In a pretty bizarre case, around the year 2012 Jan Scheuermann was reported to have had two electrodes acting as a “brain computer interface” implanted within the left cortex of her brain which were associated with motor functions.
Miraculously the implants enabled her to carry out a series of complex functions which had not been previously possible for her.
Through this integrated mechanism, she was able to freely make use of the motor functions embedded within the prosthetic machine attached to her arm. She was able to move the prosthetic arm in all directions while maintaining complete mind control over the setup.
With the aid of this high tech piece of kit, and persistent mind over matter, Jan Scheuermann was indeed excited about the bright future of possibilities. This project signified a major leap forward in the field of prosthetics, and has been a significant point in the journey for people like Jan to be able to control their movements through what is essentially mind over matter.
The degree of movement, in the case of Jan Scheuermann, was limited as she was not able to achieve complete mobility, but at the same time she was able to perform a large number of movements which previously had seemed to be beyond her abilities.
An insight into the developments through “brain computer interface”
As a result of the procedure, Jan Scheuermann was able to carry out some basic chores in her day to day life, which although many might dread having to do, she was quite elated about.
In the matter of a few short days Jan Scheuermann had become something of a national celebrity, owing to the fact that a major medical breakthrough was obtained, and she was an active part of it.
A research group associated with the “University of Pittsburgh” was able to harness the advancement in the medical technology and bring about further improvements. Through a highly sophisticated brain computer interface, Jan’s movement was enhanced to almost double what it had been previously.
This was a comprehensive advancement owing to the fact that the movements for Jan had become subtle and easier, and what she was subsequently able to perform with the additional movements seemed staggering.
The brain computer interface was able to enhance Jan’s motion and bring about significant changes as well. The mobility control, driven by embedded microchip implant technology, revolved around the use of her fingers. Her capacity to grip had become substantially more dexterous, while and at the same time she was able to perform complicated movements as well.
The brain computer interface basically allows the mapping of specific functions in a structured manner, so that they can be processed and communicated to the specific locations. Previous to this breakthrough in technology such a process was not possible, but with the integration of the Microchip Implant Technology, the seemingly impossible has been overcome.
Prosthetic limbs and associated technology have been known to enhance mobility, but the integration of a nano chip has brought advancements that many could not have dreamed possible.
Understanding the concept of Motor Cortex Stimulation
Motor Cortex stimulation can be envisioned as a form of response mechanism which plays a crucial role in activating the cortical motor region.
The cortical motor region plays a major role in free movement of the digits, and is stimulated by the brain cortex. The activation of the region is important and was not synthetically possible until now.
The brain computer interface embedded within the prosthetic structure actually allows the device to function with regards to digit mobility. By exciting the state of cortical motor region, stimulation is brought on. This further ensures that the mobility of the digits is possible with an added setup within the bionic arm.
The function basically brings about the concept of finger abduction, which means that the fingers can be freely spread across a flat surface. The mobility functions also allow the digits to be folded, opposition of thumbs and pinching movements as well.
The integration of motor signals to excite the region was able to enhance the motor reflexes. Prior to this the region was inactive with no traces of neural functioning, but with the integration of the Nano-chip, the region was reactivated.
How is the proposition going to benefit medical science?
The proposition plays a major role, owing to the fact that the developments in the medical field have been extensive and more than significant.
The ability to control free movements in the fingers as well as the arm through the bionic setup would actually allow amputees to carry out a number of complex everyday life activities.
In addition to that, they can also ensure proper mobility of their hands to such an extent that they won’t have to rely on any external sources.
Scientists have been working on the existing model of the nano chip interface so that enhanced motion can be achieved. The technological advancements being forecast should provide an even better range of motion than what is present as of now.
With regards to the future of mind over matter, people might be able to exercise complete, 100% motor control, of their bionic setup. This advancement is anticipated to be the beginning of a bigger phenomenon which would help to bridge the gap between amputees and able-bodied people.
Nonetheless, the brain computer interface is a major advancement which could shape up the future for mind over matter for real.