Karin received this revolutionary technology that works with AI and seems worthy of a science fiction film. What she managed to do with it amazed the researchers…

Years of work and a more than promising result. A bionic hand worthy of a science fiction film has been developed by researchers from Sweden, Italy and Australia. A unique technology of its kind, packed with sensors and boosted with artificial intelligence. This is capable of creating a ā€œman-machine interfaceā€ which makes it possible to ā€œtranslate brain signals into precise but simple movementsā€, according to the journal Science Robotics.

The woman who tested the first prototype, Karin (her full name is withheld), sufferedĀ a farming accidentĀ 20 years ago. Right hand affected and years of struggle. When she received this revolutionaryĀ device about three years ago, the designers claimed their technology was the most advanced. NoĀ other product on the market at the time contained sensors integrated into the arm (to date most models have electrodes locatedĀ on the outside, just under the artificial ā€œskinā€).

This object, arguably even stronger than the Avengers’ Infinity Gauntlet, is called “Mia Hand”. It was developedĀ by the Italian company Prensilia, which specializes in robotic devicesĀ and is funded by the European Commission. Based on new technology, this innovation opens new hope for people who are victims of accidents or armed conflicts. Some data from the project could even be usedĀ in Ukraine, with war wounded.

The results for Karin are in any case enormous. The 50-year-old Swede now successfully carries out 80% of her usual daily activities, such as preparing food, picking up objects, zipping and unzipping clothes or bags, or turning doorknobs or screws. She can moveĀ her five fingersĀ individually, with a 95% success rate the review says. Touch is also improved, even if it remains limited today.

This is the first time that such an advanced robotic hand, connected directly to bones, muscles and nerves, has demonstrated its long-term effectiveness in this type of case. ā€œA promising testament to the potential of this new technology,ā€ said one of the robotics engineers in charge of the project.

This solution, based on ā€œosseointegrationā€, partly solves the problems of other prostheses, which limit incoming and outgoing signals during contact with an object. This time, ā€œthe integration is so strong that we can attach the artificial limb directly to the skeleton,ā€ explains the researcher.

A complex process was still necessary, but the comfort and reliability were increased tenfold. Karin’s accuracy with her hand has almost quadrupled. And another more than technical progress has been noted: Karin, who suffered from ā€œexcruciating phantom painsā€ for years, believes that they have ā€œreduced considerablyā€.