Pubdate: 3 Jan 1998 Source: Minneapolis Star-Tribune Author: Daniel Q. Haney, Associated Press Contact: Contact: http://www.startribune.com/stonline/html/userguide/letform.html Website: http://www.startribune.com/ Note: Our newshawk writes: I saw this in today's Wisconsin State Journal also, but they didn't have it online. RESEARCH SHOWS BRAIN ON COCAINE BOSTON (AP) -- All that could be seen of the drug addict were his gray wool socks sticking out of an MRI machine the size of a walk-in closet. He'd been in there about an hour when a technician pushed a big white button and infused 40 milligrams of cocaine into his bloodstream. Two psychiatrists watched intently, along with a heart specialist, a drug counselor and a nurse. If all went well, they would capture amazingly clear pictures of the drug's effects on this man's brain, a step toward mapping addiction's grip and, ultimately, perhaps even curing it. But at this moment, the team focused on just getting through the next half hour without a mistake. For a minute and a half, nothing happened. Then the man's heart picked up speed. 90 beats per minute. Then 130. 135. His blood pressure zoomed to an off-the-charts 194 over 116. A number came up on a computer screen: Rush 4. "He's getting maximal rush," said Dr. Hans Breiter. The man inside the MRI machine had just signaled how much he liked it. His head immobilized, his ears plugged against the pulsing racket of the super magnets, he rated his euphoria on a scale of one to four. Four meant really good. It was a rush in the interest of science. In this unusual experiment at Massachusetts General Hospital, scientists were literally looking inside a man's head to see what cocaine does. Their souped-up MRI machine, programmed to run far faster than the kind used to take pictures of strokes or bad knees, rattled off an image a second of the man's brain. It was quickly over. Within a couple of minutes, the rush fell to 2, then 1. Then came less pleasant feelings. Low 2, the man reported. Low 3. It meant he felt jittery, out of sorts. Finally the numbers began to rise on another scale, his inevitable hunger for more. Craving 3. Breiter looked relieved. There had been no need to yank the man out of the machine and jolt him with defibrillator paddles -- something they had practiced doing in 30 seconds flat in case the cocaine triggered cardiac arrest. Nothing had gone wrong. Around 10 p.m., after promising he wouldn't go looking for more cocaine that night, the addict was sent home with a lecture about the dangers of drugs, an offer of drug rehab and his payment, a $260 credit at a supermarket. Volunteer No. 34 received what for him was a moderate amount of cocaine44; and left behind 200 images of what it did to his brain. At the exact moments when he had felt so very good and then so bad, they would show just which parts were working in high gear. "This is, like, way beyond fried eggs," said Dr. Alan Leshner, head of the National Institute on Drug Abuse, referring to the memorable ad campaign a few years ago about brains on drugs. Leshner's institute is paying for this and similar experiments around the country. Scientists hope that by knowing exactly how cocaine gets people high and keeps them coming back for more, they will see clues to making medicines that can blunt these effects. "That state of feeling good, high, euphoria, buzz, whatever you call it, that's what we're after, and that's what users are after," said Dr. Scott Lucas, who is doing some of the research at McLean Hospital in Belmont, Mass. For instance, the researchers would like to know the precise circuitry of chemicals and nerves that come to life when people feel high or are seized with the uncontrollable urge for more drugs. How does cocaine change the brain? What's out of whack 10 minutes after snorting it? A month after? A year? Until recently, the answers could only be surmised from experiments on animals. Cocaine is perhaps the most addictive substance known. A rat will ignore food, water and sex and take cocaine until it dies. But a rat cannot say how it feels. Now, the fast magnetic resonance imaging machines, called functional MRI, along with a slower technology called PET, offer a kind of window inside the human head during drug use. "For the first time, using these tools, we are able to see the living, thinking, feeling human brain at work," said Dr. Steven Hyman, head of the National Institute of Mental Health. Before going to the federal institute, Hyman set up the cocaine experiments at Massachusetts General. Now they are being carried on by Breiter, a 35-year-old psychiatrist with swept-back thinning blond hair and an exuberant manner. A couple of weeks after the experiment on volunteer No. 34, Breiter called up his brain scans on a computer in a reclaimed torpedo factory on Boston Harbor. Four images appeared, each a cross-sectional slice that cut across the man's head in a different spot. "Tons of areas are lit," Breiter said, pointing to a scattering of purple and yellow blotches. "But it's not at all a global response. It's very specific." Each bit of color showed the intensity of work being done by different parts of the brain under the influence of cocaine. Aglow were many of the brain's landmarks -- the hippocampus, the insula and the anterior cingulate. MRI shows what happened during the experiment second by second. It does this by measuring the oxygen content of the blood. Since the body needs more oxygen when it's busy, looking at blood oxygen levels reveals which parts of the brain are busy. The result is a detailed picture of specific brain structures that come to life during each stage of a session with drugs. Scientists can guess at the ebb and flow of chemicals like dopamine that are triggering the changes. The Massachusetts General research reveals, as expected, that cocaine activates something called the mesolimbic dopamine system, a strip of nerve cells that runs from deep in the center of the brain to its outer fringes. This is the chemical pipeline linking up the body's pleasure center, the part of the brain that makes you feel good when you bite into a perfectly cooked steak or find a $10 bill on the street. It's a complex piece of machinery. The Massachusetts General doctors have counted 90 different parts of the brain that are turned on during cocaine's rush. But as the euphoria ebbs and the craving sets in, almost all of these fade out, leaving just a few distinct structures -- especially the amygdala and the nucleus accumbens -- still working hard. This was a surprise. The amygdala and the nucleus accumbens are part of the system that gives pleasure. So why is the system involved in craving, which is the motivation to get more pleasure? Like most interesting research, this complicates theories as much as it clarifies them. Indeed, making sense of craving is one of the hottest areas of this research, because it's the craving that brings addicts back again and again. "The picture emerging is that drugs take over structures that are involved in normal pleasure," said Dr. Elliot Stein of the Medical College of Wisconsin. Cocaine44; nicotine, alcohol, amphetamine, heroin and most other drugs of abuse exploit the same system that evolved to reward us for eating, drinking and having sex -- in short, maintaining the species. All of the drugs do it by increasing the supply of dopamine, a protein that triggers the body's pleasure circuits. Cocaine's particular trick is to block dopamine recycling. Instead of being flushed out of the system, as ordinarily happens, dopamine spikes to astronomical levels. Overloaded with dopamine, the brain cuts production. The addict makes up the dopamine shortfall by snorting more cocaine. Even recovered addicts remain at risk. Years later, the mere sight of an old drug pal can trigger an overwhelming craving. The theory is that the memory makes the brain release a dollop of dopamine in anticipation of a reward. "When they hear, smell, touch or see things that remind them of cocaine44; they describe a state of arousal and anticipation that is very cocaine-like," said Dr. Anna Rose Childress of the University of Pennsylvania. "Their hearts go pitty-pat, their ears buzz and their heads are light." To study this, scientists put cocaine addicts into scanners, and induce craving by showing them movies of people pretending to use crack. The amygdala lights up on the scan, as do brain parts that involve memory and emotion. This kind of research strengthens the belief among scientists that drug addiction is not just a failure of will. It is a brain disease -- a lasting, perhaps permanent change in the brain's chemistry and physiology that produces compulsive craving. It also suggests the possibility of making medicines that ease people off cocaine and keep them off. One possible approach is a receptor blocker -- a protein that locks up a contact point that dopamine uses to trigger nerve cells. In theory, blocking this receptor might blunt the effects of cocaine while easing the craving. The scientists say that only by purposely giving cocaine to volunteers can they figure all this out. Building in all the safeguards they can think of, they feel ethically justified in giving people a dangerous, addictive drug. Hyman's team spent two years designing the experiment to minimize the risks. The doctors note that only heavy, chronic users of cocaine are recruited. The users are urged to give up the habit, even before the experiment begins. They get detailed physical exams. A heart specialist stands by during the cocaine injections, and only moderate doses are used. "Frankly, even I still have my doubts about whether this is OK," Hyman said. "But we will learn things we could never possibly learn from animals. A rat in a cage with an IV is not the same as an addicted human." Copyright 1998 Associated Press.