Today's technology allows for the fabrication of lifelike prosthetic limbs as well as the introduction of intuitive control for arm and leg prosthesis. Intelligent prostheses will interface with the human nervous system and brain to improve movement precision and comfort. Immaculate is a prosthetic arm that weighs less than 60% of the user's natural arm. It is fashionable, svelte, constructed of cutting-edge materials, and it has the ability to incorporate extra devices. Immaculate has ball joints in every joint, allowing for 360-degree absolute freedom of motion. In order to enable more organic and steady movements, tensegrity foot is made to act like a real foot. It flexes and conforms to the floor beneath.

Prosthesis called the i-LIMB Hand has with independently powered fingers, it provides a more natural way to control a limb. It is directed by electrical signals generated by the patient's muscles and read by electrodes positioned on the skin's surface. It is simple to use and adapt within minutes, according to research.Each year, thousands of people lose one or both of their legs as a result of an illness or injury. In England alone, almost 45,000 people depend on prosthetic limbs, and every year, about 5,000 people in the UK lose a lower limb. Two million Americans are thought to be living with a limb amputation. It is a truly life-changing occurrence, robbing people of abilities that others take such as walking, running, and even remaining motionless, are taken for granted.

Although prosthetic limbs can assist amputees regain some mobility, they are not always perfect. Many lower-leg prosthetic users must carefully arrange their days to avoid such challenging terrain because tackling obstacles like ramps, kerbs, and steps with a prosthetic leg can be scary. An apparent solution might just be to actively power the limbs with actuators and hydraulics that move the prosthesis, much like actual muscles do. However, it was discovered during development that the limbs were too heavy because to the motors and batteries required to power and drive them in this way.

Additionally, as the leg swings and displaces the additional power from the motors, the added weight would make it more difficult to control the leg. In the end, it appeared unnecessary to use a motorised prosthetic leg because the person using it can generate energy with each stride by pressing down on the limb with their weight.

Integrative Neuroscience Research Journal is peer-reviewed that focuses on the topics include Neurological research, Neurophysiology, Cognitive neurological research, Molecular, behavioural, Developmental, Mathematical and computational research related to neuroscience.

Authors can submit their manuscripts as an email attachment to integrativebiology@globalannualmeet.com

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Journal Co-ordinator
Integrative Neuroscience Research