Good News Notes:
“A 36-year-old German man in a completely locked-in state was outfitted with a novel brain-computer interface (BCI) system that relies on auditory feedback. The man learned to alter his brain activity in response to that auditory feedback to compose simple messages. He used this ability to ask for a beer, for his caretakers to play his favorite rock band, and to communicate with his young son, according to a recent paper published in Nature Communications.
BCIs interact with brain cells, recording the electrical activity of neurons and translating those signals into action. Such systems generally involve electrode sensors to record neuronal activity, a chipset to transmit the signals, and computer algorithms to translate the signals. BCIs can be external, similar to medical EEGs in that the electrodes are placed onto the scalp or forehead with a wearable cap, or they can be implanted directly into the brain. The former method is less invasive but can be less accurate because more noise interferes with the signals; the latter requires brain surgery, which can be risky. But for many paralyzed or locked-in patients, it’s an acceptable risk.
Last year, we witnessed two significant milestones on the BCI front. In March 2021, we reported on Neuralink’s demonstration of a monkey playing Pong using a brain implant connected wirelessly to the game’s computer. To achieve this, the company successfully miniaturized the device and got it to communicate wirelessly. In April 2021, researchers with the BrainGate Consortium successfully demonstrated a high-bandwidth wireless BCI in two tetraplegic human subjects.
This latest study used a wired implanted BCI. People who have amyotrophic lateral sclerosis (ALS), colloquially known as Lou Gehrig’s disease, often become paralyzed, and it becomes impossible to communicate, though they are cognitively functional. Several assistive devices have been developed to help restore communication ability, including BCIs that rely on eye movement. But patients in a completely locked-in state have lost even that tiny bit of motor control.
The German man in the study was diagnosed with progressive muscle atrophy in August 2015, an ALS variant that selectively affects motor neurons. Within a few months, he was unable to walk or verbally communicate, and by July 2016 he was artificially ventilated and being fed through a tube. The man initially communicated via an assistive device based on eye movements, but his condition deteriorated.
Realizing that it was a matter of time before he lost all control of his eye movement and became completely locked in, the man’s family asked co-authors Niels Birbaumer of the University of Tübingen and Ujwal Chaudhary of ALS Voice gGmbH in Germany about alternative options. An implanted BCI was deemed the best option, and neurosurgeons in Munich performed the surgery in March 2019.
They placed two microelectrode arrays in the patient’s left motor cortex (the dominant side) to detect neural signals, which could be sent via a wired connection to a computer for processing. NeuroKey software would then decode that data and play it back as auditory feedback tones, since the patient’s eyesight was very limited. The patient quickly learned how to modulate the sound tone and eventually to modulate his neural firing rate to match the frequency of the feedback. After many months of training sessions, the man could select letters and spell words to communicate.
The first message was a simple thanks to Birbaumer and the rest of the team. Other messages related to the man’s care preferences: asking for a head massage or for more gel on his eye (which was prone to dryness) and requesting a higher head position when visitors were present. He even made suggestions for improving the performance of the spelling system….”
View the whole story here: https://arstechnica.com/science/2022/04/bci-lets-completely-locked-in-man-communicate-with-his-son-ask-for-a-beer/