8.2 C
New York
Friday, December 3, 2021
HomeTechnologyArtificial intelligence heals wounds

Artificial intelligence heals wounds

The COVID epidemic, which has shaken the world, has had the greatest impact on health, in addition to forms of work. Various analyzes predicted a spectacular development of eHealth even before the pandemic, as the health care system began to crackle almost everywhere due to the growing number of people in need of medical treatment and the growing shortage of professionals worldwide, and digitalisation was the only real solution.

However, COVID overwrote all forecasts and brought explosive developments in the area that no one had previously expected. In a few months, the number of telemedicine consultations has jumped from 30-40 million originally planned to close to 200 million, and the expansion has continued ever since.

– promises to be durable and irreversible. Telemedicine will remain with us even after the epidemic subsides, and solutions that do not require a direct doctor-patient relationship and involve distant expertise in the healing process will become increasingly important in the future.

In all these developments, it is important a task awaits the smartphone and artificial intelligence – two key technologies of today, which the Rfri Alfréd Mathematical Research Institute has also played a key role in the new medical application of MedInnoScan Ltd.

The Hungarian MI

The last ten years have been a success story for artificial intelligence (AI): from transportation through process control and economic analysis to mobile phones, there is no area of ​​our lives where you would not have set foot. The National Office for Research, Development and Innovation (NKDIH), a government body responsible for publicly funded support for research and development and innovation in Hungary (NKDIH), responded to this trend by launching a national excellence program called “Mathematical Foundations of Artificial Intelligence” three years ago.

In September 2018, a consortium of three universities and two research institutes was set up in the framework of the program initiated by the Alfred Rényi Institute of Mathematics, which sought out scientists working in basic research. to be involved in MI research. Within the consortium, SZTAKI is tasked with basic research on application needs and demonstration of the results, the University of Szeged has examined the interpretability and vulnerability of artificial intelligence algorithms, the Faculty of Information Technology and Bionics at Pázmány University. One of the practical results of their research was an MI-based patent that makes it much easier to locate and rescue victims (the idea for the patent was also motivated by the Mermaid shipwreck in 2019, which claimed 27 lives).

Finally – and here the program is related to the telemedicine mentioned in the introduction – the Alfréd Rényi Mathematical Research Institute, which leads the consortium, in cooperation with MedInnoScan Kft. The results of the joint work were presented to the public on the closing day of the National Excellence Program, September 17th. Here we learned about an MI-based development that will make life easier for patients with chronic wounds in the foreseeable future.

Collective wisdom

care for the wounded, we learned about the dr. From Péter Farkas, a member of the board of the Hungarian Wound Management Society, he puts a heavy burden on the health care system, which has to solve the continuous treatment of two hundred thousand patients and the bandaging on average every two days. This care work extends well beyond the duration of hospital treatment and includes bandages in the patient’s home, which are an essential part of the healing process that lasts for months or even years.

Alfred Rényi Mathematical Research Institute and MedInnoScan Ltd. has developed an MI application combined with a mobile application, which makes the expertise of doctors available to nurses, and based on the photos taken of the wound, makes a proposal for the type of dressing that adapts to the condition of the wound and best helps its healing. The solution is based on a machine learning algorithm that has been collected to teach more than two hundred thousand photos of 5,500 patients. About 70 institutions, medical universities, hospitals, nursing services and wound care centers took part in this grandiose work, said Péter Szodán, the managing director of MedInnoScan Kft. The huge image database guarantees that artificial intelligence can draw on the wound dressing based on the best of specialist experience.

Useful detour

Launched in 2018 the national program of excellence was literally wounded by the COVID epidemic. However, instead of torpedoing medical development, the pandemic steered it in an exciting new direction. Due to the epidemic, it has become temporarily impossible to take photographs for chronic wound research, but experts have recognized that the technology developed can be quickly adapted for remote dermatological diagnosis.

Teledermatology has a long tradition worldwide. The International Society of Teledermatology, its large international organization, is preparing for its ninth World Conference in December this year, but in Hungary the epidemic has given the breakthrough the breakthrough. At Semmelweis University, MedInnoScan’s smartphone app was launched in 2020, allowing patients to access online dermatological care in an emergency that limits personal contact with a doctor. The solution is that after downloading the application, the patient takes consultationable photos of the problematic skin symptom with his mobile phone, then fills in a questionnaire about the nature of the symptom, its development and possible comorbidities, and finally uploads the data by e-mail within a few days.

The gap-filling solution used by Semmelweis University to treat more than ten thousand patients during the first wave of the COVID epidemic has since been used by other dermatologists and is based on this computer technology. a new MI application integrated with a mobile application that integrates medical expertise into the work of wound dressing nurses using machine learning. Development is currently underway in clinical trials and, if all goes well, it will help nurses in practice by 2022.

Telemedicine and artificial intelligence

These two concepts are increasingly intertwined and together form the two pillars of future health care. Let’s see some areas of application where we can expect serious benefits from them:

Remote monitoring with wearable devices creates a constant connection between the doctor and the patient: the doctor can continuously monitor the patient’s condition, the MI built into the device remotely assists with its work, filters, weights data, and alerts you when it detects trouble.

The volume of health data is growing exponentially: their systematization and processing would be hopeless without MI-based technologies, which are also conducive to effective data analysis.

Early detection can save lives for many diseases: remote diagnosis based on MI makes it simpler and can extend these screenings to a much wider range than at present.

The change has already begun: in the coming years, a new kind of healthcare will be built that will be more flexible, frugal and people-centered than it is today. And this, strange as it may seem, is largely due to the COVID crisis, which has forced change to force change.

Hardware, software, tests, curiosities and colorful news from the IT world by clicking here!

Follow World Weekly News on

Sandra Loyd
Sandra is the Reporter working for World Weekly News. She loves to learn about the latest news from all around the world and share it with our readers.

Leave a Reply

Must Read