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DUKAS_185698921_NUR
Veterans march draws thousands in Washington, DC
One of Sen. Tammy Duckworth's (D-IL) artificial bears an image of an assault helicopter, while she speaks to thousands of people at a rally for veterans on the 81st anniversary of D-Day, in Washington, D.C., U.S., on, June 6, 2025. Sen. Duckworth lost both legs while serving as a U.S. Army National Guard Black Hawk helicopter pilot. (Photo by Allison Bailey/NurPhoto) -
DUKAS_185697235_NUR
Veterans march draws thousands in Washington, DC
One of Sen. Tammy Duckworth's (D-IL) artificial bears an image of an assault helicopter, while she speaks to thousands of people at a rally for veterans on the 81st anniversary of D-Day, in Washington, D.C., U.S., on, June 6, 2025. Sen. Duckworth lost both legs while serving as a U.S. Army National Guard Black Hawk helicopter pilot. (Photo by Allison Bailey/NurPhoto) -
DUK10163347_005
PEOPLE - ESC 2025: JJ (Johannes Pietsch) gewinnt für Österreuich den ESC
Mandatory Credit: Photo by Hollandse Hoogte/Shutterstock (15307262k)
JJ (Johannes Pietsch) wins the final of the Eurovision Song Contest for Austria with the song Wasted Love.
Song Contest: Final, Basel - 18 May 2025
(c) Dukas -
DUK10163347_001
PEOPLE - ESC 2025: JJ (Johannes Pietsch) gewinnt für Österreuich den ESC
Mandatory Credit: Photo by Hollandse Hoogte/Shutterstock (15307262q)
JJ (Johannes Pietsch) wins the final of the Eurovision Song Contest for Austria with the song Wasted Love.
Song Contest: Final, Basel - 18 May 2025
(c) Dukas -
DUK10163310_018
PEOPLE - ESC 2025: Erster Halbfinal in Basel
Mandatory Credit: Photo by Hollandse Hoogte/Shutterstock (15298105ah)
BASEL - Claude after the announcement that he is in the final of the Eurovision Song Contest. The singer will represent the Netherlands with the song C'est La Vie.
Song Contest: First Semifinal with Claude, Basel - 13 May 2025
(c) Dukas -
DUKAS_177888858_FER
Prosthetic limb for child amputees grows as they do
Ferrari Press Agency
Prosthetic 1
Ref 16333
21/11/2024
See Ferrari text
Picture MUST credit: Dalian Minzu University
A prosthetic leg for amputee children which grows as they do, has been designed.
The Growth Prosthetics limb has an extendable, adjustable design structure that also incorporates expandable foot sizing.
The team behind it says the ground breaking artificial limb prolongs prosthetic use, providing consistent support to accompany teenagers with disabilities through their growth.
The design is by a team from China’s Dalian Minzu University.
“Skeletal development in adolescent amputees does not stop, resulting in annual height changes.
“Underage patients must replace prosthetics yearly, wasting resources and incurring high costs.”
The prosthetic has won a prestigious worldwide Red Dot design awards in the section for medical device concept category.
OPS: The Growth Prosthetics limb designed for child amputees.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_177886130_FER
Prosthetic limb for child amputees grows as they do
Ferrari Press Agency
Prosthetic 1
Ref 16333
21/11/2024
See Ferrari text
Picture MUST credit: Dalian Minzu University
A prosthetic leg for amputee children which grows as they do, has been designed.
The Growth Prosthetics limb has an extendable, adjustable design structure that also incorporates expandable foot sizing.
The team behind it says the ground breaking artificial limb prolongs prosthetic use, providing consistent support to accompany teenagers with disabilities through their growth.
The design is by a team from China’s Dalian Minzu University.
“Skeletal development in adolescent amputees does not stop, resulting in annual height changes.
“Underage patients must replace prosthetics yearly, wasting resources and incurring high costs.”
The prosthetic has won a prestigious worldwide Red Dot design awards in the section for medical device concept category.
OPS: The Growth Prosthetics limb designed for child amputees.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_177886124_FER
Prosthetic limb for child amputees grows as they do
Ferrari Press Agency
Prosthetic 1
Ref 16333
21/11/2024
See Ferrari text
Picture MUST credit: Dalian Minzu University
A prosthetic leg for amputee children which grows as they do, has been designed.
The Growth Prosthetics limb has an extendable, adjustable design structure that also incorporates expandable foot sizing.
The team behind it says the ground breaking artificial limb prolongs prosthetic use, providing consistent support to accompany teenagers with disabilities through their growth.
The design is by a team from China’s Dalian Minzu University.
“Skeletal development in adolescent amputees does not stop, resulting in annual height changes.
“Underage patients must replace prosthetics yearly, wasting resources and incurring high costs.”
The prosthetic has won a prestigious worldwide Red Dot design awards in the section for medical device concept category.
OPS: The Growth Prosthetics limb designed for child amputees.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174854859_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854858_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854857_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854856_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854855_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854854_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854853_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854852_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854851_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854849_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854846_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854844_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854842_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854841_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854840_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854839_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854838_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174854837_BES
Une équipe de recherche a développé la première prothèse de main au monde à contrôle magnétique
Pictures must credit: Sant'Anna School of Advanced Studies A research team has developed the first prosthetic hand in the world with magnetic control. It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices. The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver. The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm. The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy, was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks. The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.? A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_174797713_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David with his magnet-controlled prosthetic hand.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797694_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: One of the tiny magnet implants
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797676_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David with his magnet-controlled prosthetic hand.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797656_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David with his magnet-controlled prosthetic hand.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797638_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David with his magnet-controlled prosthetic hand.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797621_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David with his magnet-controlled prosthetic hand.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797604_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David with his magnet-controlled prosthetic hand.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797587_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David with his magnet-controlled prosthetic hand using a screwdriver
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797571_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David with his magnet-controlled prosthetic hand.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797555_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David having surgery to implant the magnets in his forearm.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797539_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David lost his left hand in 2022.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797523_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David with his magnet-controlled prosthetic hand.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797508_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Graphic showing where the magnets are implanted in the forearm
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797493_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David with his magnet-controlled prosthetic hand.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797478_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Prof. Christian Cipriani
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797464_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David with his magnet-controlled prosthetic hand.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797450_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David having surgery to implant the magnets in his forearm.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_174797436_FER
Prosthetic hand controlled by implanted magnets
Ferrari Press Agency
Magnets 1
Ref 16150
13/09/2024
See Ferrari text
Pictures must credit: Sant'Anna School of Advanced Studies
A research team has developed the first prosthetic hand in the world with magnetic control.
It is being hailed as the future for prosthetics as it does not require any brain implants for an amputee to use it like other more complicated devices.
The limb is described as a completely new way of controlling the movements offering users the ability to perform everyday actions such as opening a jar or using a screwdriver.
The system, called myokinetic control, involves implanting small magnets a few millimetres in size, into the muscles of an amputee’s forearm.
The implant by a team at Sant'Anna School of Advanced Studies in Pisa, Italy,
was successfully tested on its first patient, a 34-year-old named Daniel, who used the prosthesis for six weeks.
The results of the trial were presented in the scientific journal Science Robotics and represent a significant step forward for the future of prosthetics.?
A team from the school’s BioRobotics Institute, coordinated by Prof. Christian Cipriani, developed the new interface between the residual arm of the amputee and the robotic hand.
OPS: Amputee volunteer David with his magnet-controlled prosthetic hand.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_166380196_FER
Mind controlled prosthetic arm
Ferrari Press Agency
Prosthetic 1
Ref 15601
23/02/2024
See Ferrari text
Pictures must credit: Atom Limbs
A range of mind controlled prosthetic limbs which use artificial intelligence are set to make the world easier to access for disabled people.
California-based Atom Limbs uses advanced sensors and machine learning to interpret electrical signals from a person's brain and use them to move and manipulate a the limb.
The company has come up with an arm that has a full range of human motion in the elbow, wrist, and individual fingers.
It also provides haptic feedback to the wearer so they can get sensation of their grip strength.
The arm is attached attaches to a stump on an amputee or someone born without a fully developed limb, with a strengthened vest that distributes the weight evenly.
It connects to the wearer's residual limb firstly with bands of sensors that measure electrical signals, and then via a cup that fits over the top, with the arm connecting via an interface.
No surgery or implants are required for it to function.
Atom Limbs plans to market the limb at around €16,000 euros.
OPS: The artificial arm connects to the wearer's residual limb firstly with bands of sensors that measure electrical signals, and then via a cup that fits over the top, shown here, with the arm connecting via an interface.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_166380195_FER
Mind controlled prosthetic arm
Ferrari Press Agency
Prosthetic 1
Ref 15601
23/02/2024
See Ferrari text
Pictures must credit: Atom Limbs
A range of mind controlled prosthetic limbs which use artificial intelligence are set to make the world easier to access for disabled people.
California-based Atom Limbs uses advanced sensors and machine learning to interpret electrical signals from a person's brain and use them to move and manipulate a the limb.
The company has come up with an arm that has a full range of human motion in the elbow, wrist, and individual fingers.
It also provides haptic feedback to the wearer so they can get sensation of their grip strength.
The arm is attached attaches to a stump on an amputee or someone born without a fully developed limb, with a strengthened vest that distributes the weight evenly.
It connects to the wearer's residual limb firstly with bands of sensors that measure electrical signals, and then via a cup that fits over the top, with the arm connecting via an interface.
No surgery or implants are required for it to function.
Atom Limbs plans to market the limb at around €16,000 euros.
OPS: The Atom Limbs arm is fitted using a special vest
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_166380194_FER
Mind controlled prosthetic arm
Ferrari Press Agency
Prosthetic 1
Ref 15601
23/02/2024
See Ferrari text
Pictures must credit: Atom Limbs
A range of mind controlled prosthetic limbs which use artificial intelligence are set to make the world easier to access for disabled people.
California-based Atom Limbs uses advanced sensors and machine learning to interpret electrical signals from a person's brain and use them to move and manipulate a the limb.
The company has come up with an arm that has a full range of human motion in the elbow, wrist, and individual fingers.
It also provides haptic feedback to the wearer so they can get sensation of their grip strength.
The arm is attached attaches to a stump on an amputee or someone born without a fully developed limb, with a strengthened vest that distributes the weight evenly.
It connects to the wearer's residual limb firstly with bands of sensors that measure electrical signals, and then via a cup that fits over the top, with the arm connecting via an interface.
No surgery or implants are required for it to function.
Atom Limbs plans to market the limb at around €16,000 euros.
OPS: Render of a finished Atom Limbs arm
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_166380193_FER
Mind controlled prosthetic arm
Ferrari Press Agency
Prosthetic 1
Ref 15601
23/02/2024
See Ferrari text
Pictures must credit: Atom Limbs
A range of mind controlled prosthetic limbs which use artificial intelligence are set to make the world easier to access for disabled people.
California-based Atom Limbs uses advanced sensors and machine learning to interpret electrical signals from a person's brain and use them to move and manipulate a the limb.
The company has come up with an arm that has a full range of human motion in the elbow, wrist, and individual fingers.
It also provides haptic feedback to the wearer so they can get sensation of their grip strength.
The arm is attached attaches to a stump on an amputee or someone born without a fully developed limb, with a strengthened vest that distributes the weight evenly.
It connects to the wearer's residual limb firstly with bands of sensors that measure electrical signals, and then via a cup that fits over the top, with the arm connecting via an interface.
No surgery or implants are required for it to function.
Atom Limbs plans to market the limb at around €16,000 euros.
OPS: Render of a finished Atom Limbs arm
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_166380192_FER
Mind controlled prosthetic arm
Ferrari Press Agency
Prosthetic 1
Ref 15601
23/02/2024
See Ferrari text
Pictures must credit: Atom Limbs
A range of mind controlled prosthetic limbs which use artificial intelligence are set to make the world easier to access for disabled people.
California-based Atom Limbs uses advanced sensors and machine learning to interpret electrical signals from a person's brain and use them to move and manipulate a the limb.
The company has come up with an arm that has a full range of human motion in the elbow, wrist, and individual fingers.
It also provides haptic feedback to the wearer so they can get sensation of their grip strength.
The arm is attached attaches to a stump on an amputee or someone born without a fully developed limb, with a strengthened vest that distributes the weight evenly.
It connects to the wearer's residual limb firstly with bands of sensors that measure electrical signals, and then via a cup that fits over the top, with the arm connecting via an interface.
No surgery or implants are required for it to function.
Atom Limbs plans to market the limb at around €16,000 euros.
OPS: Render of a finished Atom Limbs arm
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_166380191_FER
Mind controlled prosthetic arm
Ferrari Press Agency
Prosthetic 1
Ref 15601
23/02/2024
See Ferrari text
Pictures must credit: Atom Limbs
A range of mind controlled prosthetic limbs which use artificial intelligence are set to make the world easier to access for disabled people.
California-based Atom Limbs uses advanced sensors and machine learning to interpret electrical signals from a person's brain and use them to move and manipulate a the limb.
The company has come up with an arm that has a full range of human motion in the elbow, wrist, and individual fingers.
It also provides haptic feedback to the wearer so they can get sensation of their grip strength.
The arm is attached attaches to a stump on an amputee or someone born without a fully developed limb, with a strengthened vest that distributes the weight evenly.
It connects to the wearer's residual limb firstly with bands of sensors that measure electrical signals, and then via a cup that fits over the top, with the arm connecting via an interface.
No surgery or implants are required for it to function.
Atom Limbs plans to market the limb at around €16,000 euros.
OPS: Render of a finished Atom Limbs arm
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
