By Emily Singer
|Brain map: Software called BrainLab analyzes data collected during a specialized MRI scan of the author’s brain in order to create a neural wiring map. The image shows a cross-section. Specific subsets of wires are highlighted (the color indicates the direction of the wiring going through that slice). The cross-sections are computationally stitched together to create a three-dimensional image. |
Credit: Andrew Frew/Brainlab
Frew is giving me a tour of my white matter–the tissue connecting the neurons, or nerve cells, that make up gray matter. Something about the twisting, turning neural wires that ferry information between the neurons–their individual thickness, perhaps, or their abundance, or the specific paths they take from one part of the brain to another–may explain, at least in part, the variations in human intelligence.
Scientists have been searching more than two centuries for the source of intelligence–the general cognitive ability often quantified in the form of IQ. With the advent of technologies such as magnetic resonance imaging (MRI), researchers concentrating mainly on gray matter have been able to map the parts of the brain that appear to play a role. But this has taken them only so far, and the focus on gray matter has not told the whole story. Not until the last few years, as new variations of MRI home in on the brain’s white matter, has a deeper understanding begun to emerge. “Scientists are now able to switch the focus from particular regions of the brain to the connections between those regions,” says Sherif Karama, a psychiatrist and a neuroscientist at McGill University’s Montreal Neurological Institute. Their initial findings have led Karama and others to believe that neural wiring and the way it carries information around the brain may be crucially important to IQ.
Until fairly recently, only a few scientists were studying how brain structure might be related to IQ, in part because the idea of a biological and genetic basis for intelligence has long been controversial. Since people from different ethnic groups often score differently on intelligence tests, such studies may raise contentions of racism, and critics fear potential abuses such as discrimination in education or employment. Nonetheless, new imaging techniques have allowed types of studies never before possible, and the number of research groups focusing on this question is growing quickly. Many of these groups are setting their sights on white matter.
The hope is that finding the brain areas and circuits involved in intelligence will provide new insight into neurological and psychiatric diseases that impair cognition, such as Alzheimer’s and schizophrenia. “If you want to understand cognitive decline, you need to understand how cognition is manifested and put together in the brain,” says Rex Jung, a neuroscientist at the Mind Research Network in Albuquerque, NM. The research may also improve understanding of learning disabilities such as dyslexia and ADHD, perhaps leading to better treatments. But other potential applications could be more controversial. Some scientists envision a day when brain scans are used to estimate IQ. Sandra F. Witelson, a neuroscientist at the Michael G. DeGroote School of Medicine at McMaster University in Ontario, says, “It’s not a wild guess to say that sometime in the future, brain scans will be part of a group of tools that try to indicate what level someone’s ability is going to be.”