Showing posts sorted by relevance for query psychosis. Sort by date Show all posts
Showing posts sorted by relevance for query psychosis. Sort by date Show all posts
Sunday, April 29, 2012
Addiction Doctors Pick Top Ten Journal Articles
A screen for problem gambling, medications for insomniac alcoholics, and more.
A group of addiction doctors presented a Top Ten List of peer-reviewed articles from 2011 at the American Society of Addiction Medicine’s Annual Medical-Scientific Conference in Richmond, VA. Dr. Michael Weaver presented the findings, noting that the list was “reached by consensus, and articles were selected not only for their quality but also to represent different areas of addiction medicine.” Dr. Weaver stressed that “not all published studies were done really well, and some may not apply to the patients treated by a particular clinician.”
According to Dr. Edward Nunes, with the Department of Psychiatry at Columbia University, the journal articles provide a "nice mixture on epidemiology and clinical outcome or clinical trials research,” which represent “the type of evidence most relevant to patient care."
Thanks to Catharine Zivkovic (@ccziv) for drawing attention to this list. The summaries are my own. Disclaimer: In some cases, these brief summaries are based solely on a reading of the journal abstracts.
1.
Hsueh-Han Yeh, M.S. et al. (2011). Five-Year Trajectories of Long-Term Benzodiazepine Use by Adolescents: Patient, Provider, and Medication Factors. Psychiatric Services 62(8): 900–907.
A Taiwanese study analyzing benzodiazepine prescription records came up with a simple solution: “Prescribers can reduce the risk of long-term use by assessing whether pediatric patients have received benzodiazepines from multiple doctors for various medical conditions.” Huh. Who’d have thought of that one, eh? But for various reasons, such checks, and the open records required to make them possible, are the exception rather than the rule in current health care systems. The study group found that for long-term users under 21, defined as anyone in receipt of a benzodiazepine prescription for 31 or more days in a calendar year, one in four patients fell into the categories of “accelerating or chronic users.” Specifically, “A history of psychosis or epilepsy, prescription by providers from multiple specialties, and receipt of benzodiazepines with a long half-life or mixed indications significantly increased one's risk of becoming a chronic or accelerating user.”
2.
McBride, O, and Cheng, Hui G. (2011) Exploring the emergence of alcohol use disorder symptoms in the two years after onset of drinking: findings from the National Surveys on Drug Use and Health. Addiction 106(3): 555-563.
This study looked for clinical features of alcohol dependence and socially maladaptive drinking patterns during the first 24 months of alcohol use, based on stats from the 2004-2007 National Surveys on Drug Use and Health (NSDUH). Result: New alcohol users “frequently experienced problems relating to self-reported tolerance, spending a great deal of time recovering from the effects of alcohol and unsuccessful attempts at cutting down on drinking. The likelihood of experiencing the clinical features increased steadily in the first 9 months after use, but appeared to plateau or only gradually increase thereafter.” The researchers suggest there may be a window of opportunity during the 2nd year of drinking.
3.
Volberg, Rachel A., et al. (2011) A Quick and Simple Screening Method for Pathological and Problem Gamblers in Addiction Programs and Practices. The American Journal on Addictions. 20(3): 220-227.
Doctors, as these researchers point out, don’t often screen their patients for pathological gambling. To combat this, the investigators offer health professionals brief computer screenings they have developed for use in identifying problem gambling. “Given the high rates of comorbidity, routine and accurate identification of gambling-related problems among individuals seeking help for substance abuse and related disorders is important.”
4.
Alford, Daniel. P., et al. (2011). Collaborative Care of Opioid-Addicted Patients in Primary Care Using Buprenorphine: Five-Year Experience. Archives of Internal Medicine 171(5):425-431.
Buprenorphine remains an underused but often effective treatment for opiate addiction, the authors of this study maintain. The cohort being studied was a group of addicted patients under the dual care of general physicians and nurse care managers. “Of patients remaining in treatment at 12 months, 154 of 169 (91.1%) were no longer using illicit opioids or cocaine based on urine drug test results,” the investigators report. However, dropout rates were high. The researchers did find that the nurse-doctor model was workable: “Collaborative care with nurse care managers in an urban primary care practice is an alternative and successful treatment method for most patients with opioid addiction that makes effective use of time for physicians who prescribe buprenorphine.”
5.
Kolla, B.P., et. al. (2011) Pharmacological Treatment of Insomnia in Alcohol Recovery: A Systematic Review. Alcohol and Alcoholism 46: 578-585.
In this Mayo Clinic review of drugs used for sleep problems in alcohol recovery, the authors combed through more than 1,200 articles and reported that, of all the old and new drugs being used, an old and rarely used medication—trazadone—improved sleep measures as reliably as anything else that was tested. Gabapentin got good but equivocal marks due to questions about testing and inclusion criteria. Topiramate and carbamazepine helped in some cases. Furthermore, “in single, small, mostly open-label studies, quetiapine, triazolam, ritanserin, bright light and magnesium have shown efficacy, while chlormethiazole, scopolamine and melperone showed no difference or worsening. Conclusion: Trazodone has the most data suggesting efficacy.”
6.
Bohnert, A.S., et. al. (2011). Association between opioid prescribing patterns and opioid overdose-related deaths. Journal of the American Medical Association 305: 1315-1321.
Accidental prescription overdose deaths are on the rise, and this group of university researchers in Ann Arbor and Indianapolis thinks it may have something to do with how the dosing instructions are usually worded. They set out to investigate “the association of maximum prescribed daily opioid dose and dosing schedule (“as needed,” regularly scheduled, or both) with risk of opioid overdose death among patients with cancer, chronic pain, acute pain, and substance use disorders.” They found from VHA hospital records that “the frequency of fatal overdose over the study period among individuals treated with opioids was estimated to be 0.04%.” The risk for overdose was directly related to the “maximum prescribed daily dose of opioid medication.” And patients who stuck with regular dosages, or took opioids “as needed,” were not at any elevated risk for overdose. Another obvious but frequently overlooked conclusion: “Among patients receiving opioid prescriptions for pain, higher opioid doses were associated with increased risk of opioid overdose death.”
7.
Allsop, D.J. et al. (2011). The Cannabis Withdrawal Scale development: patterns and predictors of cannabis withdrawal and distress. Drug and Alcohol Dependence 19(1-2):123-9.
Rates of treatment for marijuana abuse and addiction are increasing, say these Australian authors, along with relapse rates. They have devised a Cannabis Withdrawal Scale that measures such withdrawal effects as associated distress, strange dreams, trouble sleeping, and angry outbursts—common manifestations of withdrawal from weed. The scientists maintain that their “Cannabis Withdrawal Scale can be used as a diagnostic instrument in clinical and research settings where regular monitoring of withdrawal symptoms is required.”
8.
West, R., et al. (2011) Placebo-Controlled Trial of Cytisine for Smoking Cessation. New England Journal of Medicine 365: 1193-1200.
This important study assessed the effectiveness of the drug cytisine in smoking cessation programs, and a potential star was born. In a single-center, randomized, double-blind, placebo-controlled trial, the journal paper concluded that “cytisine was more effective than placebo for smoking cessation. The lower price of cytisine as compared with that of other pharmacotherapies for smoking cessation may make it an affordable treatment to advance smoking cessation globally.”
9.
Elkashef A., et al. (2011) Topiramate for the treatment of methamphetamine addiction: a multi-center placebo-controlled trial. Addiction Published online 12/16.
Conducted at eight medical centers across the U.S., this study found that for most of the 140 methamphetamine-dependent adults under scrutiny, use of topiramate produced “abstinence from methamphetamine during weeks 6-12.” That’s the good news. Unfortunately, “secondary outcomes included use reduction versus baseline, as well as psychosocial variables… topiramate did not increase abstinence from methamphetamine during weeks 6-12.” That’s the bad news. And here’s the silver lining, as far as the investigators are concerned: “Topiramate does not appear to promote abstinence in methamphetamine users but can reduce the amount taken and reduce relapse rates in those who are already abstinent.”
10.
Levina. A., et al. (2011). Molecular Mechanism for a Gateway Drug: Epigenetic Changes Initiated by Nicotine Prime Gene Expression by Cocaine. Science Translation Medicine 3(107) 107-109.
There really is s a gateway drug. In fact, there are two of them in our culture. Almost every potential addict starts out with alcohol or cigarettes or both. Because they are legal and easily available. So is cocaine and marijuana, once you get the hang of it, but in the beginning, and all around us, it’s booze and cigs. The amazing premise of this final study is this: “Pretreatment of mice with nicotine increased the response to cocaine, as assessed by addiction-related behaviors and synaptic plasticity in the striatum, a brain region critical for addiction-related reward.” Nicotine primes subjects for cocaine addiction, in effect. “These results from mice prompted an analysis of epidemiological data, which indicated that most cocaine users initiate cocaine use after the onset of smoking and while actively still smoking, and that initiating cocaine use after smoking increases the risk of becoming dependent on cocaine, consistent with our data from mice. If our findings in mice apply to humans, a decrease in smoking rates in young people would be expected to lead to a decrease in cocaine addiction.”
Photo Credit: www.flickr.com/
Tuesday, June 26, 2012
The New Highs: Are Bath Salts Addictive?
Part II.
Call bath salts a new trend, if you insist. Do they cause psychosis? Are they “super-LSD?” The truth is, they are a continuation of a 70-year old trend: speed. Lately, we’ve been fretting about the Adderall Generation, but every population cohort has had its own confrontation with the pleasures and perils of speed: Ritalin, ice, Methedrine, crystal meth, IV meth, amphetamine, Dexedrine, Benzedrine… and so it goes. For addicts: Speed kills. Those two words were found all over posters in the Haight Ashbury district of San Francisco, a few years too late to do the residents much good.
While the matter of the addictiveness of Spice and other synthetic cannabis products remains open to question, there no longer seems to be much doubt about the stimulant drugs known collectively as bath salts. To a greater or lesser degree, these off-the-shelf synthetic stimulants appear to be potentially addictive. And that’s not good news for anyone.
Last week, the U.S. Congress added 26 additional synthetic chemicals to the Controlled Substances Act, including the designer stimulants mephedrone and MDPV, at the behest of the Drug Enforcement Administration. Mephedrone and MDPV are cathinones, sold as bath salts or plant food, and chemically similar to amphetamine and ephedrine. (Methcathinone, often called MCAT, is to cathinone as methamphetamine is to amphetamine)
The research news on bath salts at the annual meeting of the College on Problems of Drug Dependence (CPDD) in Palm Springs recently was complex and confusing. For example, the phemonenon of overheating, or hyperthermia, that plagues ravers on MDMA and sends some of them to the hospital is a function of certain temperature-sensitive effects of Ecstasy. But it is not as much of a problem with MDPV and mephedrone. The bath salts, like meth, don’t seem to cause overheating as readily.
On another front, William Fantegrossi, assistant professor in the Department of Pharmacology and Toxicology at the University of Arkansas for Medical Sciences, told the panel audience that at very high doses and very high temperatures, stimulants like Ecstasy and MDPV “can cause self-mutilation in animals.” Fantegrossi’s statement was the closest anybody has come to providing a possible scientific basis for popular press accounts linking bath salts to flesh-eating frenzies by psychotic users. But this remains speculative, as there are still no reliable toxicological findings available in such cases.
The symposium on bath salts at the CPDD played to a packed conference hall, a sure sign that professional scientists who study addiction for a living were interested in the subject. The panel was titled “A Stimulating Soak in ‘Bath Salts’: Investigating Cathinone Derivative Drugs,” and was co-chaired by Dr. Michael Taffe of the Scripps Research Institute in La Jolla, CA, and pharmacology professor Dr. Annette Fleckenstein of the University of Utah.
Fantegrossi characterized the overall problem of designer stimulants as “dirty pharmacology” on both sides, pointing to the desperate efforts underway by government-funded scientists to “throw antagonists [blocking drugs] at these things.”
Alexander Shulgin, the grandfather of the modern psychedelic movement, popularized MDMA and hundreds of variants in his backyard laboratory in the Bay Area over the years. Shulgin, better than anyone, knew that legitimate research and dirty recreational chemistry are only a molecule away. In their book Pihkal: A Chemical Love Story, Alexander Shulgin and his wife Ana recall that cartoonist Gary Trudeau captured the truth of the situation as far back as 1985, when the MDMA story became front-page news:
Way back in mid-1985, the cartoonist-author of Doonesbury, Gary Trudeau, did a two-week feature on it, playing it humorous, and almost (but not quite) straight, in a hilarious sequence of twelve strips. On August 19, 1985 he had Duke, president of Baby Doc College, introduce the drug design team from USC in the form of two brilliant twins, Drs. Albie and Bunny Gorp. They vividly demonstrated to the enthusiastic conference that their new drug "Intensity" was simply MDMA with one of the two oxygens removed. "Voila," said one of them, with a molecular model in his hands, "Legal as sea salt."
Jeffrey Moran of the Arkansas Department of Health noted that despite the cat-and-mouse game continuously played between illegal drug designers and the law, government bans on mephedrone and MDPV, the two most common forms of designer stimulant, cause only temporary downturns in supply. They are no longer as legal as sea salt, but it doesn’t seem to matter. There are always new ones in the pipeline. Moran told the audience that at least 48 different compounds had been identified in more than 200 distinct bath salt-style products in his state alone. Sorting out the specific chemistry involves specialized assays designed to detect a bewildering array of molecules: methylone, mephedrone, paphyrone, butylone, 4-MEC, alpha-PVP, and a host of others, some old, some new, some reimagined by underground chemists.
Terry Boos of the U.S. Drug Enforcement Agency explained that most designer stimulants currently in play are not manufactured stateside. Most originate in Asia and arrive through various ports of call, where they are repackaged for sale in the U.S. Purity of the cathinone ranges from 30 to 95 per cent, Boos said.
Annette Fleckenstein of the University of Utah emphasized that scientists shouldn’t be fooled by overall structural similarities among such drugs as meth, mephedrone, MDMA, and MDPV. In a 2011 study published with her colleagues at the University of Utah, Fleckenstein lamented that mephedrone’s recent emergence on the drug scene had exposed the fact that “there are no formal pharmacodynamic or pharmacokinetic studies of mephedrone.”
But she has managed to show that methamphetamine causes lasting decreases in serotonin functions, as well as the better-known dopamine alterations, and that MDMA and mephedrone are intimately involved in the accumulation of serotonin in the brain’s nucleus accumbens, where addictive drugs produce many of their rewarding effects. “Rats will self-administer mephedrone,” said Fleckenstein—always a troubling clue that the drug in question may have addictive properties. Since the high in humans only last for three to six hours, there is a tendency to reinforce the behavior through repeated dosings.
Other behavioral clues have been teased out of rat studies. The Taffe Laboratory at Scripps Research Institute has focused on the cognitive, thermoregulatory, and potentially addictive effects of the cathinones. Rats will self-administer mephedrone, MDPV, and of course methamphetamine. However, Dr. Taffe told the audience that MDMA does not produce these classic locomotor stimulant effects at low doses and that it is “more difficult to get them to self-administer” Ecstasy. Nonetheless, Taffe told me he believes that MDMA is, in fact, potentially addictive. “Our data suggest that MDPV is highly reinforcing,” Taffe said in an email exchange after the conference, “and at least as readily self-administered as methamphetamine, at approximately the same per-infusion doses. But it is a very complicated story.”
Scripps researchers have carried the investigation forward with a new study, currently in press at the journal Drug and Alcohol Dependence. Pai-Kai Huang and coworkers studied the differing effects of designer stimulants on voluntary wheel-running activity in rats, adding additional evidence to the basic behavioral split among club drugs of the moment. Taffe, one of the study’s co-authors, said the researchers had predicted that the two drugs with the strongest serotonin activity—MDMA and the mephedrone variants—would decrease wheel running activity in the rats. Methedrine and MDPV, they predicted, would increase activity.
And that’s how it turned out. What that means for human users is still not entirely clear. But MDPV in particular, it now seems evident, has some rather direct and disturbing affinities with crystal meth and cocaine. And the vagaries of the market have led to sharp increases in the percentage of MDPV found in bath salt products in the last two years. Are we seeing the wholesale replacement of MDMA by a more directly addictive, methedrine-like drug? Will we see a rise in psychotic symptoms, and increased visits to the ER, as MDPV becomes more common in bath salts? Ecstasy has been implicated in the death of users as well, but will the surge in cathinone drugs mean there will be additional deaths?
And remember: Researchers are able to distinguish between rats under the influence of either MDMA- or MDPV-based wheel activity—but the research suggests that under blinded conditions, human users aren’t very good at guessing which of those two drugs they’re on. Furthermore, we don’t have the data to say whether users can tell mephedrone from MDPV in a blind test. And even wheel-running rats don’t give away whether they’re running on MDMA or mephedrone. These categorical distinctions are all-important, but still in relative infancy as far as street use is concerned.
The Scripps scientists concluded that their study “underlines the error of assuming all novel cathinone derivative stimulants that become popular with recreational users will share neuropharmacological or biobehavioral properties.” Some of the combinations produce a “unique constellation of desired effects.”
But by 2011, the U.S. media had conflated mephedrone with MDPV and half a dozen other substances, all with differing effects on users. For public health officials, it was a nightmare.
“We know that MDMA users follow the science,” Taffe said, at the close of the bath salts panel. “So information we make available can have a direct effect on public health for those people.” But for bath salt users, the picture is not as clear. Consider, once again, Arkansas’ finding of 30 or 40 different cathinone derivatives, part of a set of 250 distinct chemicals identified in different combinations of bath salt products. “Slight modifications can change the toxicities,” Taffe said. “Abuse liabilities differ between MDMA and different cathinones. They all confer different health risks.”
One of the primary drivers of bath salt usage appears to be the desire to finesse drug-testing programs. And if drug-testing programs are pushing people in the direction of more dangerous, unfamiliar, and addictive substances, then perhaps drug testing is part of the problem rather than the solution.
In the short run, emergency treatment of patients with OD symptoms they attribute to bath salts will remain the same, whether the cathinone in question is mephedrone, MDPV, or some other variant. General emergency-department procedures for stimulant intoxication are standardized. People can suffer cardiac arrest from either MDMA or meth. And people can run very high temperatures with overdoses of any of these stimulants.
Are users listening? Do they believe any of the health warnings this time out, or have there been too many over the years, always strident and hysterical and overinflated?
Huang PK, Aarde SM, Angrish D, Houseknecht KL, Dickerson TJ, & Taffe MA (2012). Contrasting effects of d-methamphetamine, 3,4-methylenedioxymethamphetamine, 3,4-methylenedioxypyrovalerone, and 4-methylmethcathinone on wheel activity in rats. Drug and alcohol dependence PMID: 22664136
Hadlock GC, Webb KM, McFadden LM, Chu PW, Ellis JD, Allen SC, Andrenyak DM, Vieira-Brock PL, German CL, Conrad KM, Hoonakker AJ, Gibb JW, Wilkins DG, Hanson GR, & Fleckenstein AE (2011). 4-Methylmethcathinone (mephedrone): neuropharmacological effects of a designer stimulant of abuse. The Journal of pharmacology and experimental therapeutics, 339 (2), 530-6 PMID: 21810934
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Monday, August 13, 2012
Synthetic Drugs: Collected Posts
Catching up with bath salts and spice.
The Low Down on the New Highs: Not all bath salts are alike.
“You’re 16 hours into your 24-hour shift on the medic unit, and you find yourself responding to an “unknown problem” call.... Walking up to the patient, you note a slender male sitting wide-eyed on the sidewalk. His skin is noticeably flushed and diaphoretic, and he appears extremely tense. You notice slight tremors in his upper body, a clenched jaw and a vacant look in his eyes.... As you begin to apply the blood pressure cuff, the patient begins violently resisting and thrashing about on the sidewalk—still handcuffed. Nothing seems to calm him, and he simultaneously bangs his head on the sidewalk and tries to kick you...” [Go here]
The New Highs: Are Bath Salts Addictive? What we know and don’t know about synthetic speed.
Call bath salts a new trend, if you insist. Do they cause psychosis? Are they “super-LSD?” The truth is, they are a continuation of a 70-year old trend: speed. Lately, we’ve been fretting about the Adderall Generation, but every population cohort has had its own confrontation with the pleasures and perils of speed: Ritalin, ice, Methedrine, crystal meth, IV meth, amphetamine, Dexedrine, Benzedrine… and so it goes. For addicts: Speed kills. Those two words were found all over posters in the Haight Ashbury district of San Francisco, a few years too late to do the residents much good…. [Go here]
“Bath Salts” and Ecstasy Implicated in Kidney Injuries: “A potentially life-threatening situation.”
Earlier this month, state officials became alarmed by a cluster of puzzling health problems that had suddenly popped up in Casper, Wyoming, population 55,000. Three young people had been hospitalized with kidney injuries, and dozens of others were allegedly suffering from vomiting and back pain after smoking or snorting an herbal product sold as “blueberry spice.” The Poison Review reported that the outbreak was presently under investigation by state medical officials. “At this point we are viewing use of this drug as a potentially life-threatening situation,” said Tracy Murphy, Wyoming state epidemiologist…. [Go here]
The Triumph of Synthetics: Designer stimulants surpass heroin and cocaine.
A troubling report by the United Nations Office on Drugs and Crime (UNODC) shows that amphetamine-type stimulants (ATS) have, for the first time, become more popular around the world than heroin and cocaine. Marijuana remains the most popular illegal drug in the world, and the use of amphetamines has fallen sharply in the U.S., but the world trend represents the worldwide triumph of synthetic drug design over the plant-based “hard drugs” of the past…. [Go here]
Marijuana: The New Generation: What’s in that “Spice” packet?
They first turned up in Europe and the U.K.; those neon-colored foil packets labeled “Spice,” sold in small stores and novelty shops, next to the 2 oz. power drinks and the caffeine pills. Unlike the stimulants known as mephedrone or M-Cat, or the several variations on the formula for MDMA—both of which have also been marketed as Spice and “bath salts”—the bulk of the new products in the Spice line were synthetic versions of cannabis…. [Go here]
An Interview with Pharmacologist David Kroll: On synthetic marijuana, organic medicines, and drugs of the future.
Herewith, a 5-question interview with pharmacologist David Kroll, Ph.D., Professor and Chair of Pharmaceutical Science at North Carolina Central University in Durham, and a well-known blogger in the online science community. A cancer pharmacologist whose field is natural products—he’s currently involved in a project to explore the potential anticancer action of chemicals found in milk thistle and various sorts of fungi—Dr. Kroll received his Ph.D. from the University of Florida, and completed his postdoctoral fellowship in Medical Oncology and Molecular Endocrinology at the University of Colorado School of Medicine. He went on to spend the first nine years of his independent research and teaching career at the University of Colorado School of Pharmacy, where he taught all aspects of pharmacology, from central nervous system-active drugs, to anticancer and antiviral medications…. [Go here]
Mephedrone, the New Drug in Town: Bull market for quasi-legal designer highs.
Most people in the United States have never heard of it. Very few have ever tried it. But if Europe is any kind of leading indicator for synthetic drugs (and it is), then America will shortly have a chance to get acquainted with mephedrone, a.k.a. Drone, MCAT, 4-methylmethcathinone (4-MMC), and Meow Meow--the latter nickname presumably in honor of its membership in the cathinone family, making it chemically similar in some ways to amphetamine and ephedrine. But its users often refer to effects more commonly associated with Ecstasy (MDMA), both the good (euphoria, empathy, talkativeness) and the bad (blood pressure spikes, delusions, drastic changes in body temperature)…. [Go here]
Tracking Synthetic Highs: UN office monitors designer drug trade.
Produced by the United Nations Office on Drugs and Crime (UNODC), the Global SMART Update (PDF) for October provides interim reports of emerging trends in synthetic drug use. The report does not concern itself with cocaine, heroin, marijuana, alcohol, or tobacco. “Unlike plant-based drugs,” says the report, “synthetic drugs are quickly evolving with new designer drugs appearing on the market each year.” The update deals primarily with amphetamine-type stimulants, but also includes newer designer drugs such as mephedrone, atypical synthetics like ketamine, synthetic opioids like fentanyl, and old standbys like LSD…. [Go here]
The New Cannabinoids: Army fears influx of synthetic marijuana.
It’s a common rumor: Spice, as the new synthetic cannabis-like products are usually called, will get you high--but will allow you to pass a drug urinalysis. And for this reason, rumor has it, Spice is becoming very popular in exactly the places it might be least welcomed: Police stations, fire departments—and army bases. What the hell is this stuff? [Go here]
Photo credit: http://gizmodo.com/
photo credit 2: http://www.clemson.edu/
Tuesday, July 21, 2015
Marijuana Deconstructed
What's In Your Weed?
Australia has one of the highest rates of marijuana use in the world, but until recently, nobody could say for certain what, exactly, Australians were smoking. Researchers at the University of Sydney and the University of New South Wales recently analyzed hundreds of cannabis samples seized by Australian police, and put together comprehensive data on street-level marijuana potency across the country. They sampled police seizures and plants from crop eradication operations. The mean THC content of the samples was 14.88%, while absolute levels varied from less than 1% THC to almost 40%. Writing in PLoS one, Wendy Swift and colleagues found that roughly ¾ of the samples contained at least 10% total THC. Half the samples contained levels of 15% or higher—“the level recommended by the Garretsen Commission as warranting classification of cannabis as a ‘hard’ drug in the Netherlands.”
In the U.S., recent studies have shown that THC levels in cannabis from 1993 averaged 3.4%, and then climbed to THC levels in 2008 of almost 9%. By 2015, marijuana with THC levels of 20% were for sale in Colorado and Washington.
CBD, or cannabidiol, another constituent of cannabis, has garnered considerable attention in the research community as well as the medical marijuana constituency due to its anti-emetic properties. Like many other cannabinoids, CBD is non-psychoactive, and acts as a muscle relaxant as well. CBD levels in the U.S. have remained consistently low over the past 20 years, at 0.3-0.4%. In the Australian study, about 90% of cannabis samples contained less than 0.1% total CBD, based on chromatographic analysis, although some of the samples had levels as high as 6%.
The Australian samples also showed relatively high amounts of CBG, another common cannabinoid. CBG, known as cannabigerol, has been investigated for its pharmacological properties by biotech labs. It is non-psychoactive but useful for inducing sleep and lowering intra-ocular pressure in cases of glaucoma.
CBC, yet another cannabinoid, also acts as a sedative, and is reported to relieve pain, while also moderating the effects of THC. The Australian investigators believe that, as with CBD, “the trend for maximizing THC production may have led to marginalization of CBC as historically, CBC has sometimes been reported to be the second or third most abundant cannabinoid.”
Is today’s potent, very high-THC marijuana a different drug entirely, compared to the marijuana consumed up until the 21st Century? And does super-grass have an adverse effect on the mental health of users? The most obvious answer is, probably not. Recent attempts to link strong pot to the emergence of psychosis have not been definitive, or even terribly convincing. (However, the evidence for adverse cognitive effects in smokers who start young is more convincing).
It’s not terribly difficult to track how ditch weed evolved into sinsemilla. It is the historical result of several trends: 1) Selective breeding of cannabis strains with high THC/low CBD profiles, 2) near-universal preference for female plants (sinsemilla), 3) the rise of controlled-environment indoor cultivation, and 4) global availability of high-end hybrid seeds for commercial growing operations. And in the Australian sample, much of the marijuana came from areas like Byron Bay, Lismore, and Tweed Heads, where the concentration of specialist cultivators is similar to that of Humboldt County, California.
The investigators admit that “there is little research systematically addressing the public health impacts of use of different strengths and types of cannabis,” such as increases in cannabis addiction and mental health problems. The strongest evidence consistent with lab research is that “CBD may prevent or inhibit the psychotogenic and memory-impairing effects of THC. While the evidence for the ameliorating effects of CBD is not universal, it is thought that consumption of high THC/low CBD cannabis may predispose users towards adverse psychiatric effects….”
The THC rates in Australia are in line with or slightly higher than average values in several other countries. Can an increase in THC potency and corresponding reduction in other key cannabinoids be the reason for a concomitant increase in users seeking treatment for marijuana dependency? Not necessarily, say the investigators. Drug courts, coupled with greater treatment opportunities, might account for the rise. And schizophrenia? “Modelling research does not indicate increases in levels of schizophrenia commensurate with increases in cannabis use.”
One significant problem with surveys of this nature is the matter of determining marijuana’s effective potency—the amount of THC actually ingested by smokers. This may vary considerably, depending upon such factors as “natural variations in the cannabinoid content of plants, the part of the plant consumed, route of administration, and user titration of dose to compensate for differing levels of THC in different smoked material.”
Wendy Swift and her coworkers call for more research on cannabis users’ preferences, “which might shed light on whether cannabis containing a more balanced mix of THC and CBD would have value in the market, as well as potentially conferring reduced risks to mental wellbeing.”
Swift W., Wong A., Li K.M., Arnold J.C. & McGregor I.S. (2013). Analysis of Cannabis Seizures in NSW, Australia: Cannabis Potency and Cannabinoid Profile., PloS one, PMID: 23894589
(First published at Addiction Inbox Sept. 3 2013)
Graphics Credit: https://budgenius.com/marijuana-testing.html
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Monday, February 6, 2012
Army Doctor Sees Victory, and a Dangerous Drug Bites the Dust—Almost.
An interview with the man who blew the whistle on the neurotoxic malaria drug in the U.S. Army’s kit bag.
A dangerous malaria drug invented by the Army and commonly used by soldiers and civilians alike causes everything from episodes of psychotic violence to nightmares more real than reality, and is finally being withdrawn as the first-line treatment for troops in malarial zones.
Lariam, known medically as mefloquine, has also been a licensed treatment for civilians abroad for more than 25 years. Yet it has only been in the recent past that common knowledge of Lariam’s dangers has surfaced publically.
The development of Lariam was a prime example of military-industrial cooperation. Discovered at the Walter Reed Army Institute of Research during the Vietnam war, initially tested on prisoners at the Joliet Correctional Center in Illinois, and marketed worldwide by Hoffmann-La Roche, mefloquine was an urgent response to high malaria rates in U.S. combat troops overseas. Unfortunately, such close cooperation also led to a lack of adequate clinical testing—the practice that underpins the notion of drug safety. Ashley M. Croft of the Royal Army Medical Corps in Britain has written that in the case of Lariam, “the first randomized controlled trial of the drug in a mixed population of general travellers was not reported until 2001.” Croft believes the FDA was influenced by “the powerful military-industrial-governmental lobby into over-hasty decisions.”
In addition, “travel medicine experts in most countries were slow to recognize the danger signals associated with Lariam…. As late as 2005 a reviewer in the New England Journal of Medicine, also an employee of the US military for over 20 years, continued to maintain… that Lariam was a ‘well tolerated’ drug,” according to Croft. The victims of all this pharmacological hoodoo, Croft maintains, “have been those many business travellers, embassy staff, tourists, aid workers, missionaries, soldiers and others who were well at the start of their journeys into malaria-endemic areas…”
Largely due to the efforts of Dr. Remington Nevin, a medical epidemiologist and a physician in the U.S. Army, who went public about Lariam’s potential for causing psychological illness, military officials announced in December that the Army was done with Lariam as a first-line malaria preventative except for “special circumstances.” In the past, such special circumstances have allegedly included its use as an interrogation drug at Guantanemo.
As far back as 2004, an alarming number of suicides among troops in Iraq prompted calls for an investigation of Lariam. “The military is ignoring this drug’s known side effects,” Steve Robinson of the National Gulf War Resource Center told UPI. In October of 2004, Sen. Dianne Feinstein (D-Calif) urged then-Secretary of Defense Donald Rumsfeld to investigate the drug: “Given the mounting concerns about Lariam as expressed by civilians, service members and medical experts about its known serious side effects, I strongly urge you to reassess,” she wrote to Rumsfeld. Meanwhile, Mark Benjamin and Dan Olmsted of UPI were reporting that “mounting evidence suggests Lariam has triggered mental problems so severe that in a small percentage of users it has led to suicide. UPI also reported that soldiers involved in a string of murder-suicides at Fort Bragg, N.C., in the summer of 2002 after returning from Afghanistan had taken the drug.”
Almost ten years later, Sen. Feinstein wrote another letter, this one to Secretary of Defense Leon Panetta, complaining that a 2009 policy limiting the use of mefloquine among U.S. troops was not being followed. Although parent company Roche discontinued Lariam in the U.S., generic versions remain available, and the company continues to sell Lariam in other countries. “My office has been contacted recently by servicemembers who were prescribed mefloquine when one of the other medications would have been appropriate and were not given the FDA information card. These servicemembers are now suffering from preventable neurological side effects,” including balance problems, vertigo, and psychotic behavior,” she wrote.
In addition, as a military medical instructor told Addiction Inbox: “Some service members might ‘double up’ on their weekly dose, or increase the frequency of dosing, intentionally for recreational purposes. There is no evidence that the military educates service members to avoid this temptation or that it is unsafe. Users might even justify it by believing it could enhance the drug's anti-malarial activity. In the military, it is frequently a tenet of our culture that ‘if one is good, two is better.’"
In November, military officials overseas stopped almost all use of mefloquine in malaria-prone areas in Africa and the Middle East. Army Col. Carol Labadie, the service’s pharmacy program manager, commented on the long overdue change: “If that means changing from one drug to another because now this original drug has shown to be potentially harmful… it is in our interests to make that change.”
As Croft wrote, it was not a case of inconvenient research being deliberately witheld. Rather, “the necessary pre-licensing research was simply never carried out.”
Questions still remain about the use of mefloquine at Guantanamo as an “enhanced interrogation technique.” Last year, Stars and Stripes ran an investigation of the matter and concluded: “Medical experts say the Defense Department policy of giving detainees large doses of mefloquine is poor medical practice at best and torture at worst.”
INTERVIEW WITH DR. REMINGTON NEVIN
—Is there any good science behind the notion that mefloquine might be addictive?
Dr. Remington Nevin: I am speaking to you in an individual capacity, and my opinions are my own and in no way reflect those of the U.S. Army or the Defense Department. There is no evidence that mefloquine is addictive per se, but the drug is well-known to produce vivid, technicolor dreams, and as a result it is frequently viewed as an incidental and convenient form of recreation among people, including Peace Corps volunteers and military service members, who find themselves already required to take the drug, and otherwise typically without access to alternative drugs of abuse, such as alcohol. The vivid "rock star" fantasies frequently reported are often perceived as consolation for the isolation and loneliness that typical accompany travel to remote areas where mefloquine is prescribed.
Ann Patchett, a prize-winning author, recently wrote a book called State of Wonder in which mefloquine features prominently, and her writing was likely based to a good degree on her and her acquaintances' experiences with the drug. Patchett herself actually refers to the drug's "recreational" properties and alludes in a recent interview to her having wanted to "take the drug out for a spin" (see http://thedianerehmshow.org/)
REHM: Did you take Lariam when you went to the Amazon?
PATCHETT: I did, I did. And actually, if I hadn't gone to the Amazon, I probably would've just taken it recreationally at home because I really wanted to take it out...
REHM: Experience it.
PATCHETT:...for a spin, right.
REHM: Yeah.
PATCHETT: And the side effects of Lariam listed on the package, psychotic dreams, terrible nightmares, paranoia, suicide is a possible side effect and I've known a lot of people who have had true psychosis on Lariam.
—Can you lay out what you know about mefloquine causing hallucinatory and dissociative effects in travelers who take it for malaria?
Dr. Nevin: [The symptoms] closely mimic those of a condition known as anti-NMDA receptor encephalitis, which an expert in the field, Dr. Dalmau, describes as including "anxiety, fear, bizarre or stereotypical behaviour, insomnia, and memory deficits". It is thought that rising levels of antibody to the NMDA receptor induces… widespread downstream dysregulation of limbic dopaminergic and noradrenergic tone, which ultimately are responsible for producing the syndrome's psychotic effects… This limbic dysregulation may also be similar to what is seen with the chemical NMDA receptor antagonists, including ketamine and phencyclidine, which share with mefloquine a particular propensity towards impulsivity and dissociation. For these reasons I conclude that mefloquine should be characterized as a dissociative hallucinogen.
—What is a dissociative hallucinogen?
Dr. Nevin: It is this property that also likely explains the drug's association with suicidality and acts of violence. Mefloquine is the only non-psychotropic drug listed among the top ten associated with acts of violence, and there is a growing literature linking it causally to suicide. It may be that the combination of mefloquine-induced amnesia, dissociation, and hallucinations (many with vivid religious or persecutory themes) creates a perfect storm that can trigger impulsive acts of violence. It is not uncommon for those recovering from (and surviving) mefloquine psychosis to report engaging in suicidal gestures that in retrospect were devoid of any fear of consequences…. Just within the past year, in a paper in the journal Science, Bissiere and colleagues demonstrated mefloquine interfering with context fear response in the hippocampus.
—Could you expand on the notion of "vivid rock star fantasies" experienced by some users?
Dr. Nevin: Extremely vivid dreams are among the most widely reported "adverse effect" of the drug. Users can frequently describe their dreams in great detail even well into the next day and, in some cases, the dreams seem to take on an almost lucid quality. Many experience gratifying and deeply pleasurable dreams that they almost don't wish to awaken from; conversely, for some others, the effect seems to be quite the opposite, with the reported nightmares being particularly haunting the next day.
—You have referred to Lariam as a "zombie" drug. Could you expand on that?
Dr. Nevin: If you must know, the reporter for AP caught me on Halloween, but I believe the term is quite apropos. The drug is the pharmaceutical equivalent of the living dead; it is somehow able to survive controversies that would have quickly killed other drugs. Interestingly, Lariam has been quietly delisted although generics remain widely available. To further stretch the metaphor, the drug is also decidedly neurotoxic and kills brain cells; one can say it "eats brains", and lastly, I would argue that a "zombie-like" state is not an unreasonable description of the most extreme adverse effects of the drug.
—I'm shocked to discover mefloquine on the list of top 10 drugs associated with acts of violence. Could you comment on a non-psychoactive drug making that list?
Dr. Nevin: It is quite shocking. Mefloquine isn't typically considered a psychotropic drug, but it probably should be recharacterized as a psychotropic medication with incidental anti-malarial properties. Of the drug contained in a 250mg tablet, only about 1-2mg, less than 1%, is ultimately found at the site of its intended anti-malarial activity, in the circulation. And although the neuropharmacokinetics are still somewhat unclear, arguably a far greater percentage of the drug is ultimately found in brain tissue than in the circulation. Incredibly, when the drug was undergoing FDA licensing, this brain penetration wasn't even well-characterized. Transcripts from the licensing meetings clearly show committee members skipping over this fact without much consideration. Certainly there seems to have been no requirement to submit the drug to neurotoxicity testing, despite many related quinoline compounds having demonstrated well-characterized, permanent neurotoxicity at least 40 years earlier.
—How common is the use of mefloquine in the U.S. as a whole?
Dr. Nevin: There has been a fairly rapid decline in the use the drug, correlating with rising appreciation of mefloquine's dangers and awareness of contraindications to its safe use. Malarone is now the predominant anti-malarial prescribed within a large network of U.S. travel clinics. The U.S. military, which developed the drug just over 40 years ago, recently prohibited the use of mefloquine as first-line agent, and has dramatically curtailed its use after research revealed the drug had been widely prescribed to service members with mental health contraindications. Recently, the U.S. Centers for Disease Control further clarified guidance against routine use of mefloquine in service members, conceding that use of mefloquine may "confound the diagnosis and management of posttraumatic stress disorder and traumatic brain injury".
—What are the consequences of mixing Lariam with alcohol?
Dr. Nevin: There is fairly good evidence from case reports that alcohol may potentiate the deleterious effects of mefloquine, but the mechanism remains controversial. It had been suspected that alcohol simply exerted an inhibitory effect on mefloquine metabolism, but now… it seems likely that alcohol exerts a direct pharmacodynamic effect.
—Lariam is still sometimes prescribed for children traveling in malaria zones. Are there special dangers for kids?
Dr. Nevin: As the popularity of the drug is declining among adults, some experts with ties to industry have been peddling the drug for niche pediatric use, ostensibly because it is well tolerated. Unfortunately, such claims are based on studies which in many cases are deeply flawed and…. even verbally fluent but younger children may not have the experience or perspective to properly describe these symptoms. Apart from these considerations, I would argue that I don't think enough is understood about the neurophysiological effects of the drug to justify its use even in older children and adolescents. Mefloquine is a psychotropic drug. Given what we are learning of mefloquine's effects on the limbic system, even at relatively low doses, it seems at least plausible that the developing brain might in some way be adversely affected by the drug, particularly during long-term dosing.
—Why was the Army so slow to move on mefloquine?
Dr. Nevin: To put things in perspective, understand that mefloquine is the sole product of an aggressive 20-year, multi-million dollar effort by the U.S. Army. Mefloquine was identified only in the early 1970s after tens of thousands of other quinoline compounds had failed toxicity and efficacy tests. By the time of mefloquine's U.S. licensure in 1989, it was essentially DoD's last and only hope. So, if I could rephrase your question, if mefloquine is as safe as the Army once claimed, then why is it no longer the drug of choice? If we assume that this quiet policy change was made in tacit acknowledge of safety concerns, then the question is, precisely what new information has informed this decision, why has this change taken so long to occur, and most importantly, what harm might this policy change now be seeking to avoid, which may already have accrued among those in whom the drug had been previously used?
The reasons for the Army's silence on these questions are likely quite banal. Admitting mefloquine is a dangerous drug would be a bitter pill for any Army medical leader to swallow. Many of today's senior medical leaders were intimately involved in the studies that saw the drug rise to prominence, and many are on record over the previous decades publicly defending the drug against the increasingly validated claims of its earlier critics. Absent external pressure to do so, it is likely of little benefit for these senior medical leaders to suffer the humiliation that would come from admitting what they might now otherwise privately concede. Saying nothing is the path of least resistance on their journey to a comfortable retirement.
—Could you comment on allegations of Lariam use as an interrogation drug at Guantanamo?
Dr. Nevin: The use of mefloquine at Guantanamo represents either medical malpractice with culpability at some of the highest levels of military medical leadership, or it suggests something far more intentional and sinister. I typically believe that one should never ascribe to malice what can be attributed to simple incompetence, but in this case, I am not so certain. There are too many inconsistencies and unanswered questions. The issue will ultimately require the release of medical records, open hearings, and testimony to resolve. I am confident this will happen.
Wednesday, August 20, 2014
The Chemistry of Modern Marijuana
Is low-grade pot better for you than sinsemilla?
First published September 3, 2013.
Australia has one of the highest rates of marijuana use in the world, but until recently, nobody could say for certain what, exactly, Australians were smoking. Researchers at the University of Sydney and the University of New South Wales analyzed hundreds of cannabis samples seized by Australian police, and put together comprehensive data on street-level marijuana potency across the country. They sampled police seizures and plants from crop eradication operations. The mean THC content of the samples was 14.88%, while absolute levels varied from less than 1% THC to almost 40%. Writing in PLoS ONE, Wendy Swift and colleagues found that roughly ¾ of the samples contained at least 10% total THC. Half the samples contained levels of 15% or higher—“the level recommended by the Garretsen Commission as warranting classification of cannabis as a ‘hard’ drug in the Netherlands.”
In the U.S., recent studies have shown that THC levels in cannabis from 1993 averaged 3.4%, and then soared to THC levels in 2008 of almost 9%. THC loads more than doubled in 15 years, but that is still a far cry from news reports erroneously referring to organic THC increases of 10 times or more.
CBD, or cannabidiol, another constituent of cannabis, has garnered considerable attention in the research community as well as the medical marijuana constituency due to its anti-emetic properties. Like many other cannabinoids, CBD is non-psychoactive, and acts as a muscle relaxant as well. CBD levels in the U.S. have remained consistently low over the past 20 years, at 0.3-0.4%. In the Australian study, about 90% of cannabis samples contained less than 0.1% total CBD, based on chromatographic analysis, although some of the samples had levels as high as 6%.
The Australian samples also showed relatively high amounts of CBG, another common cannabinoid. CBG, known as cannabigerol, has been investigated for its pharmacological properties by biotech labs. It is non-psychoactive but useful for inducing sleep and lowering intra-ocular pressure in cases of glaucoma.
CBC, yet another cannabinoid, also acts as a sedative, and is reported to relieve pain, while also moderating the effects of THC. The Australian investigators believe that, as with CBD, “the trend for maximizing THC production may have led to marginalization of CBC as historically, CBC has sometimes been reported to be the second or third most abundant cannabinoid.”
Is today’s potent, very high-THC marijuana a different drug entirely, compared to the marijuana consumed up until the 21st Century? And does super-grass have an adverse effect on the mental health of users? The most obvious answer is, probably not. Recent attempts to link strong pot to the emergence of psychosis have not been definitive, or even terribly convincing. (However, the evidence for adverse cognitive effects in smokers who start young is more convincing).
It’s not terribly difficult to track how ordinary marijuana evolved into sinsemilla. Think Luther Burbank and global chemistry geeks. It is the historical result of several trends: 1) Selective breeding of cannabis strains with high THC/low CBD profiles, 2) near-universal preference for female plants (sinsemilla), 3) the rise of controlled-environment indoor cultivation, and 4) global availability of high-end hybrid seeds for commercial growing operations. And in the Australian sample, much of the marijuana came from areas like Byron Bay, Lismore, and Tweed Heads, where the concentration of specialist cultivators is similar to that of Humboldt County, California.
The investigators admit that “there is little research systematically addressing the public health impacts of use of different strengths and types of cannabis,” such as increases in cannabis addiction and mental health problems. The strongest evidence consistent with lab research is that “CBD may prevent or inhibit the psychotogenic and memory-impairing effects of THC. While the evidence for the ameliorating effects of CBD is not universal, it is thought that consumption of high THC/low CBD cannabis may predispose users towards adverse psychiatric effects….”
The THC rates in Australia are in line with or slightly higher than average values in several other countries. Can an increase in THC potency and corresponding reduction in other key cannabinoids be the reason for a concomitant increase in users seeking treatment for marijuana dependency? Not necessarily, say the investigators. Drug courts, coupled with greater treatment opportunities, might account for the rise. And schizophrenia? “Modelling research does not indicate increases in levels of schizophrenia commensurate with increases in cannabis use.”
One significant problem with surveys of this nature is the matter of determining marijuana’s effective potency—the amount of THC actually ingested by smokers. This may vary considerably, depending upon such factors as “natural variations in the cannabinoid content of plants, the part of the plant consumed, route of administration, and user titration of dose to compensate for differing levels of THC in different smoked material.”
Wendy Swift and her coworkers call for more research on cannabis users’ preferences, “which might shed light on whether cannabis containing a more balanced mix of THC and CBD would have value in the market, as well as potentially conferring reduced risks to mental wellbeing.”
Graphics Credit: http://www.ironlabsllc.co/view/learn.php
Swift W., Wong A., Li K.M., Arnold J.C. & McGregor I.S. (2013). Analysis of Cannabis Seizures in NSW, Australia: Cannabis Potency and Cannabinoid Profile., PloS one, PMID: 23894589
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Sunday, February 10, 2008
LSD and Serotonin
Early psychedelic research on alcoholism.
What did LSD do to the brain, exactly, in order to set off the fireworks that so fascinated brain scientists, hippies, and government spies? And why, after years of massive, unauthorized field-testing, so to speak, was there so little evidence implicating LSD as an addictive drug? Powerful as it was, LSD did not show any of the classic attributes of addiction, such as withdrawal or craving, although it was possible to build up a tolerance to its effects with repeated dosings.
Another novel brain chemical, discovered less than a year after Albert Hofmann's discovery of LSD, proved to be a crucial piece of the puzzle.
According to an early theory, the aberrant mental functioning produced by the tiniest dose of LSD was due to interference with normal levels of serotonin in the brain. In 1954, chemists D.W. Woolley and E. Shaw had published an article in Science strongly arguing that serotonin was the likely biochemical basis for major mental disorders. Wooley and Shaw confirmed that the most acutely serotonin-active substance known to man was the ergot derivative known as LSD. LSD’s chemical architecture looked eerily similar to that of serotonin.
While the idea of LSD as a “model” of psychosis did not hold up, the link between serotonin and mental disorders was there all along. The strongly serotonin-mediated mental disorders, researchers ultimately discovered, were depression, drug addiction, and alcoholism.
The psychedelic drugs, new and old, are not only among the most powerful ever discovered, but are also tremendously difficult to study and utilize responsibly. Nonetheless, these drugs have always played an important part of the story, even though they are not addictive. LSD, mescaline, DMT, psilocybin, Ibogaine, ayahuasca—none of these appeal to lab rats as a drug of abuse.
Psychedelics have been exhorted, and occasionally deployed, as specific anti-craving medications for more than 50 years now. The psychedelic experience seems to assist some addicts in their efforts to remain sober and abstinent. However, the risks of casual experimentation with these substances should be obvious. Recent research on Ecstasy only makes this point more emphatically.
In the 1950s, along with Aldous Huxley and others, Al Hubbard came to believe that the more mystical or “transpersonal” experiences LSD sometimes afforded might hold considerable psychotherapeutic potential. With LSD provided by Hubbard, Canadians Abram Hoffer, Ross Mclean, and Humphrey Osmond pursued the idea of LSD as a treatment for alcoholism. In the U.S, Oscar Janiger, Sanford Unger, and others undertook research on LSD and alcoholism on the West Coast.
Throughout this period, there were LSD clinics operating in England and Europe. European LSD therapists tended to use very low doses as an adjunct to traditional psychoanalytic techniques. But North American researchers took a different, bolder approach. When “psychedelic” therapy began to catch on in Canada and the United States, therapists typically gave patients only one or two sessions at very high doses. These early efforts were aimed at producing spontaneous breakthroughs or recoveries in alcoholics through some manner of religious epiphany or inner conversion experience. The only other quasi-medical approach of the day, the Schick Treatment Center’s brand of “aversion therapy,” was not seen to produce very compelling long-term recovery rates, and subsequently fell out of favor.
In this light, the early successes with LSD therapy, sometimes claimed to be in the 50-75 per cent range, looked noteworthy indeed. However, the design and criteria of the LSD/alcoholism studies varied so widely that it has never been possible to draw definitive conclusions about the work that was done, except to say that LSD therapy seemed to be strikingly effective for certain alcoholics. Some patients were claiming that two or three trips on LSD were worth years of conventional psychotherapy—a claim not heard again until the advent of Prozac thirty years later.
“I’ve taken lysergic acid several times, and have collected considerable information about it,” Bill Wilson, the co-founder of Alcoholics Anonymous, disclosed in a private letter written in 1958. “At the moment, it can only be used for research purposes. It would certainly be a huge misfortune if it ever got loose in the general public without a careful preparation as to what the drug is and what the meaning of its effects may be.” Like many others, Wilson was excited by LSD’s potential as a treatment for chronic alcoholism. Even Hollywood was hip to the new therapy. Cary Grant, among others, took LSD under psychiatric supervision and pronounced it immensely helpful as a tool for psychological insight. Andre Previn, Jack Nicholson, and James Coburn agreed. (It could be argued that the human potential movement began here).
But the early addiction research was stuck in an impossible situation. Some of the best tools available to scientists for studying the workings of the human brain were the very drugs that were increasingly prohibited under state and federal law--drugs like heroin, cocaine, PCP, LSD, and marijuana.
By the early 1970s, meaningful research involving any of these substances had virtually ground to a halt, and grants for clinical work had dried up completely.
--Excerpted from The Chemical Carousel: What Science Tells Us About Beating Addiction © Dirk Hanson 2008, 2009.
Photo Credit: Albert Hofmann Foundation
Related posts: Ibogaine and Addiction
Serotonin and Dopamine: A Primer
alcoholics anonymous drugs
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Saturday, July 26, 2014
Getting Spiced
I wish I could stop writing blog posts about Spice, as the family of synthetic cannabinoids has become known. I wish young people would stop taking these drugs, and stick to genuine marijuana, which is far safer. I wish that politicians and proponents of the Drug War would lean in a bit and help, by knocking off the testing for marijuana in most circumstances, so the difficulty of detecting Spice products isn’t a significant factor in their favor. I wish synthetic cannabinoids weren’t research chemicals, untested for safety in humans, so that I could avoid having to sound like an alarmist geek on the topic. I wish I didn’t have to discuss the clinical toxicity of more powerful synthetic cannabinoids like JWH-122 and JWH-210. I wish talented chemists didn’t have to spend precious time and lab resources laboriously characterizing the various metabolic pathways of these drugs, in an effort to understand their clinical consequences. I wish Spice drugs didn’t make regular cannabis look so good by comparison, and serve as an argument in favor of more widespread legalization of organic marijuana.
A German study, published in Addiction, seems to demonstrate that “from 2008 to 2011 a shift to the extremely potent synthetic cannabinoids JWH-122 and JWH-210 occurred…. Symptoms were mostly similar to adverse effects after high-dose cannabis. However, agitation, seizures, hypertension, emesis, and hypokalemia [low blood potassium] also occurred—symptoms which are usually not seen even after high doses of cannabis.”
The German patients in the study were located through the Poison Information Center, and toxicological analysis was performed in the Institute of Forensic Medicine at the University Medical Center Freiburg. Only two study subjects had appreciable levels of actual THC in their blood. Alcohol and other confounders were factored out. First-time consumers were at elevated risk for unintended overdose consequences, since tolerance to Spice drug side effects does develop, as it does with marijuana.
Clinically, the common symptom was tachycardia, with hearts rates as high as 170 beats per minute. Blurred vision, hallucinations and agitation were also reported, but this cluster of symptoms is also seen in high-dose THC cases that turn up in emergency rooms. The same with nausea, the most common gastrointestinal complaint logged by the researchers.
But in 29 patients in whom the presence of synthetic cannabinoids was verified, some of the symptoms seem unique to the Spice drugs. The synthetic cannabinoids caused, in at least one case, an epileptic seizure. Hypertension and low potassium were also seen more often with the synthetics. After the introduction of the more potent forms, JWH-122 and JWH-210, the symptom set expanded to include “generalized seizures, myocloni [muscle spasms] and muscle pain, elevation of creatine kinase and hypokalemia.” The researchers note that seizures induced by marijuana are almost unheard of. In fact, studies have shown that marijuana has anticonvulsive properties, one of the reason it is popular with cancer patients being treated with radiation therapy.
And there are literally hundreds of other synthetic cannabinoid chemicals waiting in the wings. What is going on? Two things. First, synthetic cannabinoids, unlike THC itself, are full agonists at CB1 receptors. THC is only a partial agonist. What this means is that, because of the greater affinity for cannabinoid receptors, synthetic cannabinoids are, in general, stronger than marijuana—strong enough, in fact, to be toxic, possibly even lethal. Secondly, CB1 receptors are everywhere in the brain and body. The human cannabinoid type-1 receptor is one of the most abundant receptors in the central nervous system and is found in particularly high density in brain areas involving cognition and memory.
The Addiction paper by Maren Hermanns-Clausen and colleagues at the Freiburg University Medical Center in Germany is titled “Acute toxicity due to the confirmed consumption of synthetic cannabinoids,” and is worth quoting at some length:
The central nervous excitation with the symptoms agitation, panic attack, aggressiveness and seizure in our case series is remarkable, and may be typical for these novel synthetic cannabinoids. It is somewhat unlikely that co-consumption of amphetamine-like drugs was responsible for the excitation, because such co-consumption occurred in only two of our cases. The appearance of myocloni and generalized tonic-clonic seizures is worrying. These effects are also unexpected because phytocannabinoids [marijuana] show anticonvulsive actions in humans and in animal models of epilepsy.
The reason for all this may be related to the fact that low potassium was observed “in about one-third of the patients of our case series.” Low potassium levels in the blood can cause muscle spasms, abnormal heart rhythms, and other unpleasant side effects.
One happier possibility that arises from the research is that the fierce affinity of synthetic cannabinoids for CB1 receptors could be used against them. “A selective CB1 receptor antagonist,” Hermanns-Clausen and colleagues write, “for example rimonabant, would immediately reverse the acute toxic effects of the synthetic cannabinoids.”
The total number of cases in the study was low, and we can’t assume that everyone who smokes a Spice joint will suffer from epileptic seizures. But we can say that synthetic cannabinoids in the recreational drug market are becoming stronger, are appearing in ever more baffling combinations, and have made the matter of not taking too much a central issue, unlike marijuana, where taking too much leads to nausea, overeating, and sleep.
(See my post “Spiceophrenia” for a discussion of the less-compelling evidence for synthetic cannabinoids and psychosis).
Hermanns-Clausen M., Kneisel S., Hutter M., Szabo B. & Auwärter V. (2013). Acute intoxication by synthetic cannabinoids - Four case reports, Drug Testing and Analysis, n/a-n/a. DOI: 10.1002/dta.1483
Graphics Credit: http://www.aacc.org/
Tuesday, May 6, 2008
U.K. Marijuana Panic Continues
British Prime Minister plans to stiffen pot penalties.
The national hysteria over "skunk" marijuana shows no signs of abating in Great Britain, as Prime Minister Gordon Brown is poised to overrule his advisors and reclassify cannabis as a more dangerous drug. Lost in the debate is any semblance of reasonable discussion about scientific research on marijuana.
British health authorities continue to find the basics of cannabis to be an inscrutable mystery. Some months ago, they declared that "skunk" cannabis was linked to the onset of schizophrenia. Since no one knows what, exactly, causes schizophrenia, and recent findings continue to point toward genetic causes, this was a doubly astonishing claim.
Now, continuing in the same vein of misinformation, The University College of London reports that different strains of marijuana cause different types of psychological maladies. Recently, Prime Minister Brown "publically described new strains of cannabis as 'lethal,' as if they could trigger a fatal overdose," according to an editorial in the Guardian. The Guardian went on to note that "Whitehall's own panel of experts has concluded that increased marijuana use has not been matched by a corresponding rise in mental illness."
The move to shift marijuana to Class B status from its current Class C designation has been fueled by these dubious reports. As long as British politicians continue to believe that something called "skunk" is a new and lethal derivative of marijuana, and that it causes psychosis, schizophrenia and suicide, no substantive debate on cannabis regulation can possibly take place. Colin Blakemore, a prominent professor of neuroscience at the Universities of Oxford and Warwick, tackled the issue in an article for the Guardian:
And what of the alarming stories of horrifying powerful "skunk"? Some newspapers have told us that the level of THC, the active ingredient, in street cannabis today is 20 or 30 times higher than 10 years ago. That would be rather surprising, given that THC content was 7 per cent on average in 1995. In reality, two studies, due to be published later this year, concluded that the average THC content has doubled.
Professor David Clark, a British psychologist who maintains a substance abuse information service called Wired In, writes on his blog: " I have to confess that I really cannot see what reclassifying the drug will do, other than criminalise and alienate more of our young people. It won't reduce harms that the drug can cause to some people. In saying this, I am not arguing that cannabis is safe - but nor are alcohol, tobacco and a wide range of prescription drugs which are all legal. "
addiction drugs
Monday, January 2, 2012
A Few Words About Glutamate
Meet another major player in the biology of addiction.
The workhorse neurotransmitter glutamate, made from glutamine, the brain’s most abundant amino acid, has always been a tempting target for new drug development. Drugs that play off receptors for glutamate are already available, and more are in the pipeline. Drug companies have been working on new glutamate-modulating antianxiety drugs, and a glutamate-active drug called acamprosate, which works by occupying sites on glutamate (NMDA) receptors, has found limited use as a drug for alcohol withdrawal after dozens of clinical trials.
Glutamine detoxifies ammonia and combats hypoglycemia, among other things. It is also involved in carrying messages to brain regions involved with memory and learning. An excess of glutamine can cause neural damage and cell death, and it is a prime culprit in ALS, known as Lou Gehrig’s disease. In sodium salt form, as pictured---> it is monosodium glutamate, a potent food additive. About half of the brain’s neurons are glutamate-generating neurons. Glutamate receptors are dense in the prefrontal cortex, indicating an involvement with higher thought processes like reasoning and risk assessment. Drugs that boost glutamate levels in the brain can cause seizures. Glutamate does most of the damage when people have strokes.
The receptor for glutamate is called the N-methyl-D-aspartate (NMDA) receptor. Unfortunately, NMDA antagonists, which might have proven to be potent anti-craving drugs, cannot be used because they induce psychosis. (Dissociative drugs like PCP and ketamine are glutamate antagonists.) Dextromethorphan, the compound found in cough medicines like Robitussin and Romilar, is also a weak glutamate inhibitor. In overdose, it can induce psychotic states similar to those produced by PCP and ketamine. Ely Lilly and others have looked into glutamate-modulating antianxiety drugs, which might also serve as effective anti-craving medications for abstinent drug and alcohol addicts.
As Jason Socrates Bardi at the Scripps Research Institute writes: "Consumption of even small amounts of alcohol increases the amount of dopamine in the nucleus accumbens area of the brain—one of the so-called ‘reward centers.’ However, it is most likely that the GABA and glutamate receptors in some of the reward centers of the basal forebrain—particularly the nucleus accumbens and the amygdala—create a system of positive reinforcement.”
Glutamate receptors, then, are the “hidden” receptors that compliment dopamine and serotonin to produce the classic “buzz” of alcohol, and to varying degrees, other addictive drugs as well. Glutamate receptors in the hippocampus may also be involved in the memory of the buzz.
Writing in The Scientist in 2002, Tom Hollon made the argument that “glutamate's role in cocaine dependence is even more central than dopamine's.” Knockout mice lacking the glutamate receptor mGluR5, engineered at GlaxoSmithKline, proved indifferent to cocaine in a study published in Nature.
In an article for Neuropsychology in 2009, Peter Kalivas of the Medical University of South Carolina and coworkers further refined the notion of glutamine-related addictive triggers: "Cortico-striatal glutamate transmission has been implicated in both the initiation and expression of addiction related behaviors, such as locomotor sensitization and drug-seeking," Kalivas writes. "While glutamate transmission onto dopamine cells in the ventral tegmental area undergoes transient plasticity important for establishing addiction-related behaviors, glutamatergic plasticity in the nucleus accumbens is critical for the expression of these behaviors."
The same year, in Nature Reviews: Neuroscience, Kalivas laid out his “glutamate homeostasis hypothesis of addiction.”
A failure of the prefrontal cortex to control drug-seeking behaviors can be linked to an enduring imbalance between synaptic and non-synaptic glutamate, termed glutamate homeostasis. The imbalance in glutamate homeostasis engenders changes in neuroplasticity that impair communication between the prefrontal cortex and the nucleus accumbens. Some of these pathological changes are amenable to new glutamate- and neuroplasticity-based pharmacotherapies for treating addiction.
This kind of research has at least a chance of leading in the direction of additional candidates for anti-craving drugs, without which many addicts are never going to successfully treat their disease.
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Labels:
acamprosate,
addiction,
dopamine,
glutamate,
glutamine,
neuroplasticity,
nucleus accumbens
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