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(Editor's Note: This article was submitted with full scholarly citations. We edited them out for reasons of brevity and style. Anyone wishing the fully annotated version of the article can request it by sending an email to psmith@drcnet.org.) On August 14, both the newswires and the Society of Neuroscience announced that Dr. Jacqueline McGinty and her colleagues made some new, important, scientific findings about the "long-term consequences of methamphetamine use." McGinty found some of the neurological effects (i.e. brain damage) that methamphetamine causes, the society claimed. In a study titled, "Long-Term Consequences of Methamphetamine Exposure in Young Adults Are Exacerbated in Glial Cell Line-Derived Neurotrophic Factor Heterozygous Mice," researchers claim that after a mere four doses of methamphetamine, they could measure residual brain damage in mice over nine months later. The researchers then conclude, reasoning by analogy, that use of methamphetamine by humans will lead to brain damage that harkens Parkinson's disease. At a most basic level, there are methodological, political, and ethical questions about the validity and propriety of the study and the authors' conclusions. First, McGinty et al. injected the mice with mega doses of methamphetamine, not doses comparable to what recreational or addicted users take. Second, after claiming that glial cell line-derived neurotrophic factor (GDNF) protects dopamine neurons from the toxic effects of methamphetamine, McGinty depleted the GDNF in one set of mice, administered the meth to them and then concluded that the meth (not their chemical imbalance) caused brain damage. Given that the brains of humans are not altered to lower their GDNF, why should we believe the findings are applicable to people who use meth? Third, for over a hundred years, the federal government has produced and/or supported research that parrots the government position to vilify certain drugs and those populations who use them. More poignantly, the state of South Carolina and the Medical University of South Carolina where McGinty works has recently been on the frontlines of the prosecution of the war on drugs, as opposed to addressing drug use issues as a medical matter. In this respect, this latest piece, funded by both the US Army (which compels soldiers to consume amphetamines) and NIDA, compels us to question the research project itself, let alone its supposed results and speculative conclusions. McGinty and her co-authors purport to tell us that typical doses of methamphetamines can have serious, long-lasting, deleterious effects on brain function to the point of causing Parkinson's disease or Parkinson's-like neurological impairment and disorder. However, instead of giving mice comparable doses as consumed by regular or infrequent meth users, McGinty et al. gave one set of mice four mega doses of methamphetamine. Four times, McGinty's team injected mice with 10mg of meth per kg body weight, the latter three injections coming at two hour intervals after the first. If a person followed the same regime, how much meth would she take following the McGinty binge? For a 110 pound woman (50 kg), at 10mg per kg, she would be injected with 500 mg of meth -- and then injected three more times over a period of six hours. The obvious question is, "would four doses of 500mg of meth in six hours be a lot of meth for a 50kg woman?" McGinty fails to provide any mention on the propriety of their dosage and or how common it is for people to enjoy such mega doses. Though one might find a wide range of opinion as to what constitutes either a normal or mega-dose of methamphetamine, the evidence is relatively clear as to how much meth humans regularly consume. The DEA references an un-cited NIDA report of 2006 which declares, "In some cases, abusers forego food and sleep while indulging in a form of binging known as a "run," injecting as much as a gram of the drug every 2 to 3 hours over several days until the user runs out of the drug or is too disorganized to continue." For some curious reason, the NIDA report has no citations or references to bolster its claim about superhuman meth addicts who need as much as a gram at a time. Conversely, according to the drug information web site Erowid.org, a large dose of meth, taken intravenously, would be 50 mg. For even a regular user, 50 mg would generate a high from one to three hours and the user would have another two to four hours to come down. Hence, if we follow the dictates of Erowid, where a regular meth user might go seven hours between hits, we see that McGinty and company gave mice 10 times what a regular user needs and then re-administered the mega dose three more times within less than seven hours. The mice in McGinty's study were given unadulterated meth. There have been other documented cases of unadulterated meth use. During the time of the German Third Reich, German soldiers were given Pervitin (which had 3mg of methamphetamine) and later another drug which contained Pervitin called D-IX. D-IX had three significant psychoactive substances, cocaine (5mg), methamphetamine (3mg), and 5mg of a morphine extract. Soldiers and their commanders were advised to take only two pills (either the Pervitin or later the D-IX) per day as necessary to stave off sleepiness. To compare then, while German soldiers weighing roughly 75kg (165 lbs.) were taking not more than 12 mg of meth (orally) per day (two pills with three mg each, twice a day), lab mice were injected with relatively 250 times as much, in one day. To ingest two hundred times too much water, coffee, aspirin, heroin, alcohol, etc. within a six hour period is enough to kill anyone. That some researchers found evidence that defective mice would show a sign of brain damage many months after what should have been a life ending meth binge is unremarkable. And by no means were McGinty and her team without any guide as to how much meth other American scientists administer in their animal studies. In sharp contrast with McGinty et al., researchers at UCLA (2007) gave groups of monkeys a range from .2mg/kg to .06mg/kg of meth, no more than three times per day. But they did expose their animals to meth more often than McGinty did. The monkeys in the UCLA study were doped up 9-12 times per week for 6-8 weeks. What were the study's conclusions? The researchers concluded that while such meth exposure correlated strongly with behavioral changes, anti-social and more aggressive actions, the brains of the monkeys did NOT show extensive neurodegeneration. If one set of mammals were exposed to meth for a longer period, yet did not show the same types of disease as reported by McGinty et al., what can we conclude except that she poisoned her mice with mega doses of meth? It is easy to argue that McGinty and colleagues simply have produced another junk-science, pro-government Drug War propaganda piece. Recent history is filled with examples of similar efforts, with equally dubious results:
So with this history, we must contextualize McGinty's study and what she claims is the serious social need both to study meth and to warn us of its ills. In recent interviews, McGinty told reporters that: "Methamphetamine intoxication in any young adult may have deleterious consequences later in life, though [the consequences might] not be apparent until many decades after the exposure. These studies speak directly to the possibility of long-term public health consequences resulting from the current epidemic [sic] of methamphetamine abuse among young adults." What is the basis for McGinty, a medical doctor and researcher, proclaiming that South Carolina, or the United States, is suffering from a "meth epidemic"? Let us start with a medical definition of an epidemic. As a baseline medical definition, an epidemic refers to the occurrence of more cases of a disease than would be expected in a community or region during a given time period. Included in the idea of an unexpectedly high rate of affliction, we expect to see abnormal or higher rates of mortality. The threat of disease epidemics in crowded, densely populated or unsanitary conditions is particularly well illustrated in military history. On many occasions a germ has been as important as the sword or gun in determining the outcome of a war. The Spanish conquest of Mexico owes much of its success to an epidemic of smallpox that destroyed about half of the Aztec population. The typhoid bacillus killed thousands during the American Civil War (1861-1865) and the Boer War (1899-1902) in South Africa. Further, the mortality rate from epidemic typhus increases with age. Over half of untreated persons age 50 or more die from typhus. Other examples of epidemics include the Spanish flu and Bubonic plague. In 1918, some estimates find that 28% of all Americans were affected with the Spanish Flu. And the mortality rate associated with that flu outbreak was 2.5%. The Bubonic plague (or Black plague) has been responsible for great pandemics. The first spread occurred from the Middle East to the Mediterranean basin during the fifth and sixth centuries AD, killing approximately 50% of the population there. The second pandemic afflicted Europe between the 8th and 14th centuries, destroying nearly 40% of the population. So while in the medical context, the use of the term epidemic is reserved for contagious diseases and or ailments associated with mortality, McGinty insists on using the inflammatory language in relation to a behavior that in no way is contagious -- though arguably addictive for some individual users -- and does not demonstrate excessive or high mortality rates. According the 2006 edition of the annual study by the University of Michigan, Monitoring the Future (funded by the NIDA), less than 1% of American teens use meth monthly. Another recent NIDA report (2003) found that in some parts of Nebraska, nearly six percent of arrestees across five select counties tested positive for methamphetamine. But in raw numbers, that same study found that only 32 people out of a population of 644,000 were both arrested and tested positive for meth. In December 2001, the federal National Drug Intelligence Center reported that meth use in South Carolina was far below that of other states. That said, in 2004, a total of 500 people sought treatment for meth addiction in South Carolina. That is, 500 people in a population of over 4.3 million -- or little more than 12 in 100,000 residents of the state. To compare, in an area of the country where meth is supposedly a visible problem, the Midwest, not even a rural state like Nebraska can show meth use rates of over 1% for the general population. Similarly, given that South Carolina has meth use rates below the national average, and the nation does not show teen meth use at even 1%, where is the evidence of a meth epidemic? Given the federal government's own data on meth use, McGinty's insistence on a meth epidemic is simply not credible. Similarly, the mortality rates in South Carolina have remained relatively steady over the past 15 years and trend lines show decreasing mortality. In 1998, the State of South Carolina reported zero drug deaths / overdoses in teens. The same was true in 2004 (the last year that data is available). When McGinty cannot get the basics right, exaggerates or inflates claims, and repeats old drug war propaganda -- as applied to a new drug -- there is little reason to believe her research is credible. |
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