The world’s first clinical application of ‘bionic’ miniature neuromuscular stimulators implanted into the muscles of the arm is being developed by a team of researchers in the UK.
The world’s first clinical application of ‘bionic’ miniature neuromuscular stimulators implanted into the muscles of the arm is being developed by a team of researchers at the University of Southampton.
This system will aim to control, and re-educate, through electrical stimulation, weak or paralysed muscles to produce functional arm and hand movement in patients who have suffered damage to the central nervous system following a stroke.
The research is based on the BION microstimulators (Alfred Mann Foundation, Valencia, CA, USA) that once implanted into a patient’s arm act like ‘bionic neurones’ mimicking the messages from the brain to recreate useful function in paralysed or weak arms.
Each electrode is said to measure less than 2.4 mm in diameter by 16.5 mm in length and is implanted within the muscle near to where the nerve attaches, a place called the motor point.
There are no wires connecting the electrodes to the central control unit; power and control signals are transmitted through radio frequency signals via a small inductance coil worn on the arm. Because the BION electrodes are so small they can be implanted into many different muscles providing the potential to control fine, graded movement, which is essential for hand and arm function. Each electrode is ‘individually addressed’ so each BION stimulator can be controlled independently, to a maximum of 255 BION devices.
‘We aim to develop implantation techniques and control systems and measure the effect of stimulation on the individual’s control of hand and arm movement,’ said project leader, Dr Jane Burridge, Senior Research Fellow of the University’s School of Health Professions and Rehabilitation Sciences.
‘The use of these miniature stimulators injected into muscles of the arm in order to facilitate functional movement in people is a very exciting development. This could prove to be a much more user friendly way of controlling movement and enabling recovery of movement in patients who are severely disabled.
‘Because this is the first time BION devices have been used in this way the project will initially involve only four devices being injected into four muscles that control opening of the hand and support grip.
‘The system will be activated initially by a simple trigger and have no more than three phases enabling the user to open their hand, grasp an object and release it. During the second and third phases of the project, we will extend the implantation to include the triceps muscle, which extends the elbow to support a reaching movement. We will also develop a more sophisticated system to control the BION devices in order to make the movements more functional and varied in time,’ explained Dr Burridge.
Approximately 100,000 people suffer a stroke in the UK each year, and with increasing life expectancy this number is rising despite better control of the conditions that make people more likely to have a stroke, such as high blood pressure and diabetes.
Improved acute care also means that more people survive a stroke, but are left with a disability. About two thirds of people who have a stroke regain the ability to walk, but less than 30 per cent regain useful arm function. Research has shown that it is poor arm and hand function that leaves people unable to live full and independent lives.