Tuesday, December 28, 2010

Seeking the Connectome, a Mental Map, Slice by Slice - NYTimes.com

Dr. Lichtman and his team of researchers at Harvard have built some unusual contraptions that carve off slivers of mouse brains as part of a quest to understand how the mind works. Their goal is to run slice after minuscule slice under a powerful electron microscope, develop detailed pictures of the brain's complex wiring and then stitch the images back together. In short, they want to build a full map of the mind.

The field, at a very nascent stage, is called connectomics, and the neuroscientists pursuing it compare their work to early efforts in genetics. What they are doing, these scientists say, is akin to trying to crack the human genome — only this time around, they want to find how memories, personality traits and skills are stored.

They want to find a connectome, or the mental makeup of a person.

"You are born with your genes, and they don't change afterward," said H. Sebastian Seung, a professor of computational neuroscience at the Massachusetts Institute of Technology who is working on the computer side of connectomics. "The connectome is a product of your genes and your experiences. It's where nature meets nurture."

The task is arduous and years from fruition, and even the biggest zealots acknowledge that their work may not pay off. But connectomics has gotten some meaningful financing: In September, theNational Institutes of Health handed out $40 million in grants to researchers at Harvard, Washington University in St. Louis, the University of Minnesota and the University of California, Los Angeles, to pursue connectomics. Together, their research efforts comprise the Human Connectome Project.

Since the 1970s, researchers have only had one connectome to play with — that of a worm with a measly 300 neurons. Now they are trying a mouse brain, with its 100 million neurons. So far the notion of creating a human-scale connectome — which would illuminate all of the connections among more than 100 billion neurons and unravel the millions of miles of wires in the brain — has proved too daunting.

The task at hand is somewhat similar to trying to untangle a bowl of spaghetti. Each individual spaghetti strand may touch tens of other strands as it weaves in a contorted fashion through the bowl. In this case, the researchers want to do the equivalent of seeing where all the strands connect at the atom level.

And because the brain's wiring is so densely packed, building a connectome stands as one of the most formidable data collection efforts ever concocted. About one petabyte of computer memory will be needed to store the images needed to form a picture of a one-millimeter cube of mouse brain, the scientists say. By comparison, it takes Facebook about one petabyte of data storage space to hold 40 billion photos.

"The world is not yet ready for the million-petabyte data set the human brain would be," Dr. Lichtman said. "But it will be."

Neuroscientists say that a connectome could give them myriad insights about the brain's function and prove particularly useful in the exploration of mental illness. For the first time, researchers and doctors might be able to determine how someone was wired — quite literally — and compare that picture with "regular" brains. Surgeons armed with a connectome might also be able to make more calculated cuts in the brain.

"The connectome project is going to show where all the white matter — all the connecting fibers — are," said Stanley Klein, a professor of optometry and vision science at the University of California, Berkeley. "The whole goal in something like a surgery for epilepsy is to delicately slice out some of the white matter without removing any cortex."

Dr. Klein says he has "zero question" that this type of surgery could benefit from developing a connectome.

Other scientists doubt that the results will match the effort. The comparisons to the genome prove haunting, and critics suggest that the connectome fans are wasting valuable research dollars and setting themselves up for a huge letdown.

"There are people that argue we still just don't know enough about the brain to know where to look for insights," said Bradley Voytek, a researcher at the Helen Wills Neuroscience Institute at the University of California, Berkeley. "They also contend that there is no possible way you can build a full connectome in any realistic time frame."

What's more, even if the researchers succeed, they will only produce a static picture of a brain frozen in time, rather than something that shows how a brain responds to different types of stimuli.

Scientists around the world, including Stephen J. Smith, a neuroscience professor at Stanford, and Gerald M. Rubin, a researcher with the Howard Hughes Medical Institute, have pushed past the naysayers and developed varying techniques for mapping the brains and nervous systems of human as well as other creatures.

"There are some people who say, 'Maybe you don't need this information, and given the expense of it, maybe you should put it off,' " said Dr. Lichtman, a professor of molecular and cellular biology at Harvard. "It's a fair controversy."

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http://www.nytimes.com/2010/12/28/science/28brain.html?_r=1&nl=todaysheadlines&emc=a26&pagewanted=all