition of a fluorescent dye, causes the membranes to glow. Thus, in fact, vancomycin becomes a marker of infection.

The researchers infected mice with Staphylococcus aureus bacteria and then gave them a very small dose of an antibiotic—enough to make the bacteria visibly glow when viewed under a microscope, but not enough to kill the bacteria. And then the scientists implanted metal plates coated with a fluorescent antibiotic into the tibia from a human corpse, 8 millimeters below the skin. Some of the plates were coated with Staphylococcus epidermidis, a bacterium that lives on human skin. At the same time, the luminous plates with infection were easily identified by a camera that detects fluorescence.

Bioengineer Niren Murthy of the University of California, Berkeley, who is a proponent of this method, believes that such a method of detecting bacterial infections extremely necessary. But it also points to a possible problem - would the fluorescence be strong enough to be observed in a nascent human infection site?

Van Oosten, as an optimist, believes that in the near future this technology will be easily accessible to a wide range of people.

New hope for the bald
New method gives hope, but it is far from a panacea.
Gotham Naik

AFP 2013 Patrik Stollarz
Scientists have invented a way to grow new human hair, continuing the long-term search for a cure for baldness. The current methods are unsatisfactory because they do not stimulate the growth of new hair. Hair Loss Treatments Can Slow Down Hair Loss hair follicle or stimulate the growth of existing hair, but new hair follicles thanks to them will not appear. They will not occur as a result of hair transplantation, when the bulbs are transplanted from one part of the head to another. On Monday, the journal Proceedings of the National Academy of Sciences published the results of one study whose authors showed that it is possible to grow new hair on human skin. "We're trying to replicate what happens in the foetus" when new hair spontaneously starts growing, said study lead author Prof Colin Jahoda, a stem cell researcher at Durham University in England. This discovery is far from creating a coveted drug that helps stop hair loss and the process of baldness. But scientists have given new hope to those who suffer from bald patches that appear with age, as well as from baldness as a result of illness, injury or burns. The basis of the new study is the cells of the dermal ridge. This is a small group of cells located at the bottom of the follicle and instructing other cells to create a hair. Scientists have thought for over forty years that human dermal ridge cells could be propagated in a laboratory test tube and then transplanted onto the scalp to create new hair. But they didn't get any results. After these cells were transplanted into skin covering they quickly stopped behaving like dermal ridge cells and became like skin cells. And the hair never grew out of them. In the latest experiment, the researchers found a way to solve this problem by studying rodents. If a rodent's hair follicle is transplanted onto its skin, it immediately begins to form hair. An important point, according to Professor Jahoda, was that in a laboratory test tube, rodent cells spontaneously coalesce and form three-dimensional clusters. And human cells stick to the bottom in a thin two-dimensional layer. Professor Jahoda and his colleagues at Columbia University in New York decided that they needed to turn a flat layer of human cells into three-dimensional clusters. The scientists obtained dermal ridge cells from seven human donors and expanded them in the laboratory. “And then we did a very simple thing,” says Professor Jahoda. “We dropped some of this culture medium and then turned it upside down, which caused the cells to ball up.” Each such sphere contained a cluster of approximately 3,000 cells. These spheres were transplanted into foreskin tissue obtained from newborns, which had previously been transplanted onto the backs of mice. For safety reasons, this method had to be tested on animals first. (Because the tissue of the foreskin is usually hairless, it is the best test for this method of growing hair.) Due to the bulk of the culture medium, the cells have partially regained their hair-growing properties. Six weeks later, five of the seven transplants had new hair follicles genetically similar to those of the donors. But scientists need to go much deeper this process before moving on to human experiments. They don't yet know exactly how dermal ridge cells will interact with skin cells. They also need to understand the control mechanisms that determine the various properties of hair, such as color, angle of growth, location, and texture. However, research results have new approach to stimulate hair growth. Scientists can now isolate the main genes that regulate the growth process and try to influence them. Or, after analyzing the action of the cellular spheres, they can find drugs that also affect the functioning of the hair follicles.

Scientists have invented a laser glucometer

To maintain good health, people with diabetes You need to constantly monitor your blood sugar levels. This can now be done with portable blood glucose meters. However, the use of these partings is associated with a number of unpleasant moments: you need to pierce your finger to take a blood sample, in addition, you have to constantly buy test strips.

A group of German researchers have developed a new, non-invasive way to measure blood sugar levels. The surface of the skin is exposed to infrared laser radiation, and with its help the sugar level is measured. According to scientists, this opens up fantastic opportunities for diabetics - now you do not need to pierce your finger and use test strips.

Measuring blood sugar levels with a standard glucometerin a few years may be gone. German scientists develop non-invasive device for quick and painless measurement

The new non-invasive glucometer uses photoacoustic spectroscopy to measure glucose by its absorption of infrared light. When a laser beam hits the skin, glucose molecules create a special, measurable sound that the research team calls the "glucose sweet melody." This signal allows you to detect blood sugar in seconds.

Previous attempts to use photoacoustic spectroscopy have been hampered by distortions in air pressure, temperature and humidity changes caused by contact with living skin. To get rid of these shortcomings, the development team had to apply new methods of designing the device.

The device is still experimental and must be tested and approved by regulatory authorities before it goes on sale. Meanwhile, researchers continue to improve the device. It is expected that in three years the glucometer will be about the size of a small shoe box, and even later portable versions of the meter will appear.

Scientists have made muscles for humans and biorobots

Scientists at the University of Tokyo have created fully functional 3D skeletal muscles that can be used in medicine and robotics.
Most muscle-growing experiments have been limited to experiments with two-dimensional tissues, which are incapable of functioning without a flat support. Japanese scientists for the first time made a three-dimensional hotel muscle, moreover, capable of contracting. In addition, the Japanese were not only able to grow a muscle, but also “seed” it with neural stem cells, which allow you to control muscle contraction through chemical activation of neurons. The artificially grown muscle has great strength and the same contraction mechanism as the natural one. Through the use of living nerves, such an artificial muscle can be transplanted and “connected” to nervous system person.
Moreover, the new artificial muscle, according to the developers, can be used in robotics. Modern industrial robots can do incredible things, but their control systems are still very complex. Robots rely on electrical servos, and feedback systems require very precise optical sensors. Robots with artificial living muscles could simplify the design of robots, increase the accuracy of their movement with a sufficiently large force.

Nerve cells sprouting into artificially grown muscle

The researchers tried to build a device based on real nerves and muscles and able to work in bionic systems. For its manufacture, scientists used a polymer (PDMS) deposited on glass. The polymer served as a framework necessary for proper muscle development. The polymer was then coated with muscle stem cells and mouse stem cells (mNSCs) capable of developing into neurons and sprouting axons into muscle. In the process of muscle development (myogenesis), young cells merge into long multinucleated fibers, the so-called muscle tubules. The result is a bundle of long muscle fibers that can contract in one direction. Communication between muscle fibers and neurons is provided by acetylcholine receptors. The new technology for growing fully functional muscles can be applied in medicine and in production. Of course, living tissue is not as strong and reliable as steel, but in some applications "living manipulators" or living tissue/synthetic hybrid designs can be very useful.

http://gearmix.ru/archives/1453
http://gearmix.ru/archives/6077
http://inosmi.ru/world/20131023/214137908.html
http://rnd.cnews.ru/tech/news/line/index_science.shtml?2013/10/28/547542
http://rnd.cnews.ru/tech/robotics/news/line/index_science.shtml?2013/09/26/544315

Modern technologies are moving medicine towards new discoveries and high-quality services to the population. What innovations are used in the industry and what are their advantages, read in the article.

Modern technologies in medicine are not only the latest medical equipment, but also industry-specific software that automates all work processes. The latest technology allow you to perform the most complex operations, examinations, speed up the processing of laboratory tests, consult and examine patients at a distance, and much more. With the help of special programs for medical centers, work is built with clients, their health status is recorded, and interaction is ensured. structural divisions, the warehouse of medicines is controlled, settlements are made with patients and staff, etc.

Application of modern technologies in treatment

Modern diagnostic equipment

One example of the use of computer technology is a CT scanner. The results obtained during irradiation of the patient are processed by special programs, and three-dimensional images of the studied organs and tissues are created. According to them, the doctor makes accurate diagnoses, evaluates the development of the disease and recovery after surgery. Another example is radiovisiographs in dentistry. They allow you to display images of teeth on a computer, and not on film. The accuracy of the image is much higher, you can study the problem in detail from different angles by enlarging the picture, make accurate measurements of root canals, etc. At the same time, the radiation load on the patient is significantly reduced.

With the development of technology, it has become possible to perform laparoscopic operations instead of open ones. Using special equipment with cameras, the doctor performs manipulations through the smallest incisions on the body. Such operations are much easier to tolerate, after them the recovery process is faster, they have fewer side effects, the stitches are almost invisible.

The processing of laboratory analyzes on modern equipment has become faster and more accurate, and this affects the speed of diagnosis, the effectiveness of treatment, and the processing of large volumes of biomaterials.

Telemedicine

With the help of computer technology, it has become possible to provide assistance to patients at a distance, and this makes medical services more accessible. Such online consultations are necessary for residents of remote areas, in emergency situations, for patients with handicapped or in an enclosed space. The doctor can conduct a virtual examination, get acquainted with the results of examinations and tests, prescribe treatment and conduct regular monitoring of the state of health.

In addition, telemedicine includes online conferences, meetings, training, rapid exchange of scientific discoveries, holding emergency committees for patients, etc.

Medical programs

Profile programs for medical institutions automate the work of clinics - from the registry to settlements with insurance companies. For example, industry solutions for medicine based on 1C from the First BIT company are developed for multidisciplinary centers and specialized offices. In particular, there are computer programs for dentistry, ophthalmology, and even programs for veterinary clinics.

Benefits of automating medical activities:

  • electronic document management (electronic patient records, data exchange between departments);
  • the paper work of doctors is reduced to a minimum;
  • standardization of work of medical staff;
  • improving the efficiency and quality of services;
  • simplifies the control of the warehouse of drugs and materials;
  • transparency of financial activities;
  • prompt receipt of reports;
  • convenient settlements with patients and employees;
  • increasing customer loyalty.

Medical programs include all kinds of mobile applications for clients. With the help of them, you can independently make an appointment, find out information about the medical institution, doctors and ongoing promotions, leave reviews, keep a schedule for taking medications. These functions are available in the BIT.Med mobile application. With the help of the software, you can e-book reviews and suggestions, where patients can evaluate the quality of services, leave comments, fill out questionnaires, etc. Such a function is implemented in the BIT.Quality application.

Software solutions take into account all the nuances of medical specialization and the work of the institution, therefore they are finalized individually or created on a turnkey basis. This means that special software can be implemented in any branch of medicine and in institutions of various sizes.

In general, modern technologies, like scientific discoveries, stimulate the development of medicine and improve the level of public services.

Medicine is now perhaps the most dynamically developing branch of science. This is due to its enormous social significance.

Why are there so many innovations in medicine?

This is primarily due to the fact that the quality of life of absolutely every person depends on its development. A huge amount of money is invested in this industry every year. As a result, innovations in medicine appear almost on a weekly basis.

The high rate of new discoveries in this area is also associated with a large number of enthusiasts who work not only for money, but also to make people's lives easier, better and longer. Among other things, medicine does not have any one priority area, and the science itself is very, very extensive. Therefore, no matter how numerous innovations in medicine are, scientists will still have just a huge field for activity.

Innovations in medicine: examples of discoveries

Over time, the number of serious achievements in this area is growing inexorably. Currently, scientists are already beginning to approach the solution of the issue of donor organs. It has long been announced that this problem will be eliminated on its own after the equipment for laboratory conditions is created. And now it already exists. Moreover, the first data on the practical use of such equipment are already available. Not so long ago, relevant studies have already been carried out in China. Their result was the creation of a mouse liver rudiment. Subsequently, an operation was performed to implant his animal. A few days later, all the vessels fused properly, and the liver itself began to function adequately.

Vision is considered one of the five basic senses and the supplier of approximately 90% of all information for. As a result, the eyes and their functioning will always play a huge role. It is not surprising that many achievements of science in medicine are aimed at maintaining normal or correcting decreased vision.

One that has seen the light of day is the so-called individual telescopic lens. The very principle of their action was developed a long time ago, but they have never been used specifically to improve people's vision. The high cost of the material from which the product is made hinders the mass introduction of such an innovation in medicine. Currently, it is planned to replace it with a cheaper one in order to make the development available to the average buyer.

The fight against malignant neoplasms

To date, it is customary to cope with this most dangerous pathology with the help of surgical treatment, chemotherapy, or with the use of radiation that is detrimental to tumors. All these techniques bring not only getting rid of the disease (and not always 100%), but also serious problems for the body as a whole. The fact is that all these methods of treatment have a detrimental effect not only on the sick, but also on healthy tissues. So today, many innovations in medicine are aimed at finding an effective, fast and harmless way to overcome tumor processes.

One of the latest developments is the creation of experimental equipment, the main operating part of which is a kind of needle. It is brought to the tumor and emits special micropulses that cause pathologically altered cells to start the process of self-destruction.

On the role of science in the medical field

It should be noted that modern medicine has made tremendous strides forward over the past few decades. Without the countless achievements of scientists, this would simply be impossible. The role of science in medicine is currently difficult to overestimate. Thanks to modern technological advances, there are now such diagnostic techniques as endoscopy, ultrasound procedure, computed and magnetic resonance imaging.

Without the development of biochemistry, serious innovations in medicine in the field of pharmacology would be impossible. As a result, doctors would still have to use experimental approaches to treat various diseases.

What has been achieved?

The achievements of science in medicine are truly enormous. First of all, doctors were able to successfully treat those diseases that previously did not leave patients a chance for a normal life. In addition, many ailments have now become possible to diagnose at the earliest stages of their development. Also, innovations in medicine have helped to significantly increase many patients. Over the last century this indicator increased by about 20 years. At the same time, it is constantly growing at the present time.

Complete diagnostics in a few minutes

For a long time, scientists had the idea to create equipment that would quickly determine the presence and nature of microorganisms that affected the human body. Currently, such a study often takes not even days, but weeks. Recent innovations in medicine provide hope that this state of affairs will not last long. The fact is that Swiss scientists have already been able to invent and create a prototype of an apparatus capable of identifying a microorganism in a particular environment in a few minutes and determining its belonging to a particular species. In the future, this will make it possible to almost accurately prescribe a rational treatment for any. This will not only reduce the duration and severity of many serious illnesses, but will also help to avoid numerous complications.

prospects

New in medicine appears almost every week. Now scientists have come close to serious discoveries that will allow people with disabilities to regain a sufficient level of social activity. And we are not talking about some. Today, there are already methods that can restore the integrity of a previously destroyed nerve. This will help patients with paralysis and paresis to restore their motor abilities. Now such methods of treatment are still very expensive, but in 5-10 years they will become available to people with quite ordinary incomes.