Researchers have developed a novel approach to brain implants, where tiny electronic devices can now be fused with living immune cells to navigate to sites of inflammation, as reported by Ars Technica. This breakthrough technology eliminates the need for invasive surgical procedures typically required for traditional brain implants.
Deblina Sarkar, an electrical engineer and MIT assistant professor, led this research project. After years of persistence, Sarkar and her team successfully combined microscopic electronics with cells, creating a new method for non-invasive brain interventions.
By miniaturizing electronic devices to subcellular levels, Sarkar’s team was able to overcome the challenges faced by previous attempts. The innovative use of CMOS technology enables these hybrid devices to harness light for power generation and computational tasks, further enhancing their capabilities.
This advancement not only opens new possibilities for targeted brain treatments but also highlights the potential of integrating technology with biological systems. The impact of these advancements on healthcare and research could be substantial, offering a glimpse into future medical innovations.
Source: Ars Technica