Researchers have discovered a unique method for encoding natural touch sensations of the hand via specific microstimulation patterns in implantable electrodes in the brain. This method will allow individuals with spinal cord injuries not only to control a bionic arm with their brain, but also to feel tactile edges, shapes, curvatures and movements.
An illustration showing a paralyzed individual with a spinal cord injury, implanted with intracortical electrodes in the brain. This brain-computer interface allows the individual to control a bionic limb that is not attached to the body, directly with thoughts, to reach and grasp a coffee mug.
(Source: Chalmers University of Technology | Boid | David Ljungberg)
Gothenburg/Sweden – For the first time ever, a complex sense of touch for individuals living with spinal cord injuries is a step closer to reality. A new study published in Science, paves the way for complex touch sensation through brain stimulation, whilst using an extracorporeal bionic limb, that is attached to a chair or wheelchair.
The researchers, who are all part of the US-based Cortical Bionics Research Group, have discovered a unique method for encoding natural touch sensations of the hand via specific microstimulation patterns in implantable electrodes in the brain. This allows individuals with spinal cord injuries not only to control a bionic arm with their brain, but also to feel tactile edges, shapes, curvatures and movements, that until now have not been possible.
“In this work, for the first time the research went beyond anything that has been done before in the field of brain-computer interfaces (BCI) – we conveyed tactile sensations related to orientation, curvature, motion and 3D shapes for a participant using a brain-controlled bionic limb. We are in another level of artificial touch now. We think this richness is crucial for achieving the level of dexterity, manipulation, and a highly dimensional tactile experience typical of the human hand,” says Giacomo Valle, lead author of the study and Assistant Professor at Chalmers University of Technology, in Sweden.
The importance of the sense of touch
A sense of touch builds richness and independence in our everyday lives. For individuals living with a spinal cord injury, the electrical signals coming from the hand to the brain that should allow an individual to feel tactile sensations, are being blocked by the injury and that sense of touch is lost. A bionic limb controlled by user’s brain signals can bring back some functionality and independence to someone with a paralyzed hand, but without the sense of touch, it is very difficult to lift, hold and manipulate objects. Previously, a bionic hand would not be perceived by the user as part of the body, since it would not provide any sensory feedback like a biological hand. This study aimed to improve the usability of an extracorporeal bionic limb, which would be mounted on a wheelchair or similar equipment close by to the user.
Implantable technology for controlling bionic limbs with the brain
For the study, two BCI participants were fitted with chronic brain implants in the sensory and motor regions of the brain that represent the arm and hand. Over the course of several years, the researchers were able to record and decode all of the different patterns of electrical activity that occurred in the brain related to motor intention of the arm and hand. This was possible, since the electrical activity was still present in the brain, but the paralysis was blocking this from reaching the hand. Decoding and deciphering brain signals with this technology is unique and allows the participants to directly control a bionic arm and hand with the brain for interacting with the environment.
Complex touch typed into the brain
The participants were able to accomplish a series of complex experiments, that require rich tactile sensations. To do this, the researchers typed specific stimulations directly into the users’ brain via the implants.
“We found a way to type these ‘tactile messages’ via microstimulation using the tiny electrodes in the brain and we found a unique way to encode complex sensations. This allowed for more vivid sensory feedback and experience while using a bionic hand,” says Valle.
The participants could feel the edge of an object, as well as the direction of motion along the fingertips.
By utilizing the Brain Computer Interface, the researchers could decode the intention of motion from the participant’s brain in order to control a bionic arm. Since the bionic arm has sensors on it, when an object comes into contact with these sensors, the stimulation is sent to the brain and the participant feels the sensation as if it were in their hand. This means that the participants could potentially complete complex tasks with a bionic arm with more accuracy than was previously possible, like picking up an object and moving it from one location to another.
The future of complex touch for neural prosthetics
This research is just the first step towards patients with spinal cord injuries being able to feel this level of complex touch. To capture all the features of complex touch that the researchers are now able to encode and convey to the user, more complex sensors and robotic technology is needed (for example prosthetic skin). The implantable technology used to stimulate, would also require development, to increase the repertoire of sensation.
Date: 08.12.2025
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More about the research: The study “Tactile edges and motion via patterned microstimulation of the human somatosensory cortex” published in Science, was led by Giacomo Valle, who is now Assistant Professor at the Department of Electrical Engineering at Chalmers University of Technology in Sweden, and who was active with a team at the University of Chicago in the Bensmaia Lab, USA, at the time of the study.
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