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A Danish man named Dennis Sorensen lost his left hand
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A Danish man named Dennis Sorensen lost his left hand
A Danish man named Dennis Sorensen lost his left hand in a fireworks accident when he was in his twenties. Nine years later, in 2013, Dr. Silvestro Micera and his team allowed Sorensen to test a robotic hand. This special technology let him feel the sense of touch! It was the first successful robotic hand of its kind. "The sensory feedback was incredible," Sorensen said. "I could feel things that I hadn't been able to feel in over nine years." To properly test the device, Sorensen wore a blindfold and earplugs. Then he was given different objects to hold with the robotic hand. Sorensen not only recognized that he was holding something, but he was able to describe its shape and texture. How was it possible that an artificial hand could sense objects? It was a matter of complicated science. The device used a sensory feedback system connected to Sorensen's nerves. Micera and his team built sensors inside the device, and these sensors recorded tension levels inside the hand when it touched or held objects. The information about the tension levels was turned into an electric current. Then, with the help of a computer program, the electric current was transformed into an impulse that the nerves could interpret. Finally, these impulse signals were sent through wires surgically attached to Sorensen's upper-arm nerves. Micera explained that sensory feedback has never before been restored and used in real-time to control an artificial body part. Nevertheless, the doctors acknowledged that modern science is years away from a "bionic hand" for everyday use. A device like that would have to be surgically and permanently implanted, which cannot be done today. However, Micera and his team seem headed in the right direction.
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1 A Danish man named Dennis Sorensen lost his left hand in a fireworks accident when he was in his twenties. 2 Nine years later, in 2013, Dr. Silvestro Micera and his team allowed Sorensen to test a robotic hand. 3 This special technology let him feel the sense of touch! 4 It was the first successful robotic hand of its kind. 5 "The sensory feedback was incredible," Sorensen said. 6 "I could feel things that I hadn't been able to feel in over nine years." 7 To properly test the device, Sorensen wore a blindfold and earplugs. 8 Then he was given different objects to hold with the robotic hand. 9 Sorensen not only recognized that he was holding something, but he was able to describe its shape and texture. 10 How was it possible that an artificial hand could sense objects? 11 It was a matter of complicated science. 12 The device used a sensory feedback system connected to Sorensen's nerves. 13 Micera and his team built sensors inside the device, and these sensors recorded tension levels inside the hand when it touched or held objects. 14 The information about the tension levels was turned into an electric current. 15 Then, with the help of a computer program, the electric current was transformed into an impulse that the nerves could interpret. 16 Finally, these impulse signals were sent through wires surgically attached to Sorensen's upper-arm nerves. 17 Micera explained that sensory feedback has never before been restored and used in real-time to control an artificial body part. 18 Nevertheless, the doctors acknowledged that modern science is years away from a "bionic hand" for everyday use. 19 A device like that would have to be surgically and permanently implanted, which cannot be done today. 20 However, Micera and his team seem headed in the right direction.