NEURODIAM projet
What if diamond could restore sight to the blind and enable paraplegics to walk again?
While this idea may seem like something straight out of science fiction, it highlights the challenges that neuroscience is attempting to address.
Dysfunctions of the central nervous system represent a major challenge for our society. Due to the aging population, they affect a growing number of people and can have various causes: traumatic (accidents, strokes), psychological (autism, depression), neurodegenerative (Parkinson's, Alzheimer's), or tumorous (glioblastomas, neuromas).
Today, neuro prostheses and brain-computer interfaces (BCIs) are very promising technologies for restoring these functions. These devices use implants equipped with microelectrodes, placed on or in the brain, to record or stimulate brain activity and thus restore motor function or vision.
However, this technology faces several limitations. Inserting an implant into the brain can trigger an immune response in the tissue, compromising communication with neurons. In addition to biological failures, material failures can occur, including degradation of the metal part of the electrode in contact with the cells. Finally, the implant may suffer mechanical failures, such as delamination or polymer swelling, as it is often composed of layers of varying rigidity.