Not being able to communicate while still being conscious is a horrifying prospective for many patients worldwide. Patients with motor neuron disorders, trauma or stroke, risk losing complete muscle control leading to Locked-In Syndrome (LIS) which leaves them completely paralyzed and unable to communicate. This is a fearful situation with significant impact on quality of life and very high burden of care for patients, family, and care givers. Intracranial Neuro Telemetry to REstore COMmunication (INTRECOM) will provide a breakthrough for these patients by developing a novel, fully implantable Brain-Computer Interface (BCI) technology that allows for real-time brain-based computer control and communication in the home environment. This BCI system will significantly transcend current technology by providing a high-performance sustainable device, combining state-of-the-art hardware and software solutions based on Microelectronics Engineering and Artificial Intelligence (AI) to liberate LIS patients from their isolation.
INTRECOM’s ambition is to substantially advance BCI technology and validate its working principle in LIS patients in the home environment. The specific objectives of INTRECOM are to:
1. Develop a safe and fully functional high-performance BCI prototype device with 128 electrodes embedded in silicone sheets under the skull and dura for electrocorticography (ECoG grids), and innovative implantable connectors that allows safe and high-quality 24/7 brain signal recording.
2. Develop decoding algorithms based on AI that can translate brain signals to real-time computer control, as well as real-time computer speech (written or audio), with less than 1 second delay.
3. Implant the developed prototype device in 2 people with LIS and validate its working principle, including use in the home environment with initial basic functionality within weeks after implantation, and real-time intelligible speech decoding, thereby restoring communication by the end of the project.
4. Gather an unprecedented wealth of brain data through the in vivo research. Data will improve INTRECOM's hard- and software, neural signal decoding algorithms, and functionality and use of the device. Openly shared, they will advance scientific knowledge of human brain function, BCI, and therapeutic opportunities, and provide novel real-time decoding principles also for future closed-loop neurostimulation applications.
5. Show acceptability of the BCI technology by patients, caregivers, and health care professionals by the end of the project.