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Imaging study finds a structural difference in the brains of cocaine addicts
Structure involved with motivation and reward is smaller, could reflect impaired judgement

BOSTON - November 17, 2004 - A team led by researchers from Massachusetts General Hospital (MGH) has used advanced imaging techniques to identify an unexpected structural difference in the brains of cocaine addicts. The report in the Nov. 18 issue of Neuron describes how a key structure called the amygdala, which previous research has linked to the brain's reward-processing system, is smaller in cocaine addicts than in healthy volunteers. While the current study cannot determine whether this difference is a cause of addiction or results from an early event in the course of drug use, the findings suggest a need to reformulate current strategies for treating cocaine addiction.

"Work here and at other centers has identified the amygdala's fundamental role in addiction. It is important for producing drug craving, which has a powerful effect in maintaining drug abuse," says Hans Breiter, MD, co-director of the Motivation and Emotion Neuroscience Collaboration in the MGH Departments of Radiology and Psychiatry, and a senior author of the current study. "No one anticipated such a specific pattern of volume reduction in the amygdalas of cocaine addicts - pointing to potential problems in a small number of sub-regions of this brain structure."

Earlier studies by Breiter's group and others used advanced imaging techniques to show how cocaine use affects the activity of key structures deep within the brain. Among those findings was reduced activity in the amygdala, particularly during times when addicts reported feelings of craving. In the few previous studies that examined brain structure in cocaine addicts, abnormalities were found only in regions connected to the amygdala. Pursuing those observations, the researchers sought to discover whether structural abnormalities would be found in the amygdala itself that could reflect either vulnerability to cocaine addiction or changes caused by drug use.

Researchers at the Center for Morphometric Analysis at the Martinos Center for Biomedical Imaging used newly developed imaging and anatomical techniques to produce extremely detailed information about the structure of the amygdala. Led by co-first author Nikos Makris, MD, PhD, they reanalyzed data gathered in earlier imaging studies of 27 cocaine addicts who had participated in cocaine infusion studies. For purposes of comparison, they did the same analysis on images gathered from 27 healthy controls, who matched the addicts in a number of variables. The amygdalas of cocaine addicts were found to have significantly less volume than those of the healthy controls, particularly in specific areas on the right side of the brain.

Several characteristics of the changes observed in this study suggest that they may result from genetic differences that could underlie an increased vulnerability to cocaine addiction. "All of the cocaine addicts studied - those whose drug use extended for decades and those who had been using for as little as one year - had the same sort of reduction in amygdala volume, which makes it hard to argue for alterations due to long-term degeneration," Breiter says.

Previous studies have shown that, during healthy adolescent development, the right amygdala becomes larger than the left amygdala, leading to a normal asymmetry between the right and left sides. In the current study, co-first author Gregory Gasic, PhD, noted that this asymmetry was absent in the cocaine-dependent subjects but was present in the healthy controls. "Asymmetries that appear during the course of development often arise from the actions of specific genes. We cannot, however, rule out rapid changes in amygdala volumes early in the course of drug use that abolish this asymmetry," says Gasic, who is also with the Martinos Center."

Although there was no correlation of amygdala size with the duration of cocaine addiction, those addicts whose amygdalas were smallest reported the highest levels of drug craving experienced throughout the day, a finding that complements earlier associations of drug craving with amygdala activity. Perhaps most intriguing is the fact that early studies by Breiter and other investigators have revealed a key role for the amygdala in alerting other brain regions to the possibility of undesirable events or bad outcomes, since drug addicts commonly have difficulty evaluating the long-term consequences of their actions.

"Until now, those of us who study addictions have been focusing on the excessive rewards addicts receive from substance abuse. But it's more complicated than that," says David Gastfriend, MD, director of Addictions Research at MGH and a co-author of the Neuron paper. "In combination with other work, this study suggests that, when the opportunity for excitement presents itself, some people cannot make good judgements - just like teenagers who take excessive risks in pursuit of thrills. It looks like this is a continuing problem for people with cocaine addiction, and now we know where in the brain that problem resides."

The authors note that further studies are required to definitively determine whether the amygdala changes precede cocaine addiction or result from drug use. These findings represent the first output of a long-term Phenotype-Genotype Project in Addiction and Depression, directed by Breiter and Gasic, which will use advanced imaging technology to investigate the interaction between genetic differences and functional brain activity in these disorders. Other early results from that project suggest that the changes observed in this study may be unique to cocaine addiction.

"No matter if these changes reflect a predisposition to addiction or very rapid degenerative changes, there are clear public policy implications," says Breiter. "Further research will help us better understand the implications of these changes and develop ways to apply them to preventing or treating cocaine addiction."

The study's other co-authors are Larry Seidman, PhD, Jill Goldstein, PhD, Matthew Albaugh, Steven Hodge, David Zeigler, Fred Sheahan, Verne Caviness, MD, PhD, David Kennedy, PhD, and Bruce Rosen, MD, PhD, of the MGH; Ming Tsuang, DSc, MD, PhD, of the University of California at San Diego, and Steven Hyman, MD, former director of the National Institue of Mental Health who is current provost of Harvard University. The study was supported by grants from the National Institute of Drug Abuse, the Office of National Drug Control Policy, the National Institute of Mental Health, and other supporters.

Massachusetts General Hospital, established in 1811, is the original and largest teaching hospital of Harvard Medical School. The MGH conducts the largest hospital-based research program in the United States, with an annual research budget of more than $400 million and major research centers in AIDS, cardiovascular research, cancer, cutaneous biology, medical imaging, neurodegenerative disorders, transplantation biology and photomedicine. In 1994, MGH and Brigham and Women's Hospital joined to form Partners HealthCare System, an integrated health care delivery system comprising the two academic medical centers, specialty and community hospitals, a network of physician groups, and nonacute and home health services.

Media Contact: Sue McGreevey, MGH Public Affairs

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