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DUKAS_192329112_FER
Implant could provide sensory feedback for prosthetic limbs
Ferrari Press Agency
Brain 1
Ref 17432
30/12/2025
See Ferrari text
Pictures MUST credit: Mingzheng Wu / Rogers Research Group
Scientists have developed a wireless device that uses light to send information directly to the brain — and it could mean giving amputees feeling in prosthetic limbs.
The soft, flexible device sits under the scalp but on top of the skull, where it delivers precise patterns of light through the bone to activate brain cells called neurons.
It represents a significant step forward in building devices that can interface with the brain without the need for surgery, burdensome wires or bulky external hardware.
In experiments, scientists used the device’s tiny, patterned bursts of light to activate specific groups of neurons deep inside the brains of mice.
The mice quickly learned to interpret these patterns as meaningful signals, which they could recognise and use.
Even without touch, sight or sound involved, the animals received information to make decisions and successfully completed behavioural tasks.
The technology has immense potential for various therapeutic applications.
They include giving sensory feedback for prosthetic limbs.
The device could also deliver artificial stimuli for future vision or hearing prostheses and help as a painkiller without the need of drugs.
The team from the USA’s Northwestern University near Chicago says it may also help with rehabilitation after a stroke or injury and even control robotic limbs.
OPS: The new LED bain device showing ,at the top, the tiny programmable array of LED lights.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192329111_FER
Implant could provide sensory feedback for prosthetic limbs
Ferrari Press Agency
Brain 1
Ref 17432
30/12/2025
See Ferrari text
Pictures MUST credit: Mingzheng Wu / Rogers Research Group
Scientists have developed a wireless device that uses light to send information directly to the brain — and it could mean giving amputees feeling in prosthetic limbs.
The soft, flexible device sits under the scalp but on top of the skull, where it delivers precise patterns of light through the bone to activate brain cells called neurons.
It represents a significant step forward in building devices that can interface with the brain without the need for surgery, burdensome wires or bulky external hardware.
In experiments, scientists used the device’s tiny, patterned bursts of light to activate specific groups of neurons deep inside the brains of mice.
The mice quickly learned to interpret these patterns as meaningful signals, which they could recognise and use.
Even without touch, sight or sound involved, the animals received information to make decisions and successfully completed behavioural tasks.
The technology has immense potential for various therapeutic applications.
They include giving sensory feedback for prosthetic limbs.
The device could also deliver artificial stimuli for future vision or hearing prostheses and help as a painkiller without the need of drugs.
The team from the USA’s Northwestern University near Chicago says it may also help with rehabilitation after a stroke or injury and even control robotic limbs.
OPS: The new LED bain device showing ,at the top, the tiny programmable array of LED lights.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192329110_FER
Implant could provide sensory feedback for prosthetic limbs
Ferrari Press Agency
Brain 1
Ref 17432
30/12/2025
See Ferrari text
Pictures MUST credit: Mingzheng Wu / Rogers Research Group
Scientists have developed a wireless device that uses light to send information directly to the brain — and it could mean giving amputees feeling in prosthetic limbs.
The soft, flexible device sits under the scalp but on top of the skull, where it delivers precise patterns of light through the bone to activate brain cells called neurons.
It represents a significant step forward in building devices that can interface with the brain without the need for surgery, burdensome wires or bulky external hardware.
In experiments, scientists used the device’s tiny, patterned bursts of light to activate specific groups of neurons deep inside the brains of mice.
The mice quickly learned to interpret these patterns as meaningful signals, which they could recognise and use.
Even without touch, sight or sound involved, the animals received information to make decisions and successfully completed behavioural tasks.
The technology has immense potential for various therapeutic applications.
They include giving sensory feedback for prosthetic limbs.
The device could also deliver artificial stimuli for future vision or hearing prostheses and help as a painkiller without the need of drugs.
The team from the USA’s Northwestern University near Chicago says it may also help with rehabilitation after a stroke or injury and even control robotic limbs.
OPS: The new LED bain device showing ,at the top, the tiny programmable array of LED lights.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192329109_FER
Implant could provide sensory feedback for prosthetic limbs
Ferrari Press Agency
Brain 1
Ref 17432
30/12/2025
See Ferrari text
Pictures MUST credit: Mingzheng Wu / Rogers Research Group
Scientists have developed a wireless device that uses light to send information directly to the brain — and it could mean giving amputees feeling in prosthetic limbs.
The soft, flexible device sits under the scalp but on top of the skull, where it delivers precise patterns of light through the bone to activate brain cells called neurons.
It represents a significant step forward in building devices that can interface with the brain without the need for surgery, burdensome wires or bulky external hardware.
In experiments, scientists used the device’s tiny, patterned bursts of light to activate specific groups of neurons deep inside the brains of mice.
The mice quickly learned to interpret these patterns as meaningful signals, which they could recognise and use.
Even without touch, sight or sound involved, the animals received information to make decisions and successfully completed behavioural tasks.
The technology has immense potential for various therapeutic applications.
They include giving sensory feedback for prosthetic limbs.
The device could also deliver artificial stimuli for future vision or hearing prostheses and help as a painkiller without the need of drugs.
The team from the USA’s Northwestern University near Chicago says it may also help with rehabilitation after a stroke or injury and even control robotic limbs.
OPS: The new LED bain device alongside a US cent coin for scale
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_176226182_DAL
USA - Universal Music Group Grammy After Party - Los Angeles
February 4, 2024, Los Angeles, Ca, USA: LOS ANGELES - FEB 4: Chappell Roan, Kayleigh Rose Amstutz, Prosthetic Nose at the Universal Music Group Grammy After Party at the Nya Studios West on February 4, 2024 in Los Angeles, CA (Credit Image: © Kay Blake/ZUMA Press Wire_DALLE (FOTO: DUKAS/DALLE) --- NO WEB USAGE ---
© DALLE aprf -
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_162104251_EYE
MCM ComiCon Excel
Image ©Licensed to Parsons Media. 27/10/2023. London, United Kingdom. MCM ComiCon Excel. Excel London.
Fans arrive at Excel London for the opening day of the MCM ComiCon.
Picture by Martyn Wheatley / Parsons Media / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
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DUKAS_162104151_EYE
MCM ComiCon Excel
Image ©Licensed to Parsons Media. 27/10/2023. London, United Kingdom. MCM ComiCon Excel. Excel London.
Fans arrive at Excel London for the opening day of the MCM ComiCon.
Picture by Martyn Wheatley / Parsons Media / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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DUKAS_162104149_EYE
MCM ComiCon Excel
Image ©Licensed to Parsons Media. 27/10/2023. London, United Kingdom. MCM ComiCon Excel. Excel London.
Fans arrive at Excel London for the opening day of the MCM ComiCon.
Picture by Martyn Wheatley / Parsons Media / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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DUKAS_162104190_EYE
MCM ComiCon Excel
Image ©Licensed to Parsons Media. 27/10/2023. London, United Kingdom. MCM ComiCon Excel. Excel London.
Fans arrive at Excel London for the opening day of the MCM ComiCon.
Picture by Martyn Wheatley / Parsons Media / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
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DUKAS_162104150_EYE
MCM ComiCon Excel
Image ©Licensed to Parsons Media. 27/10/2023. London, United Kingdom. MCM ComiCon Excel. Excel London.
Fans arrive at Excel London for the opening day of the MCM ComiCon.
Picture by Martyn Wheatley / Parsons Media / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
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DUKAS_162104250_EYE
MCM ComiCon Excel
Image ©Licensed to Parsons Media. 27/10/2023. London, United Kingdom. MCM ComiCon Excel. Excel London.
Fans arrive at Excel London for the opening day of the MCM ComiCon.
Picture by Martyn Wheatley / Parsons Media / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© Parsons Media / eyevine. -
DUKAS_162104249_EYE
MCM ComiCon Excel
Image ©Licensed to Parsons Media. 27/10/2023. London, United Kingdom. MCM ComiCon Excel. Excel London.
Fans arrive at Excel London for the opening day of the MCM ComiCon.
Picture by Martyn Wheatley / Parsons Media / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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MCM ComiCon Excel
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MCM ComiCon Excel
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MCM ComiCon Excel
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MCM ComiCon Excel
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MCM ComiCon Excel
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MCM ComiCon Excel
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Fans arrive at Excel London for the opening day of the MCM ComiCon.
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MCM ComiCon Excel
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MCM ComiCon Excel
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Fans arrive at Excel London for the opening day of the MCM ComiCon.
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MCM ComiCon Excel
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Fans arrive at Excel London for the opening day of the MCM ComiCon.
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MCM ComiCon Excel
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MCM ComiCon Excel
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Fans arrive at Excel London for the opening day of the MCM ComiCon.
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MCM ComiCon Excel
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Fans arrive at Excel London for the opening day of the MCM ComiCon.
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MCM ComiCon Excel
Image ©Licensed to Parsons Media. 27/10/2023. London, United Kingdom. MCM ComiCon Excel. Excel London.
Fans arrive at Excel London for the opening day of the MCM ComiCon.
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MCM ComiCon Excel
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MCM ComiCon Excel
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MCM ComiCon Excel
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Fans arrive at Excel London for the opening day of the MCM ComiCon.
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MCM ComiCon Excel
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MCM ComiCon Excel
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MCM ComiCon Excel
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MCM ComiCon Excel
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Fans arrive at Excel London for the opening day of the MCM ComiCon.
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