Your brain on drugs: It's not a normal brain.Byline: Bill Bishop The Register-Guard The senseless behavior of addicts makes sense to scientists who study the human brain. The brains of addicts are different from normal brains, researchers say. The ways addicts weigh priorities and make judgments lead to decisions that neglect families, jobs and health - and that place continued drug use above all else. Understanding addicts' behavior requires an understanding of how drugs react in the brain and how they change its chemistry, and how that changes behavior, says David Friedman. Friedman, a professor of physiology and deputy associate dean for research at Wake Forest University, is the founder of the Neurosciences Research Branch of the National Institute on Drug Abuse The National Institute on Drug Abuse (NIDA) is a United States federal-government research institute whose mission is to "lead the Nation in bringing the power of science to bear on drug abuse and addiction. . "The addicted brain is different than the normal brain. The evidence of that is now overwhelming," Friedman says. "Addicts who make these lousy decisions resemble people in many ways who are known to have damage in the prefrontal cortex Noun 1. prefrontal cortex - the anterior part of the frontal lobe prefrontal lobe cerebral cortex, cerebral mantle, cortex, pallium - the layer of unmyelinated neurons (the grey matter) forming the cortex of the cerebrum , and because of that damage make lousy decisions. `Classically, it's, `I shouldn't get high. I should go buy food for the kids.' Frequently, those people go get high. They can't make that good decision for the long term, instead of the short-term decision to get high." Other examples are the addicted woman who can't stop using when she gets pregnant, and parents who can't stop even while their children are living in squalor. "The reason they can't stop is the addict's brain is not like the normal brain. They are not as capable of making sound decisions as normal people are. Their decision-making capability is impaired," Friedman says. While some brains become addicted to a drug after one exposure, all brains become addicted after repeated exposure. Recovery requires time for the brain to readjust re·ad·just tr.v. re·ad·just·ed, re·ad·just·ing, re·ad·justs To adjust or arrange again. re - chemically and physically - to function without the drug, he says. Although researchers are a long way from a complete understanding of brain chemistry and addiction, it's clear that drugs such as methamphetamine operate on the so-called "pleasure circuits" of the brain by increasing the release, or decreasing the absorption, of the neurotransmitter neurotransmitter, chemical that transmits information across the junction (synapse) that separates one nerve cell (neuron) from another nerve cell or a muscle. Neurotransmitters are stored in the nerve cell's bulbous end (axon). dopamine dopamine (dōp`əmēn), one of the intermediate substances in the biosynthesis of epinephrine and norepinephrine. See catecholamine. dopamine One of the catecholamines, widely distributed in the central nervous system. . The more dopamine the brain senses, the more pleasure a person perceives - be it from eating, hearing music, seeing a loved one or taking meth meth n. Methamphetamine hydrochloride. . What sets meth apart from other addictive drugs is that it both releases dopamine and slows its absorption, Friedman says. In effect, it is a double-action stimulant stimulant, any substance that causes an increase in activity in various parts of the nervous system or directly increases muscle activity. Cerebral, or psychic, stimulants act on the central nervous system and provide a temporary sense of alertness and well-being as on the pleasure circuits, he says. "It's more complicated than dopamine. That's part of the picture." But one thing leads to another. The pleasure circuits are connected to the frontal area frontal area n. See frontal cortex. of the brain - the area where values are formulated, judgments are made and priorities are set. Drugs such as meth overwhelm the pleasure circuits, releasing more dopamine than any normal human experience does. Meth use stimulates more meth use by boosting pleasure signals to the brain's judgment centers, warping its decision-making process. The more the drug is used, the more the brain grows dopamine receptors to cope with the flood of dopamine. A decision to stop using meth goes against strongly wired circuits in the addict's brain, where the overabundant o·ver·a·bun·dance n. A going or being beyond what is needed, desired, or appropriate; an excess: teenagers with an overabundance of energy. dopamine receptors "cry out like deserted lovers for the missing chemical," according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. Dr. Richard Restak, a neuropsychiatrist, clinical professor of neurology at George Washington University George Washington University, at Washington, D.C.; coeducational; chartered 1821 as Columbian College (one of the first nonsectarian colleges), opened 1822, became a university in 1873, renamed 1904. and author of 10 books on the human brain. When breaking a meth habit, craving can last a long time while the brain physically adapts to operating without the drug. `If the addicted person stays away from the drugs, the (dopamine) receptors eventually die off like leaves spiraling from the branches of a tree deprived of light,' Restak writes in his book "Brainscapes." When the excess dopamine receptors are gone, the brain's natural balance returns and the craving for meth declines. But heavy or prolonged meth use can push a brain past the point of no return. "When those dopamine circuits get screwed up, that leads to psychosis," Friedman says. "Too much dopamine floating around makes people look like they're psychotic - hallucinations Hallucinations Definition Hallucinations are false or distorted sensory experiences that appear to be real perceptions. These sensory impressions are generated by the mind rather than by any external stimuli, and may be seen, heard, felt, and even , paranoia, aggression. `A lot of people use drugs and don't get into trouble,' Friedman says. `Some people do get into trouble with them. The question is why. The simple answer is people get into trouble with drugs because of the way their brain responds to them. You don't have any choice about how your brain responds." The ill effects of meth probably will play a large role in counteracting the current epidemic, just as in a similar meth epidemic in the 1960s, Friedman predicts. "One of the reasons these epidemics die down is people see what's going on What's Going On is a record by American soul singer Marvin Gaye. Released on May 21, 1971 (see 1971 in music), What's Going On reflected the beginning of a new trend in soul music. ," he says. "What's going on now probably has a natural life cycle, like the flu. It's not going to ever go completely away, because there are always people who are willing to use." |
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