Study Reveals That Those Born Without a Hand Have Brain Functionality to Control Advanced Prostheses

Three Charlotte, North Carolina, hand surgeons have discovered that people of any age born without a hand already have the functionality needed to control a prosthetic device. The breakthrough research, led by Michael Gart, MD, Bryan Loeffler, MD, and Glenn Gaston, MD, at OrthoCarolina, in conjunction with Brian Kaluf, CP, a prosthetist from Ability Clinic, studied children and adults born without a hand to see whether surgery would be required before they could control a myoelectric prosthetic hand. The study concluded that despite missing a limb for the patients’ entire lives, the upper limbs in children and adults could reliably reproduce unique muscle contraction patterns that correspond to a variety of wrist and hand movements. This could allow them to use their brains to control a prosthetic hand.

Research assistant tests the equipment. Images courtesy of OrthoCarolina.

“In layman’s terms, we wanted to find out if the human brain can command a hand that was never there in the first place to do specific tasks, and if that ability varies between childhood and adulthood,” said Gart. “We found that patients of all ages born without a hand can be highly functional with a myoelectric prosthetic hand, and don’t require surgery.”

Patients who took part in the research underwent testing on a digitized virtual reality unit to measure performance of their regularly developed arm and the side missing a hand. As patients focused on thinking about moving their hand, or moving the limb in the place where a hand would be, the system tracked multiple degrees of freedom, or the ability to move the hands in different positions in space. Sensors placed along the forearms to detect muscle activity determined how accurately each limb could reproduce prosthetic hand movements.

“We asked the patients to open and close their hands, move their wrists, place their hands palm up and palm down, and the computer graded them on how successfully they managed different tasks on each side,” said Gaston. “In fact, one of the most amazing parts of the study was that not only could all of the children control the prosthetic hand on the limb missing a hand, but almost all of them performed better on the side missing a hand than on the normal side.”

Targeted muscle reinnervation (TMR) surgery, extensively performed and researched at OrthoCarolina, transplants nerves and allows them to reinnervate, or grow into, another muscle. Generally used on people who have had traumatic amputations whose nerves continue to grow after amputation and seek a muscle to grow into, TMR helps with pain control and improves the person’s ability to control a prosthesis with their mind.

“When we embarked on this study, we wanted to find out if children and adults born without a hand need to have TMR surgery in order to operate a prosthetic hand like the traumatic amputees we frequently take care of,” said Loeffler. “Ultimately what the research showed was that this population does not require TMR since these individuals already possess the ability to control a myoelectric prosthesis. This is wonderful news for people born without a hand.”

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