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Lab Rats Listen to Mozart, Become Maze-Busters

Neuroscience: Fed a steady diet of one of the composer's sonatas, the animals ran the course faster. But debate rages over whether humans, too, respond.


Patrons once swooned as cellist Frances Rauscher gilded concert halls with the angelic melodies of Wolfgang Amadeus Mozart.

Now an experimental psychologist, Rauscher still plays Mozart. But her stage is a fluorescent-filled university laboratory in Oshkosh, Wis. Her audience? Row upon row of laboratory rats in wire cages.

Their beady eyes never blink, even when she programs a CD player with the composer's sublime "Sonata in D Major for Two Pianos." But something profound occurs within their tiny brains as they listen to the scales, intertwining, intertwining, sometimes for a dozen consecutive hours.

The score makes them scamper faster and more accurately through a maze even days after the music stops. This Rauscher knows from her latest experiment in a groundbreaking series of studies exploring a phenomenon known as the "Mozart Effect."

She suggests that the music stimulates specific neuron connections in the abstract reasoning center of the brain and, in essence, makes the subjects smarter.

So Mozart turns rats into maze-busters. But does it have a similar effect on humans?

The answer isn't so clear. In previous experiments by Rauscher and others, college students who listened to the same sonata subsequently scored higher on intelligence tests. And separate experiments showed that children who took piano lessons also scored higher on intelligence tests.

It might mean, as they suggest, that music enhances a listener's ability to solve problems in time, space and sequence--skills critical in math, science, engineering, architecture.

Or, scientific rivals retort, it might mean they like music.

The proof may rest inside the rats' heads. Starting with humans and proceeding to a simpler animal model is the reverse of the typical scientific approach, Rauscher acknowledges.

But medical ethics and the limits of technology prevent her from peering inside human heads to see if Mozart prompts neurons to make new, extensive connections that improve intelligence.

So she's reduced to examining rats' brains. About the size of a fingernail, the rat's brain hardly corresponds to the human's in size, complexity or capability. But, Rauscher reasons, at least she doesn't have to worry whether the animals are running the maze faster because they like Mozart.

"If we can find these changes in animals' brains after being exposed to Mozart," she says, "then I think it gives you a new understanding of what might be happening in human brains and how it might relate to human behavior."

For all the glamour of gala recitals in New York or Paris, it is here in the company of rodents, with her cello locked away, that Rauscher finds herself more fully exploring both the genius of the 18th-century virtuoso and the basics of brain development.

Now Rauscher, at age 42, hears more Mozart in the lab than she did 15 years ago when she burned out and abandoned a more traditional pursuit of music.

Even now she has mixed feelings--at least about the "all Mozart all the time" auditory diet that she feeds her research subjects. "I'm so sick of it I could die," she says. "Sometimes I can't get it out of my head. It's so annoying."

Maybe so, but her results may be worth hearing.

Some ambitious parents are pulling the plug on Barney and piping "The Jupiter Symphony" and "The Marriage of Figaro" into their nurseries. Last spring, an elementary school in suburban Denver played Mozart while students took the Iowa Test of Basic Skills, and scores rose 4 to 8 percentage points.

But other scientists caution that the Mozart Effect remains unproven, even if they are intrigued by Rauscher's results thus far.

"Especially in the area of psychology, it is rare that one makes a discovery that is so counterintuitive," says Harvard experimental psychologist Howard Gardner. "Even if it turns out that human beings are differentially affected by Mozart, who would have thought that rats would show the same results?"

However, Gardner does not wholeheartedly endorse the Mozart Effect. Two decades ago, he suggested that musical intelligence is one distinct form of the "multiple intelligences" that people exhibit.

Now he is willing to reconsider that musical intelligence might not be a separate form of intelligence, but one aspect of spatial-temporal intelligence: the ability to imagine solutions to complex problems. But Gardner wants the Mozart experiments repeated successfully by other laboratories and expanded to test other forms of music too.

"We are very far from knowing that it is the music of Mozart that is producing these effects," Gardner says. "Rats have tremendous spatial abilities whereas they have little or no musical abilities as far as we know."

In the rat experiments, Rauscher played the sonata's first movement 12 hours for each of the first 60 days of the rats' lives. Then she repeated the procedure with separate groups of rats using white noise and a recording by minimalist composer Philip Glass.

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