Dec 19 2012
We spend a great deal of time in the pages of Science-Based Medicine taking down every form of pseudoscience in medicine. Of course, what we see as pseudoscience, proponents often see as emerging or cutting edge science. They are taking advantage of the fact that there is a great deal of legitimate emerging science, and they hope they can sneak past the gates by cloaking themselves in the trappings of real science (jargon, studies, their own journals, etc.). Emerging science, however, no matter how plausible and earnest, still has yet to prove itself (by definition), and has to go through the rigorous process of scientific evaluation to slowly gain acceptance. That process – sorting out what works from what doesn’t, the real from the fake – is where all the action is in SBM.
It is refreshing sometimes to talk about an emerging field that, while still experimental, is legitimate and has the potential to usher in a genuinely revolutionary treatment.
I have been following the research into brain-machine interfaces for some years, and reporting on many of the significant “baby steps” in the advance of this new technology. A recent study published in The Lancet represents another incremental and encouraging advance. Researchers at the University of Pittsburgh implanted two strips of 96 electrodes into the motor cortex of a 52 year-old woman with tetraplegia. The electrodes are capable of detecting the firing of neurons in the motor cortex and transmitting those signals to an external processor that in turn controls a fairly sophisticated robotic arm. The arm is described as having seven degrees of freedom – three dimensions of translation, three dimensions of orientation, and one dimension of grasping.
After two days the subject was able to move the robotic arm with her thoughts alone. Over the course of the 13 week study she progressively gained control of the arm and eventually was able to feed herself with the arm. While this is still very far from a “cure” for paralysis or a restoration of full function, for someone who is tetraplegic (all four limbs are paralyzed) having any independent function is a huge improvement in quality of life.
So where are we with this technology?