Chips Coming to a Brain Near You???????

WireD News reports:

(Full story here:
http://www.wired.com/news/medtech/0,1286,65422,00.html?tw=wn_tophead_1 )

"Chips Coming to a Brain Near You


By Lakshmi Sandhana

02:00 AM Oct. 22, 2004 PT

In this era of high-tech memory management, next in line to get that memory upgrade isn't your computer, it's you.

Professor Theodore W. Berger, director of the Center for Neural Engineering at the University of Southern California, is creating a silicon chip implant that mimics the hippocampus, an area of the brain known for creating memories. If successful, the artificial brain prosthesis could replace its biological counterpart, enabling people who suffer from memory disorders to regain the ability to store new memories.

And it's no longer a question of "if" but "when." The six teams involved in the multi-laboratory effort, including USC, the University of Kentucky and Wake Forest University, have been working together on different components of the neural prosthetic for nearly a decade. They will present the results of their efforts at the Society for Neuroscience's annual meeting in San Diego, which begins Saturday.

While they haven't tested the microchip in live rats yet, their research using slices of rat brain indicates the chip functions with 95 percent accuracy. It's a result that's got the scientific community excited.

"It's a new direction in neural prosthesis," said Howard Eichenbaum, director of the Laboratory of Cognitive Neurobiology at Boston University. "The Berger enterprise is ambitious, aiming to provide a prosthesis for memory. The need is high, because of the prevalence of memory disorder in aging and disease associated with loss of function in the hippocampus."

Forming new long-term memories may involve such tasks as learning to recognize a new face, or remembering a telephone number or directions to a new location. Success depend on the proper functioning of the hippocampus. While this part of the brain doesn't store long-term memories, it re-encodes short-term memory so it can be stored as long-term memory.

It's the area that's often damaged as a result of head trauma, stroke, epilepsy and neurodegenerative disorders such as Alzheimer's disease. Currently, no clinically recognized treatments exist for a damaged hippocampus and the accompanying memory disorders.

Berger's team began its research by studying the re-encoding process performed by neurons in slices of rat hippocampi kept alive in nutrients. By stimulating these neurons with randomly generated computer signals and studying the output patterns, the group determined a set of mathematical functions that transformed any given arbitrary input pattern in the same manner that the biological neurons do. And according to the researchers, that's the key to the whole issue............"



Hmmmm - wonder if it's as close as all that? Any educated guesses?

I used to imagine being able to open a file drawer in my head, and insert stuff like times tables! Is the dream coming true?