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Byte by Byte, a Map of the Brain

Database of scans can be used as a window into the mind. Scientists say they can discern between young and old, men and women, truth and falsity. But mysteries abound.


Arthur W. Toga is feeding the human brain to the Reality Monster, one digital slice at a time.

This thing devouring the brain in bytes is a graphics supercomputer known more formally as a Silicon Graphics Onyx2 Reality Monster, which is designed to handle unusually large three-dimensional visual displays of information.

In its automated carousels of 80-gigabyte storage drives, the computer cradles the digital essence of the most complex object in the known universe: the human brain.

In fact, it holds detailed anatomical data files on more than 2,000 human brains, with data on 3,000 more waiting to be added. The data set for just one of these brains is the electronic equivalent of a million books. By the end of the year, Toga at UCLA's Laboratory of Neuro Imaging and Dr. John Mazziotta, director of UCLA's brain-mapping division, expect to have 7,000 brains from seven countries scanned into this electronic organ bank.

When complete, this database of anatomy and behavior will help guide researchers and physicians in a wide range of applications, such as studying brain development in children, probing the mysteries of mental illness and determining the proper course of treatment for patients with neurological disorders.

Sitting in a hushed corner of a fourth-floor computer room at UCLA, the Reality Monster defines a frontier of computer science, advanced graphics research and the effort to understand the almost infinite variety of the human brain. At a time when all science is in some way computer science, researchers have harnessed this artificial thinking machine to take the measure of the mind.

It is the center of a $14-million federal project underway at eight laboratories to create an interactive electronic atlas that will accurately capture all that can be calculated about the brains of the world's population. The researchers are developing the mathematical formulas, data management tools and graphic techniques needed to navigate this ever-changing terrain reliably.

An additional $30 million is being spent around the world--from Japan to Finland--to gather the brain data, along with DNA samples and a detailed biomedical dossier on each person being studied, including information about race, ethnic origins, habits, diet, education and occupation.

Already, researchers are beginning to catch glimpses of patterns that may hold true across large groups of people.

Preliminary studies using the mapping techniques suggest there are:

* Distinctive differences in brain structure between men and women with schizophrenia, highlighting the possibility of gender-related patterns of mental illness.

* Telltale patterns of gray matter loss in the brains of people with Alzheimer's disease, suggesting the possibility of diagnosis long before any changes in behavior or memory are noticeable.

* Continual changes from childhood through adolescence in the distribution of gray matter in the brain, offering evidence of developmental changes later in life than previously assumed. The mapping effort is part of the federal Human Brain project, an initiative sponsored by the National Institute of Mental Health and 15 other government organizations.

Scientists hope that the brain-mapping project ultimately will bring order to a cascade of startling findings about the brain in recent years based on new imaging techniques and computerized measuring tools.

Virtually every aspect of neuroscience today relies in some way on sophisticated digital images that give researchers a way to visualize enormous quantities of data about the organ of thought.

Some of these imaging techniques employ mildly radioactive tracers to detect how the brain uses energy. Others take advantage of the magnetic properties of oxygenated blood to make images of mental activity. Computerized arrays of electrodes trace magnetic and electrical signals associated with mental processes.

Using them, researchers have declared that they can see the complex neural patterns of joy, fear, anger and romantic love. They have pointed to a place in the brain where memories dwell and contend they can discern the difference between true and false recollections.

In subtle patterns of light and darkness projected on their computer screens, researchers are convinced they can detect signs of degenerative disease in the brain many years before symptoms develop. They can see how men and women use their brains differently, tell left-handers from right-handers, the old from the young, and how humankind differs from other primates--all by scanning the brain in different ways.

At this level of brain studies, however, nobody really knows how to match images from one brain to another reliably or to accurately merge data gathered with different techniques.

No laboratory, therefore, can duplicate the work of another consistently enough to confirm the discoveries of such brain-imaging studies. Nor is it easy to relate findings based on the study of a few individuals to the population at large.

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