After 15 years of research, a team of scientists from the University of Chicago He developed a revolutionary technology called “living bioelectronics”.
This innovation combines living cells, gels and electronics to create devices that can monitor and treat skin conditionsbelow we will explore the details of this invention, its operation, the tests carried out and the potential future applications.
The concept of living bioelectronics arose from desire to overcome the limits of traditional electronic deviceswhich tend to be rigid, metallic and bulky, and can also cause irritation when they come into contact with the human body.
The laboratory of Professor Bozhi Tian has explored for years how to merge the world of electronics with the soft, flexible and delicate nature of the human body, and the result obtained through this research has been the creation of a prototype of living bioelectronics, a combination of living cells, gels and electronics which can integrate with living tissues.
The functioning of living bioelectronics
Products made using living bioelectronics consist of sensors, bacterial cells and a gel made of starch and gelatin, and these they work together to monitor and improve skin conditions.
To give a “practical” example, tests on mice have shown that these devices can Continuously monitor and improve psoriasis-like symptoms without irritating the skin, and this is possible thanks to the healing properties of some bacteria, such as Staphylococcus epidermidisa microbe that lives naturally on human skin and has been shown to reduce inflammation.
Living bioelectronics were tested on mice and the results were promising, with the devices reducing inflammation and have shown potential for broader medical applications.
The research team is currently working to commercialize this technologywith the goal of making it available for human use, obviously the hope is that the principles behind living bioelectronics can also be applied to other parts of the bodysuch as cardiac or neural stimulation.
Potential future applications
The future applications of living bioelectronics are numerous, in addition to the treatment of skin conditions, these devices could be used to monitor and treat other medical conditions.
Their possible use could be in the field of cardiology, for example for create smaller, more flexible pacemakers that can be controlled with light, or strong but flexible materials that could form the basis of bone implants.
In addition to what was previously mentioned, the ability to integrate living cells into electronic devices opens up new possibilities for regenerative medicine and biotechnology.
The invention of living bioelectronics represents a significant breakthrough in medicine and biotechnologyas already said several times, this technology it has the potential to revolutionize the way we treat skin conditions and other diseasesoffering more effective and less invasive solutions.
With further research and development, the technology derived from living bioelectronics studies could become a key part of future medicine, improving the quality of life for millions of people around the world.
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