Methamphetamine

 Methamphetamine (USAN) ( listen ) (also known as methamfetamine (INN), N-methylamphetamine, methylamphetamine, and desoxyephedrine) is a psychostimulant of the phenethylamine and amphetamine class of psychoactive drugs. When used illicitly, methamphetamine is commonly referred to as "crystal meth", "meth", "ice", or "glass".

Methamphetamine increases alertness, concentration, energy, and in high doses, may induce euphoria, enhance self-esteem and increase libido. Methamphetamine has high potential for abuse and addiction, activating the psychological reward system by triggering a cascading release of dopamine in the brain. Methamphetamine is FDA approved for the treatment of ADHD and exogenous obesity. It is dispensed in the USA under the trademark name Desoxyn.

As a result of methamphetamine-induced neurotoxicity to dopaminergic neurons, chronic abuse may also lead to post acute withdrawals which persist beyond the withdrawal period for months, and even up to a year. Research has found that 20% of methamphetamine addicts experience a psychosis resembling schizophrenia which persists for longer than six months post-methamphetamine use; this amphetamine psychosis can be resistant to traditional treatment. In addition to psychological harm, physical harm, primarily consisting of cardiovascular damage, may occur with chronic use or acute overdose.

Medical use


Methamphetamine has been FDA approved for the treatment of ADHD and exogenous obesity in children and adults under the trademark name Desoxyn.

Desoxyn may also be prescribed off-label for the treatment of narcolepsy and treatment-resistant depression.

Physical
Physical effects can include anorexia, hyperactivity, dilated pupils, flushing, restlessness, dry mouth, headache, tachycardia, bradycardia, tachypnea, hypertension, hypotension, hyperthermia, diaphoresis, diarrhea, constipation, blurred vision, dizziness, twitching, insomnia, numbness, palpitations, arrhythmias, tremors, dry and/or itchy skin, acne, pallor, and with chronic and/or high doses, convulsions, heart attack, stroke, and death can occur.

Psychological
Psychological effects can include euphoria, anxiety, increased libido, alertness, concentration, increased energy, increased self-esteem, self-confidence, sociability, irritability, aggressiveness, psychosomatic disorders, psychomotor agitation, dermatillomania, delusions of grandiosity, hallucinations, excessive feelings of power and invincibility, repetitive and obsessive behaviors, paranoia, and with chronic and/or high doses, amphetamine psychosis can occur.

Withdrawal
Withdrawal symptoms of methamphetamine primarily consist of fatigue, depression and an increased appetite. Symptoms may last for days with occasional use and weeks or months with chronic use, with severity dependent on the length of time and the amount of methamphetamine used. Withdrawal symptoms may also include anxiety, irritability, headaches, agitation, akathisia, hypersomnia (excessive sleeping), vivid or lucid dreams, deep REM sleep and suicidal ideation.

Long-term
Methamphetamine use has a high association with depression and suicide as well as serious heart disease, amphetamine psychosis, anxiety and violent behaviours. Methamphetamine also has a very high addiction risk. Methamphetamine is neurotoxic and is associated with an increased risk of Parkinson's disease. Methamphetamine abuse can cause neurotoxicity which is believed to be responsible for causing persisting cognitive deficits, such as memory, impaired attention and executive function. Over 20 percent of people addicted to methamphetamine develop a long-lasting psychosis resembling schizophrenia after stopping methamphetamine which persists for longer than 6 months and is often treatment resistant.

Tolerance
As with other amphetamines, tolerance to methamphetamine is not completely understood but known to be sufficiently complex that it cannot be explained by any single mechanism. The extent of tolerance and the rate at which it develops vary widely between individuals, and, even within one person, it is highly dependent on dosage, duration of use, and frequency of administration. Tolerance to the awakening effect of amphetamines does not readily develop, making them suitable for the treatment of narcolepsy.

Short-term tolerance can be caused by depleted levels of neurotransmitters within the synaptic vesicles available for release into the synaptic cleft following subsequent reuse (tachyphylaxis). Short-term tolerance typically lasts until neurotransmitter levels are fully replenished; because of the toxic effects on dopaminergic neurons, this can be greater than 2–3 days. Prolonged overstimulation of dopamine receptors caused by methamphetamine may eventually cause the receptors to downregulate in order to compensate for increased levels of dopamine within the synaptic cleft. To compensate, larger quantities of the drug are needed in order to achieve the same level of effects.

Reverse tolerance or sensitization can also occur. The effect is well established, but the mechanism is not well understood.

Addiction
Methamphetamine is highly addictive. While the withdrawal itself may not be dangerous, withdrawal symptoms are common with heavy use and relapse is common.

Methamphetamine-induced hyperstimulation of pleasure pathways leads to anhedonia. It is possible that daily administration of the amino acids L-tyrosine and L-5HTP/tryptophan can aid in the recovery process by making it easier for the body to reverse the depletion of dopamine, norepinephrine, and serotonin. Although studies involving the use of these amino acids have shown some success, this method of recovery has not been shown to be consistently effective.

It is shown that taking ascorbic acid prior to using methamphetamine may help reduce acute toxicity to the brain, as rats given the human equivalent of 5–10 grams of ascorbic acid 30 minutes prior to methamphetamine dosage had toxicity mediated, yet this will likely be of little avail in solving the other serious behavioral problems associated with methamphetamine use and addiction that many users experience. Large doses of ascorbic acid also lower urinary pH, reducing methamphetamine's elimination half-life and thus decreasing the duration of its actions.

To combat addiction, doctors are beginning to use other forms of stimulants such as dextroamphetamine, the dextrorotatory (right-handed) isomer of the amphetamine molecule, to break the addiction cycle in a method similar to the use of methadone in the treatment of heroin addicts. There are no publicly available drugs comparable to naloxone, which blocks opiate receptors and is therefore used in treating opiate dependence, for use with methamphetamine problems. However, experiments with some monoamine reuptake inhibitors such as indatraline have been successful in blocking the action of methamphetamine. There are studies indicating that fluoxetine, bupropion and imipramine may reduce craving and improve adherence to treatment. Research has also suggested that modafinil can help addicts quit methamphetamine use.

Methamphetamine addiction is one of the most difficult forms of addictions to treat. Bupropion, aripiprazole, and baclofen have been employed to treat post-withdrawal cravings, although the success rate is low. Modafinil is somewhat more successful, but this is a Class IV scheduled drug. Ibogaine has been used with success in Europe, where it is a Class I drug and available only for scientific research. Mirtazapine has been reported useful in some small-population studies.

As the phenethylamine phentermine is a constitutional isomer of methamphetamine, it has been suggested that it may be effective in treating methamphetamine addiction. Phentermine is a central nervous system stimulant that acts on dopamine and norepinephrine. When comparing (+)-Amphetamine, (+/-)-ephedrine, and phentermine, one key difference among the three drugs is their selectivity for norepinephrine (NE) release vs. dopamine (DA) release. The NE/DA selectivity ratios for these drugs as determined in vitro [(EC(50) NE(-1))/(EC(50) DA(-1))] are (+/-)-ephedrine (18.6) > phentermine (6.7) > (+)-amphetamine (3.5).

Abrupt interruption of chronic methamphetamine use results in the withdrawal syndrome in almost 90% of the cases.

The mental depression associated with methamphetamine withdrawal lasts longer and is more severe than that of cocaine withdrawal.

Meth mouth
Methamphetamine users and addicts may lose their teeth abnormally quickly, a condition informally known as meth mouth. According to the American Dental Association, meth mouth "is probably caused by a combination of drug-induced psychological and physiological changes resulting in xerostomia (dry mouth), extended periods of poor oral hygiene, frequent consumption of high-calorie, carbonated beverages and bruxism (teeth grinding and clenching). Some reports have also speculated that the caustic nature of the drug is a contributing factor. Similar, though far less severe, symptoms have been reported in clinical use of regular amphetamine, where effects are not exacerbated by extended periods of poor oral hygiene.

Public health issues


Short-term exposure to high concentrations of chemical vapors that may exist in methamphetamine laboratories can cause severe health problems or even result in death. Exposure to these substances can occur from volatile air emissions, spills, fires, and explosions. Methamphetamine labs are often discovered when fire fighters respond to a blaze. Methamphetamine cooks, their families, and first responders are at highest risk of acute health effects from chemical exposure, including lung damage and chemical burns to the body. Following a seizure of a methamphetamine lab, there is often a low exposure risk to chemical residues, however this contamination should be sanitized. Chemical residues and lab wastes that are left behind at a former methamphetamine lab can result in severe health problems for people who use the property, therefore local health departments should thoroughly assess the property for hazards prior to allowing it to be reinhabited, especially by children. Those seeking home ownership in heavy meth use areas should be especially careful while house hunting and be sure to have properties inspected before purchasing.

Pregnancy and breastfeeding
Methamphetamine present in a mother's bloodstream passes through the placenta to a fetus, and is also secreted into breast milk. Infants born to methamphetamine-abusing mothers were found to have a significantly smaller gestational age-adjusted head circumference and birth weight measurements. Methamphetamine exposure was also associated with neonatal withdrawal symptoms of agitation, vomiting and tachypnea. This withdrawal syndrome is relatively mild and only requires medical intervention in approximately 4% of cases.

Risk of sexually transmitted disease
Men who use methamphetamine, cocaine, MDMA, and ketamine are twice as likely to have unprotected sex, according to British research. American psychologist Perry N. Halkitis performed an analysis using data collected from community-based participants among gay and bisexual men to examine the associations between their methamphetamine use and sexual risk taking behaviors. Methamphetamine use was found to be related to higher frequencies of unprotected sexual intercourse in both HIV-positive and unknown casual partners in the study population. The association between methamphetamine use and unprotected acts were also more pronounced in HIV-positive participants. These findings suggested that methamphetamine use and engagement in unprotected anal intercourse are co-occurring risk behaviors that potentially heighten the risk of HIV transmission among gay and bisexual men. Methamphetamine allows users of both sexes to engage in prolonged sexual activity, which may cause genital sores and abrasions. Methamphetamine can also cause sores and abrasions in the mouth via bruxism (teeth clenching and grinding), which can turn typically low-risk sex acts, such as oral sex, into high-risk sexual activity. As with the injection of any drug, if a group of users share a common needle without sterilization procedures, blood-borne diseases, such as HIV or hepatitis, can be transmitted. The level of needle sharing among methamphetamine users is similar to that among other drug injection users.

Pharmacokinetics


Following oral administration, methamphetamine is readily absorbed into the bloodstream, with peak plasma concentrations achieved in approximately 3.13 to 6.3 hours post ingestion. The amphetamine metabolite peaks at 10 to 24 hours. Methamphetamine is also well absorbed following inhalation and following intranasal administration. It is distributed to most parts of the body. Methamphetamine is known to produce central effects similar to the other stimulants, but at smaller doses, with fewer peripheral effects. Methamphetamine's high lipophilicity also allows it to cross the blood brain barrier faster than other stimulants, where it is more stable against degradation by monoamine oxidase (MAO).

Methamphetamine is metabolized in the liver with the main metabolites being amphetamine (active) and 4-hydroxymethamphetamine; other minor metabolites include 4-hydroxyamphetamine, norephedrine, and 4-hydroxynorephedrine. Other drugs metabolized to amphetamine and methamphetamine include benzphetamine, furfenorex, and famprofazone. Selegiline (marketed as Deprenyl, EMSAM, and others) is metabolized into the less active L-isomer of amphetamine and the inactive L-isomer of methamphetamine. Although only the D-Isomer of selegiline will metabolize into active metabolites, both isomers may cause a positive result for methamphetamine and amphetamine on a drug test, in certain cases.

It is excreted by the kidneys, with the rate of excretion into the urine heavily influenced by urinary pH. Between 30-54% of an oral dose is excreted in urine as unchanged methamphetamine and 10-23% as unchanged amphetamine. Following an intravenous dose, 45% is excreted as unchanged parent drug and 7% amphetamine. The half-life of methamphetamine is variable with a mean value of between 9 and 12 hours.

Detection in biological fluids
Methamphetamine and amphetamine are often measured in urine, sweat or saliva as part of a drug-abuse testing program, in plasma or serum to confirm a diagnosis of poisoning in hospitalized victims, or in whole blood to assist in a forensic investigation of a traffic or other criminal violation or a case of sudden death. Chiral techniques may be employed to help distinguish the source of the drug, whether obtained legally (via prescription) or illicitly, or possibly as a result of formation from a prodrug such as famprofazone or selegiline. Chiral separation is needed to assess the possible contribution of l-methamphetamine (Vicks Inhaler) toward a positive test result.

Pharmacology


A member of the family of phenethylamines, methamphetamine is chiral, with two isomers, levorotatory and dextrorotatory. The levorotatory form, called levomethamphetamine, is an over-the-counter drug used in inhalers for nasal decongestion. Levomethamphetamine does not possess any significant central nervous system activity or addictive properties. This article deals only with the dextrorotatory form, called dextromethamphetamine, and the racemic form.

Methamphetamine is a potent central nervous system stimulant that affects neurochemical mechanisms responsible for regulating heart rate, body temperature, blood pressure, appetite, attention, mood and emotional responses associated with alertness or alarming conditions. The acute physical effects of the drug closely resemble the physiological and psychological effects of an epinephrine-provoked fight-or-flight response, including increased heart rate and blood pressure, vasoconstriction (constriction of the arterial walls), bronchodilation, and hyperglycemia (increased blood sugar). Users experience an increase in focus, increased mental alertness, and the elimination of fatigue, as well as a decrease in appetite. It is known to produce central effects similar to the other stimulants, but at smaller doses, with fewer peripheral effects. Methamphetamine's fat solubility also allows it to enter the brain faster than other stimulants, where it is more stable against degradation by monoamine oxidase (MAO).

The methyl group is responsible for the potentiation of effects as compared to the related compound amphetamine, rendering the substance on the one hand more lipid-soluble, enhancing transport across the blood-brain barrier, and on the other hand more stable against enzymatic degradation by monoamine oxidase (MAO). Methamphetamine causes the norepinephrine, dopamine, and serotonin (5HT) transporters to reverse their direction of flow. This inversion leads to a release of these transmitters from the vesicles to the cytoplasm and from the cytoplasm to the synapse (releasing monoamines in rats with ratios of about NE:DA = 1:2, NE:5HT = 1:60), causing increased stimulation of post-synaptic receptors. Methamphetamine also indirectly prevents the reuptake of these neurotransmitters, causing them to remain in the synaptic cleft for a prolonged period (inhibiting monoamine reuptake in rats with ratios of about: NE:DA = 1:2.35, NE:5HT = 1:44.5).

Methamphetamine is a potent neurotoxin, shown to cause dopaminergic degeneration. High doses of methamphetamine produce losses in several markers of brain dopamine and serotonin neurons. Dopamine and serotonin concentrations, dopamine and 5HT uptake sites, and tyrosine and tryptophan hydroxylase activities are reduced after the administration of methamphetamine. It has been proposed that dopamine plays a role in methamphetamine-induced neurotoxicity, because experiments that reduce dopamine production or block the release of dopamine decrease the toxic effects of methamphetamine administration. When dopamine breaks down, it produces reactive oxygen species such as hydrogen peroxide.

It is likely that the approximate twelvefold increase in dopamine levels and subsequent oxidative stress that occurs after taking methamphetamine mediates its neurotoxicity. The lab of David Sulzer and colleagues at Columbia University developed a technique known as "intracellular patch electrochemistry" to measure concentrations of dopamine in the cytosol, and found massive increases following methamphetamine, leading to the "cytosolic dopamine hypothesis" of neurotoxicity, in which dopamine oxidation, particularly close to synaptic vesicles, produce oxidative stress that in turn leads to exacerbation of autophagy that can destroy axons and dendrites.

Recent research published in the Journal of Pharmacology And Experimental Therapeutics (2007) indicates that methamphetamine binds to and activates a G protein-coupled receptor called TAAR1. TAARs are a newly discovered receptor family whose members are activated by a number of amphetamine-like molecules called trace amines, thyronamines, and certain volatile odorants.

It has been demonstrated that a high ambient temperature increases the neurotoxic effects of methamphetamine.

Natural occurrence
Methamphetamine has been reported to occur naturally in Acacia berlandieri, and possibly Acacia rigidula, trees that grow in West Texas. Methamphetamine and regular amphetamine were long thought to be strictly human-synthesized, but Acacia trees contain these and numerous other psychoactive compounds (e.g., mescaline, nicotine, dimethyltryptamine), and the related compound β-phenethylamine is known to occur from numerous Acacia species.

Routes of administration


Studies have shown that the subjective pleasure of drug use (the reinforcing component of addiction) is proportional to the rate at which the blood level of the drug increases. These findings suggest the route of administration used affects the potential risk for psychological addiction independently of other risk factors, such as dosage and frequency of use. Intravenous injection is the fastest route of drug administration, causing blood concentrations to rise the most quickly, followed by smoking, suppository (anal or vaginal insertion), insufflation (snorting), and ingestion (swallowing). Ingestion does not produce a rush, an acute transcendent state of euphoria as forerunner to the high experienced with the use of methamphetamine, which is most pronounced with the intravenous route of administration. Whilst the onset of the rush induced by injection can occur in as little as a few seconds, the oral route of administration requires approximately half an hour before the high sets in.

Injection
Injection, also known as "slamming", "banging", "shooting up" or "mainlining", is a popular method used by addicts which carries relatively greater risks than other methods of administration. The hydrochloride salt of methamphetamine is soluble in water. Intravenous users may use any dose range, from less than 100 milligrams to over one gram, using a hypodermic needle, although it should be noted that typically street methamphetamine is "cut" with a water-soluble cutting material, which constitutes a significant portion of a given street methamphetamine dose. Intravenous users risk developing pulmonary embolism (PE), a blockage of the main artery of the lung or one of its branches, and commonly develop skin rashes (also known as "speed bumps") or infections at the site of injection. As with the injection of any drug, if a group of users share a common needle without sterilization procedures, blood-borne diseases, such as HIV or hepatitis, can be transmitted.

Smoking
Smoking amphetamines refers to vaporizing it to inhale the resulting fumes, not burning it to inhale the resulting smoke. It is commonly smoked in glass pipes made from glassblown Pyrex tubes and light bulbs. It can also be smoked off aluminium foil, which is heated underneath by a flame. This method is also known as "chasing the white dragon" (whereas smoking heroin is known as "chasing the dragon"). There is little evidence that methamphetamine inhalation results in greater toxicity than any other route of administration. Lung damage has been reported with long-term use, but manifests in forms independent of route (pulmonary hypertension (PH)), or limited to injection users (pulmonary embolism (PE)).

Insufflation
Another popular route to intake methamphetamine is insufflation (snorting), where a user crushes the methamphetamine into a fine powder and then sharply inhales it (sometimes with a straw or a rolled up banknote, as with cocaine) into the nose where methamphetamine is absorbed through the soft tissue in the mucous membrane of the sinus cavity and straight into the bloodstream. Insufflation of methamphetamine can cause chemical damage to teeth, as it draws methamphetamine down the nasal passage, draining in the back of the throat and saturating the teeth with the caustic substances used in its illicit production.

Suppository
Suppository (anal or vaginal insertion) is a less popular method of administration used in the community with comparatively little research into its effects. Information on its use is largely anecdotal with reports of increased sexual pleasure and the effects of the drug lasting longer, though as methamphetamine is centrally active in the brain, these effects are likely experienced through the higher bioavailability of the drug in the bloodstream (second to injection) and the faster onset of action (than insufflation). Nicknames for the route of administration within some methamphetamine communities include a "butt rocket", a "booty bump", "potato thumping", "turkey basting", "plugging", "boofing", "suitcasing", "hooping", "keistering", "shafting", "bumming", and "shelving" (vaginal).

History


Methamphetamine was first synthesized from ephedrine in Japan in 1893 by chemist Nagai Nagayoshi. The term "methamphetamine" was derived from elements of the chemical structure of this new compound: methyl alpha-methylphenylethylamine. In 1919, crystallized methamphetamine was synthesized by Akira Ogata via reduction of ephedrine using red phosphorus and iodine. In 1943, Abbott Laboratories requested for its approval from the U.S. Food and Drug Administration (FDA) for the treatment of narcolepsy, mild depression, postencephalitic parkinsonism, chronic alcoholism, cerebral arteriosclerosis, and hay fever. Methamphetamine was approved for all of these indications in December, 1944. All of these indication approvals were eventually removed. The only two approved marketing indications remaining for methamphetamine are for attention-deficit hyperactivity disorder (ADHD) and the short-term management of exogenous obesity, although the drug is clinically established as effective in the treatment of narcolepsy.

World War II
One of the earliest uses of methamphetamine was during World War II, when it was used by Axis and Allied forces. The German and Finnish militaries dispensed it under the trademark name Pervitin. It was widely distributed across rank and division, from elite forces to tank crews and aircraft personnel, with many millions of tablets being distributed throughout the war. From 1942 until his death in 1945, Adolf Hitler may have been given intravenous injections of methamphetamine by his personal physician Theodor Morell. It is possible that it was used to treat Hitler's speculated Parkinson's disease, or that his Parkinson-like symptoms that developed from 1940 onwards resulted from using methamphetamine. In Japan, methamphetamine was sold under the registered trademark of Philopon (ヒロポン) by Dainippon Sumitomo Pharma for civilian and military use. As with the rest of the world at the time, the side effects of methamphetamine were not well studied, and regulation was not seen as necessary.

Post-war usage
After World War II, a large Japanese military stockpile of methamphetamine, known by its trademark Philopon, flooded the market. The Japanese Ministry of Health banned it in 1951; since then, it has been increasingly produced by the Yakuza criminal organization. On the streets, it is also known as S, Shabu, and Speed, in addition to its old trademarked name. In the 1950s, there was a rise in the legal prescription of methamphetamine to the American public. In the 1954 edition of Pharmacology and Therapeutics, indications for methamphetamine included "narcolepsy, postencephalitic parkinsonism, alcoholism, certain depressive states, and in the treatment of obesity." The 1960s saw the start of significant use of clandestinely manufactured methamphetamine, initially in the 1960s mainly produced by motorcycle gangs, as well as beginning in the 1990s the production of methamphetamine created in users' own homes for personal and recreational use which continues to this day.

Trademark Litigation
In 1948, the Philopon trademark came under a well-publicized lawsuit by Philips Corporation. Philips under its Koninklijke division filed suit against Dainippon Sumitomo Pharma to cease using Philipon as the commercial name for methamphetamine claiming that they had the exclusive right to use the trademark as a portmanteau of Philips and Nippon, the Japanese name of the country. DSP's attorneys challenged Philips' standing to sue as a foreign (Dutch) corporation. The matter was ultimately settled out of court in 1952, with Dainippon Sumitomo Pharma agreeing to pay Philips a 5% royalty on worldwide sales of methamphetamines sold by DSP under the Philopon label. The Japanese Ministry of Health banned production less than a year later.

Synthesis


Synthesis is relatively simple, but entails risk with flammable and corrosive chemicals, particularly the solvents used in extraction and purification; therefore, illicit production is often discovered by fires and explosions caused by the improper handling of volatile or flammable solvents. Most of the necessary chemicals are readily available in household products or over-the-counter cold or allergy medicines. When illicitly produced, methamphetamine is commonly made by the reduction of ephedrine or pseudoephedrine. The maximum conversion rate for ephedrine and pseudoephedrine is 92%, although typically, illicit methamphetamine laboratories convert at a rate of 50% to 75%.

Most methods of illicit production involve protonation of the hydroxyl group on the ephedrine or pseudoephedrine molecule. Methamphetamine is most structurally similar to methcathinone and amphetamine. The most common method for small-scale methamphetamine labs in the United States is primarily called the "Red, White, and Blue Process", which involves red phosphorus, pseudoephedrine or ephedrine (white), and iodine (which is technically a purple color in elemental form), from which hydroiodic acid is formed. In Australia, criminal groups have been known to substitute "red" phosphorus with either hypophosphorous acid or phosphorous acid. This is a hazardous process for amateur chemists, because phosphine gas, a side-product from in situ hydroiodic acid production, is extremely toxic to inhale.

Another common method uses the Birch reduction (also called the "Nazi method"), in which metallic lithium, commonly extracted from non-rechargeable lithium batteries, is substituted for difficult-to-find metallic sodium. However, the Birch reduction is dangerous because the alkali metal and liquid anhydrous ammonia are both extremely reactive, and the temperature of liquid ammonia makes it susceptible to explosive boiling when reactants are added.

A completely different procedure of synthesis uses the reductive amination of phenylacetone with methylamine, both of which are currently DEA list I chemicals (as are pseudoephedrine and ephedrine). The reaction requires a catalyst that acts as a reducing agent, such as mercury-aluminum amalgam or platinum dioxide, also known as Adams' catalyst. This was once the preferred method of production by motorcycle gangs in California, until DEA restrictions on the chemicals made the process difficult. Other less common methods use other means of hydrogenation, such as hydrogen gas in the presence of a catalyst.

Methamphetamine labs can give off noxious fumes, such as phosphine gas, methylamine gas, solvent vapors, acetone or chloroform, iodine vapors, white phosphorus, anhydrous ammonia, hydrogen chloride/muriatic acid, hydrogen iodide, lithium and sodium gases, ether, or methamphetamine vapors. If performed by amateurs, manufacturing methamphetamine can be extremely dangerous. If the red phosphorus overheats, because of a lack of ventilation, phosphine gas can be produced. This gas is highly toxic and, if present in large quantities, is likely to explode upon autoignition from diphosphine, which is formed by overheating phosphorus.

In recent years, reports of a simplified "Shake 'n Bake" synthesis have surfaced. The method is suitable for such small batches that pseudoephedrine restrictions are less effective, it uses chemicals that are easier to obtain (though no less dangerous than traditional methods), and it is so easy to carry out that some addicts have made the drug while driving. Producing methamphetamine in this fashion can be extremely dangerous and has been linked to several fatalities.

Production and distribution


Until the early 1990s, methamphetamine for the U.S. market was made mostly in labs run by drug traffickers in Mexico and California. Indiana state police found 1,260 labs in 2003, compared to just 6 in 1995, although this may be partly a result of increased police activity. As of 2007, drug and lab seizure data suggests that approximately 80 percent of the methamphetamine used in the United States originates from larger laboratories operated by Mexican-based syndicates on both sides of the border and that approximately 20 percent comes from small toxic labs (STLs) in the United States.

Mobile and motel-based methamphetamine labs have caught the attention of both the U.S. news media and the police. Such labs can cause explosions and fires and expose the public to hazardous chemicals. Those who manufacture methamphetamine are often harmed by toxic gases. Many police departments have specialized task forces with training to respond to cases of methamphetamine production. The National Drug Threat Assessment 2006, produced by the Department of Justice, found "decreased domestic methamphetamine production in both small and large-scale laboratories", but also that "decreases in domestic methamphetamine production have been offset by increased production in Mexico." The report concluded that "methamphetamine availability is not likely to decline in the near term."

In July 2007, Mexican officials at the port of Lázaro Cárdenas seized a ship carrying 19 tons of pseudoephedrine, a raw material needed for methamphetamine. The shipment originated in Hong Kong and passed through the United States at the port of Long Beach prior to its arrival in Mexico.

In the United States, illicit methamphetamine comes in a variety of forms with prices varying widely over time. Most commonly, it is found as a colorless crystalline solid. Impurities may result in a brownish or tan color. Colorful flavored pills containing methamphetamine and caffeine are known as yaa baa (Thai for "crazy medicine").

An impure form of methamphetamine is sold as a crumbly brown or off-white rock, commonly referred to as "peanut butter crank". It may be diluted or cut with non-psychoactive substances like inositol, isopropylbenzylamine or dimethylsulfone. Another popular method is to combine methamphetamine with other stimulant substances, such as caffeine or cathine, into a pill known as a "Kamikaze", which can be particularly dangerous due to the synergistic effects of multiple stimulants. It may also be flavored with high-sugar candies, drinks, or drink mixes to mask the bitter taste of the drug. Coloring may be added to the meth, as is the case with "Strawberry Quick".

Society and culture
Methamphetamine abuse is recognized as a social problem in many areas.

North Korea
North Korea might also be facing one of the world's worst meth epidemics. Although the privacy of the North means that any report may be only approximate, there have been an increasing number of signs that meth is very widespread throughout the country, used both recreationally and as medicine.

Legal status
The production, distribution, sale, and possession of methamphetamine is restricted or illegal in many jurisdictions. Methamphetamine has been placed in Schedule II of the United Nations Convention on Psychotropic Substances treaty.

United States


In 1983, laws were passed in the United States prohibiting possession of precursors and equipment for methamphetamine production. This was followed a month later by a bill passed in Canada enacting similar laws. In 1986, the U.S. government passed the Federal Controlled Substance Analogue Enforcement Act in an attempt to curb the growing use of designer drugs. Despite this, use of methamphetamine expanded from its initial base in California throughout the rural United States, especially through the Midwest and South. "Government officials in a majority of U.S. counties now report that meth is their counties’ most serious drug problem. Meth use is said to be particularly rampant in the American western states, where the substance is in high demand. States like Montana, South Dakota, Idaho, Colorado and Arizona have all launched extensive efforts – both private and public – to fight the meth menace."

Since 1989, five U.S. federal laws and dozens of state laws have been imposed in an attempt to curb the production of methamphetamine. Methamphetamine can be produced in home laboratories using pseudoephedrine or ephedrine, which, at the time, were the active ingredients in over-the-counter drugs such as Sudafed and Contac. Preventive legal strategies of the past 17 years have steadily increased restrictions to the distribution of pseudoephedrine/ephedrine-containing products. As a result "pharmaceutical companies and retailers such as Target, Walgreens, CVS, Kroger and Winn-Dixie have restricted sales of pseudoephedrine-containing products. Purchasers have been limited to buying small quantities and required to show I.D. to purchase them."

Attorney General Janet Reno was very outspoken in warning mayors, police chiefs and the Judicial and Executive branches of the Federal government and as a Florida States' Attorney about the dangers of meth (-amphetamines) as early as 1996 and before. She was reported by the Orlando Sentinel as commenting that illegal trafficking in methamphetamine, a dangerous and powerful stimulant, had been spreading rapidly across the United States. She appeared at the 68th session of the United States Conference of Mayors Winter Meeting in Washington, D.C. in 2000 with President Clinton and others to discuss social and law enforcement dangers of the drug nationally, especially in medium-sized and rural communities in order to deal with "the rapidly emerging issue of meth in America, discuss the unique needs of smaller and mid-sized communities to deal with the crisis, and develop prevention, treatment and interdiction strategies for meth which can then be applied to cities of all sizes as the methamphetamine crisis spreads across the nation."

As a result of the U.S. Combat Methamphetamine Epidemic Act of 2005 (CMEA), which was passed as an amendment to the renewal of the USA PATRIOT Act, there are restrictions on the amount of pseudoephedrine and ephedrine one may purchase in a specified time period and further requirements that these products must be stored in order to prevent theft. "The CMEA requires record-keeping and identification of all sales and reports to law enforcement of any "suspicious" transactions. Purchasers are limited to "3.6 grams of pseudoephedrine base" per day and 9 grams per month. (Buying more than that is a federal misdemeanor.)" Increasingly strict restrictions have resulted in the reformulation of many over-the-counter drugs, and some, such as Actifed, have been discontinued entirely in the United States.

Meth lab waste is extremely hazardous and toxic. Waste cleanup is a major issue for authorities and property owners. Common wastes include brake cleaner, ammonia, soda bottles, kitty litter, lithium batteries, engine starter, matches, and pseudoephedrine blister packs.

Slang terms
Nicknames for methamphetamine are numerous and vary from region to region.

Some common nicknames for methamphetamine in the English speaking world include:


 * "meth"
 * "shard"
 * "ice"
 * "gas"
 * "puff"
 * "gear"
 * "GOey"
 * "glass"
 * "shaboo"
 * "shabs"
 * "crystal"
 * "crystal meth"
 * "snap, crackle, pop"
 * "okie coke"
 * "tweak"
 * "Tina" (gay community)
 * "batu"
 * "batunas"
 * "crank"
 * "white"


 * "Rizz"

Methamphetamine may also be referred to as "speed", a nickname that is commonly used for racemic or dextrorotary amphetamine, which differs from methamphetamine by the absence of a methyl group in its chemical formula.

Some common nicknames for methamphetamine in various regions include:


 * "tik" (South Africa)
 * "vint" (Russian for "a screw", Russia)
 * "ya ice" (Thai for "Ice drug", Thailand)
 * "yaba" (Thailand)
 * "P" (from the "p" in "pure", New Zealand)
 * "필로폰" (Korean for "Philopon", South Korea)
 * "shabu" (Japan, Hong Kong, Philippines, Malaysia, Indonesia)
 * "bato" or "shabu" (Philippines)
 * "batu kilat" (Malaysian for "shining rocks", Malaysia)
 * "piko" (after the trade name "Pervitin", Czech Republic, Slovakia, Poland)
 * "peří" (in translation "feathers", phonetically similar to "Pervitin", Czech Republic)
 * "perník" (in translation "gingerbread", phonetically similar to "Pervitin", Czech Republic)
 * "شیشه" (in translation "Glass" transliterate to "Shishe", Iran)
 * "dimineata speciala aurie" (in translation "Special golden morning", Romania)
 * "đá" (Vietnamese for "ice", Vietnam)
 * "Пико" (Bulgarian for pure meta amphetamine, Bulgaria)
 * "Bala" (Brazilian Portuguese for methaeanogetamine pills, Brazil)
 * "ספיד" (Hebrew for methaeanogetamine crystal, Israel)

Note: In Russia, "vint" specifically refers to a very impure homemade form of methamphetamine.

Documentaries

 * The Ice Age by ABC Australia—Australian methamphetamine use.
 * The Meth Epidemic—Frontline episode
 * The World's Most Dangerous Drug—National Geographic.
 * The City Addicted to Crystal Meth—BBC (Louis Theroux)

Academic sources

 * History and Epidemiology of Amphetamine Abuse in United States
 * Methamphetamine, the Crystal Method, and the War on Drugs
 * The Methamphetamine Crisis in American Indian and Native Alaskan Communities

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