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Getting wired into neuron network with nanotech
A team led by engineers at the University of California San Diego has developed nanowires that can record the electrical activity of neurons in fine detail.
A team led by engineers at the University of California San Diego has developed nanowires that can record the electrical activity of neurons in fine detail. The new nanowire technology could one day serve as a platform to screen drugs for neurological diseases and could enable researchers to better understand how single cells communicate in large neuronal networks.
“We’re developing tools that will allow us to dig deeper into the science of how the brain works,” said Shadi Dayeh, an electrical engineering professor at the UC San Diego Jacobs School of Engineering and the team’s lead investigator.
“We envision that this nanowire technology could be used on stem-cell-derived brain models to identify the most effective drugs for neurological diseases,” said Anne Bang, director of cell biology at the Conrad Prebys Center for Chemical Genomics at the Sanford Burnham Medical Research Institute. The project was a collaborative effort between the Dayeh and Bang labs, neurobiologists at UC San Diego, and researchers at Nanyang Technological University in Singapore and Sandia National Laboratories.
According to Dayeh, the existing high sensitivity measurement techniques are not scalable to 2D and 3D tissue-like structures cultured in vitro. “The development of a nanoscale technology that can measure rapid and minute potential changes in neuronal cellular networks could accelerate drug development for diseases of the central and peripheral nervous systems,” he said.
The nanowire technology developed in Dayeh’s laboratory is nondestructive and can simultaneously measure potential changes in multiple neurons — with the high sensitivity and resolution achieved by the current state of the art. The device consists of an array of silicon nanowires densely packed on a small chip patterned with nickel electrode leads that are coated with silica.
