Cancer Drugs are 10,000 Times Stronger Than Chemo Therapy
Cancer, yes this disease has claimed millions of people every year and increasingly dangerous and endangered because of diet, toxins, pesticides and pollutants we consume every day that we did not even realize. Read more
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Pronunciation: NIGH-truhs OX-eyed
Chemical Abstracts Service Registry Number: 10024-97-2
Formal Names: Dinitrogen Monoxide, Dinitrogen Oxide, Entonox
Informal Names: Fall Down, Gas, Hippie Crack, Hysteria, Laughing Gas, Nitro, Nitrous, Nitrous Acid, Noss, Pan, Shoot the Breeze, Tanks, Thrust, Whippets
Type: Inhalant. Federal Schedule Listing: Unlisted USA Availability: Nonprescription, but sales and usage are controlled in some jurisdictions Read more
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Pronunciation: OH-pi-uhm
Chemical Abstracts Service Registry Number: 8008-60-4
Formal Names: Papaver album, Papaver somniferum, Poppy
Informal Names: Ah-pen-yen, Aunti, Aunti Emma, Big O, Black, Blackjack, Black Pill, Black Stuff, Chandoo, Chandu, Chinese, Chinese Molasses, Chinese Tobacco, Chocolate, Cruz, Dopium, Dover, Dover’s Deck, Dover’s Powder, Dreamer, Dream Gun, Dreams, Dream Stick, Easing Powder, Emma, Fi-Do-Nie, Garden-Poppy, Gee, God’s Medicine, Goma, Gondola, Gong, Goric, Great Tobacco, Gum, Guma, Hard Stuff, Hocus, Hop, Indonesian Bud, Joy, Joy Plant, Mawseed, Midnight Oil, Mira, Mud, O, Oil, OJ, OP, Ope, Pen Yan, Pen Yen, PG, Pin Gon, Pin Yen, Plant, PO, Pox, Skee, Tar, Tongs, Tox, Toxy, Toys, When- Shee, Winshee, Yen Shee Suey, Ze, Zero
Type: Depressant (opiate class).
Federal Schedule Listing: Schedule II (DEA no. 9600)
USA Availability: Prescription
Pregnancy Category: C Read more
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Pronunciation: NUT-mehg
Chemical Abstracts Service Registry Number: 84082-68-8
Formal Names: Mace, Myristica fragrans
Type: Hallucinogen.
Federal Schedule Listing: Unlisted
USA Availability: Nonprescription (food)
Pregnancy Category: None Read more
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Pentazocine (Fortral, Fortralgesic, Fortralin, Fortwin, Liticon, Pentgin, Sosegon, Sosenyl, Talacen, Talwin, Talwin Nx)
Pronunciation: pen-TAZ-oh-seen
Chemical Abstracts Service Registry Number: 359-83-1. (Hydrochloride form 64024-15-3)
Formal Names: Fortral, Fortralgesic, Fortralin, Fortwin, Liticon, Pentgin, Sosegon, Sosenyl, Talacen, Talwin, Talwin Nx
Informal Names: 4 4s, Teacher, Ts, Yellow Footballs. Combination with methylphenidate:
Crackers, 1s & 1s, Poor Man’s Heroin, Ritz & Ts, Ts & Rits, Ts & Rs, Sets. Combination with tripelennamine: Ts & Blues, Ts & Bs
Type: Depressant.
Federal Schedule Listing: Schedule IV (DEA no. 9709)
USA Availability: Prescription
Pregnancy Category: C
Uses.
Pentazocine became available in the 1960s. Some authorities classify the drug as an opioid; some do not. Rather than having cross-tolerance with opiates and opioids, pentazocine can provoke a withdrawal syndrome from them. Volunteers who receive pentazocine have been uncertain about what sort of drug it is; some say it is a hallucinogen; some think they are receiving
alcohol.
Pentazocine has about the same pain relief strength as codeine. An experiment using oral surgery patients found pentazocine’s pain relief to be the same as aspirin’s. After drug abusers began grinding down Talwin tablets and injecting the powder to get morphine and heroin sensations, the manufacturer introduced Talwin Nx tablets, which include a chemical designed to block those sensations if the substance is injected. Dispute exists about whether the Nx version of Talwin actually prevents effects sought by illicit users.
Research indicates that women surgical patients tend to get better pain relief from pentazocine than male patients. Research also indicates that the drug’s surgical pain control is more effective for older patients and less effective for neurotics and for individuals with outgoing personalities.
The drug has been routinely used to ease cancer pain and has had success in reducing joint pain
caused by various afflictions, including arthritis. After noting that pentazocine does not prolong bleeding times, researchers called it suitable to fight pain from hemophilia, a blood disease that promotes bleeding. The substance has also been given as a treatment for stubborn cases of hiccups.
Investigators have documented that people can briefly experience euphoria after taking the drug. Some users feel more amiable and serene after a dose. Drawbacks. Unwanted pentazocine actions include rapid heartbeat, blood pressure changes (up or down), fainting, sweating, confusion, sleepiness, blurred vision, nausea, vomiting, and constipation. Studies have found that
1% to 10% of persons receiving the drug (especially an injectable pharmaceutical version) have odd psychological reactions such as hallucinations, delusions, or a sense of unreality about the world. The substance can interfere with decision making and physical movement. Research has shown that driving skills decline when a person uses the drug, and users should avoid operating
motor vehicles or other dangerous machinery. Because pentazocine has occasionally been associated with seizures, it should be used cautiously by persons prone to that affliction. The substance should also be used cautiously by people suffering from pancreas malfunction or breathing difficulty. The drug may be particularly hazardous for asthma sufferers who are overly sensitive to aspirin. Pentazocine is associated with skin hardening, which can result in
extensive surgical removal of affected areas, to be replaced with skin grafts.
Case reports tell of the drug provoking not only skin lesions but internal lesions in the digestive tract. Prolonged use of the substance can also cause muscle destruction that cripples a person’s ability to move arms and legs. The compound can dangerously reduce white blood cell levels. Rat experiments indicate the drug may provoke attacks of porphyria, a body chemistry disease
that can make people violent and sensitive to light.
One group of researchers documented that pentazocine increased the heart’s workload by 22% in cardiac disease patients. Another group found that after a heart attack the drug increases blood pressure and the heart’s need for oxygen and concluded that pentazocine is dangerous for heart attack patients.
Not all authorities agree with that conclusion, however; some say that such adverse cardiac effects can be avoided through careful dosage, and other opinion says the drug is preferable to morphine for heart attack patients.
Abuse factors.
Some abusers inject powder from oral pentazocine tablets.
Oral pentazocine tablets contain ingredients not intended for introduction into the bloodstream, and injection can be fatal even though the digestive system can handle the same ingredients without difficulty.
Pentazocine and the antihistamine-anesthetic tripelennamine are a common illicit drug combination called Ts & Blues, sometimes used as a substitute for heroin (“T” standing for Talwin and “Blues” for the antihistamine tablets’ color). The combination can create more euphoria than pentazocine alone produces and reduce the discontent caused by some doses of pentazocine. Users report development of memory trouble. Lung damage is a classic consequence of the combination, promoted by injecting oral formats of the drugs. Users
have been hospitalized with chest pain, anxiety, spasms, sweating, nausea, and lightheadedness. Fainting and seizures are less common problems. Kidney damage has been noted. Other antihistamines can also be dangerous to use with pentazocine.
Pentazocine tolerance and dependence can occur. After daily doses were given to monkeys for six weeks, mild withdrawal symptoms appeared when the animals received nalorphine, a substance that provokes withdrawal signs if someone has been using opioids. That result supports classifying pentazocine as an opioid, but in humans nalorphine does not cause pentazocine withdrawal— a result consistent with pentazocine not being an opioid. Pentazocine
withdrawal is normally likened to a light version of the opiate withdrawal syndrome, although case reports tell of some persons suffering intense physical discomfort for up to two weeks (cramping muscles, painful abdomen and back, nausea, itching, sweating, and general discomposure). Debate exists about whether pentazocine addiction should be treated by substituting other drugs such as methadone or whether treatment should avoid substitution
altogether. Some authorities have wondered if pentazocine addiction occurs in persons who are not polydrug abusers. Some authorities even question whether pentazocine addiction exists, noting cases in which body fluid testing contradicted drug users’ claims to be using the drug (while indicating they were using other substances). German researchers found that addiction reports are at least exaggerated; upon investigation, only 8 of 60 reports turned out to be authentic.
Drug interactions.
Persons who smoke or who live in a polluted air environment may need higher doses of pentazocine than persons who breathe clean air. Morphine and pentazocine boost each other’s pain-relieving action. Alcohol and possibly monoamine oxidase inhibitors (found in some antidepressants) may react badly with pentazocine.
Cancer.
Animal research has not shown pentazocine to cause cancer.
Pregnancy.
Normal production of litters has occurred when pentazocine was given to pregnant rats and rabbits, and no birth defects were apparent.
The drug is absorbed by the fetus if a pregnant woman takes a dose. Examination of one hospital’s records of all pregnant patients who used pentazocine illicitly in a two-year period showed that their infants tended to be premature and undersized, but no malformation was attributed to the drug. Newborns were occasionally dependent. Despite those disadvantages the children seemed to develop normally in their first year of life. When pentazocine was given simply as a pain reliever in childbirth, examination of the infants revealed no difference from children born to women who did not receive a medical dose of the drug during childbirth.
A study found Ts & Blues mothers to have an increased rate of assorted diseases that would not promote healthy fetal development: hepatitis, anemia, gonorrhea, syphilis. Such afflictions indicate a risk-taking lifestyle in which prenatal care is a small concern. A survey of maternity records at one hospital showed that pregnant women who used Ts & Blues tended to produce smaller infants, but no major birth defects were associated with the drug combination.
Another study found behavioral abnormalities in newborns that had fetal exposure to Ts & Blues, although the conduct may simply have been a temporary sign of drug withdrawal. Investigators running a rat experiment, however, noted long-term behavioral differences between a group of rats having fetal exposure to the drug combination and another group that was unexposed.
Additional scientific information may be found in:
Brogden, R.N., T.M. Speight, and G.S. Avery. “Pentazocine: A Review of Its Pharmacological
Properties, Therapeutic Efficacy and Dependence Liability.” Drugs 5
(1973): 6–91.
Debooy, V.D., et al. “Intravenous Pentazocine and Methylphenidate Abuse during
Pregnancy. Maternal Lifestyle and Infant Outcome.” American Journal of Diseases
of Children 147 (1993): 1062–65.
“Pentazocine.” British Medical Journal 2 (1970):409–10.
Saarialho-Kere, U., M.J. Mattila, and T. Seppala. “Parenteral Pentazocine: Effects on
Psychomotor Skills and Respiration, and Interactions with Amitriptyline.” European
Journal of Clinical Pharmacology 35 (1988): 483–89.
Showalter, C.V. “T’s and Blues: Abuse of Pentazocine and Tripelennamine.” Journal of
the American Medical Association 244 (1980): 1224–25.
Zacny, J.P., et al. “Comparing the Subjective, Psychomotor and Physiological Effects of
Intravenous Pentazocine and Morphine in Normal Volunteers.” Journal of Pharmacology
and Experimental Therapeutics 286 (1998): 1197–207.
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Pronunciation: OH-pi-uhm
Chemical Abstracts Service Registry Number: 8008-60-4
Formal Names: Papaver album, Papaver somniferum, Poppy
Informal Names: Ah-pen-yen, Aunti, Aunti Emma, Big O, Black, Blackjack, Black Pill, Black Stuff, Chandoo, Chandu, Chinese, Chinese Molasses, Chinese Tobacco, Chocolate, Cruz, Dopium, Dover, Dover’s Deck, Dover’s Powder, Dreamer, Dream Gun, Dreams, Dream Stick, Easing Powder, Emma, Fi-Do-Nie, Garden-Poppy, Gee, God’s Medicine, Goma, Gondola, Gong, Goric, Great Tobacco, Gum, Guma, Hard Stuff, Hocus, Hop, Indonesian Bud, Joy, Joy Plant, Mawseed, Midnight Oil, Mira, Mud, O, Oil, OJ, OP, Ope, Pen Yan, Pen Yen, PG, Pin Gon, Pin Yen, Plant, PO, Pox, Skee, Tar, Tongs, Tox, Toxy, Toys, When- Shee, Winshee, Yen Shee Suey, Ze, Zero
Type: Depressant (opiate class).
Federal Schedule Listing: Schedule II (DEA no. 9600)
USA Availability: Prescription
Pregnancy Category: C
Uses.
Many opium products are discussed elsewhere in this book, but here we are dealing with the substance from which all those products originate. Opium has long been used to relieve pain, fight coughs, cure diarrhea, and control spasms. Traditionally, opium is dried sap harvested from the seedproducing portion of opium poppy plants. At harvest time fields of poppies can have a strong smell, and children in the fields can be overcome by those airborne chemicals. A modern opium variety is “poppy straw,” composed of dry or liquid extracts from the plant. The natural product can be used by itself or can be refined to produce various drugs known as “opiates,” valued for their medicinal effects.
Archaeologists have found evidence of opium poppy cultivation dating from 15,000 years ago, but examination of historical records has not proven that ancient peoples understood opium’s medicinal benefits; the product may have been used traditionally but without understanding how or even whether it worked. Opium may have been used in Roman Empire religious ceremonies, perhaps exploiting the drug’s effects to symbolize a process of death and reincarnation, and even older records imply that ancients may have believed that opium could produce happiness, although evidence of ancient recreational use is nonexistent.
The Opium War from 1840 to 1842 was the first drug war, followed by the second Opium War of 1856 to 1860. These military conflicts were fought against China by England and other European powers in order to force the Chinese government to legalize the opium trade (certainly a goal different from that of the “drug war” familiar to Americans as the twenty-first century
began).
Opium and its morphine component were widely used to treat wounded soldiers in the American Civil War, and later historians have routinely said that addiction became so common that it was called “the soldier’s disease.” Such illness may have existed, but an investigator who diligently examined medical writings from that time found none that attributed postwar addictions to war-related medical use. In that era the opium trade was legal, and someone who analyzed opium import statistics found no evidence that consumption rose due to Civil War addictions; a distinguished authority has noted that people of that era called dysentery “the soldier’s disease.”
Just before World War I an article in the Journal of the American Medical Association declared, “If the entire materia medica at our disposal were limited to the choice and use of only one drug, I am sure that a great many, if not the majority, of us would choose opium; and I am convinced that if we were to select, say half a dozen of the most important drugs in the Pharmacopeia,
we should all place opium in the first rank.”1 Although many useful drugs have been discovered since then, opium is still the basis for many standard medications. Because opium is a natural product, its morphine content can vary greatly from batch to batch. Opium commercially processed for medical use is adjusted so that 10% of any given amount of medical opium is composed of morphine.
Although medical opinion about opium has changed little, public opinion has changed a lot. Reasons for that shift go beyond the scope of this book, but in the nineteenth century, use of opium and its derivatives had wide social approval in America. Alcohol was considered more hazardous to health and home. One of the most telling measures of approval came from the life insurance industry in India, which freely granted policies to known opium users, as mortality statistics showed opium having no effect on life span. A life insurance official reported similar experience in China, although older users in China had higher mortality than older nonusers (probably many users took the drug for diseases that nonusers did not have, with the death rate
related more to those diseases than to opium). Some of those statistics would change as the twentieth century progressed because drug laws would change the kinds of people who used opium, thereby associating opium with populations having higher mortality for reasons unrelated to opium’s drug properties.
Although identified with China, opium has been grown in the United States. In the late eighteenth century Benjamin Franklin used laudanum (typically wine laced with opium) to treat himself for kidney stones. During the nineteenth century Americans used opium mainly as an ingredient in laudanum and paregoric. Paregoric is a liquid including anise, camphor, and opium. Paregoric was first produced in the eighteenth century as an asthma medicine.
The compound is no longer used for that purpose but can reduce lung congestion by helping people to cough up mucus. Paregoric is a standard diarrhea remedy and is used to help infants suffering from drug withdrawal syndromes. In the 1960s the compound had a flurry of popularity among opiate addicts who would process the product in hopes of isolating the opium, then inject the substance they produced. The outcomes were typical of what happens when oral medications are injected, resulting in lung damage and disfiguring injuries to injection sites.
Less familiar modern opium preparations include home remedy mixtures of the substance with caffeine, aspirin, and acetaminophen (Tylenol or other brands). In America opium preparations were once a standard method of quieting noisy infants and children, and that practice is still followed in some parts of the world. One hazard in that custom is the possibility of fatal overdose,
as people administering such concoctions do not always understand pediatric dosage.
Drawbacks.
Although some opium users have generally unhealthy lifestyles, few ailments have been attributed solely to the drug. Those ailments tend to be in the gastrointestinal tract, such as problems with the small intestine’s bile duct. “Cauliflower ear,” in which an ear thickens and becomes misshapen, was once associated with opium smoking. The affliction, however,
apparently came not from the drug but rather from the habit of lying down for hours in a comatose condition with an ear pressing against a hard surface.
Abuse factors.
Recreational use of opium is harder to define than we might think, because even if persons take the drug in a social setting, they can be seeking to reduce mental anxiety or physical pain, which is not the same as using a drug for fun. Some people swallow dry opium or drink tea made with
seed or with dried heads of poppy flowers. In the nineteenth century poppy tea was a common medicinal drink, but in the early twenty-first century the habit tends to be limited to opiate addicts. The traditional recreational way to use opium is to inhale its smoke. Heating opium enough to make it smoke can reduce the drug content, and opium is already far weaker than substances refined from it (such as morphine and heroin). One authority estimates that
the amount of active drug inhaled by someone who smokes a given weight of opium will typically be 300 to 400 times less than the drug content in the same weight of injected heroin. Moreover, while an entire dose of heroin might be ingested in a few seconds, a pipeful of opium is smoked over a much longer period to slowly savor its effects, further reducing the opium’s impact. The English poet Samuel Taylor Coleridge started out using opium for medical purposes, as did Thomas De Quincey, and both men produced classic accounts of hallucinations and creative inspiration occurring under opium’s influence. Those accounts and later ones may well be true, but for such results people need to be particularly sensitive to the drug and also be prone to such experiences regardless of pharmaceutical encouragement. Arsenic is sometimes added to opium to increase smokers’ interest in sexual activity, a practice generating reports of arsenic poisoning among users. Drug interactions. Not enough scientific information to report about the natural product, although many studies have examined drug interactions with opiates and opioids.
Cancer.
Laboratory tests find that opium smoke may cause cancer, as may opium dross (waste products, such as scrapings from the inside of an opium pipe, which some persons chew or suck). Opium is suspected of causing esophageal and bladder cancer.
Pregnancy.
A pregnant woman using paregoric can give birth to an infant having dependence with opium.
Additional information.
Seed from opium poppies is a food product commonly used in breads, cakes, and candies. Consumption of amounts found in a normal meal can cause a false opiate positive in drug screens; controversy exists about whether further analysis of results from such testing can show
that poppy seed was the cause. Poppy seed oil is a comparatively unfamiliar product, but animal tests indicate it has good potential for human nutrition. In some parts of the world iodized poppy seed oil has been used instead of iodized salt to treat goiter and has been suggested as a means of preventing nervous endemic cretinism caused by iodine deficiency in the diet of pregnant
women. Iodized poppy seed oil is taken up by cancerous portions of a liver, giving the substance clinical usefulness if anticancer drugs are blended into it, as the drugs then concentrate exactly where they are needed in the liver. Results from animal research have led investigators to speculate that consuming normal poppy seed oil may help prevent cancer.
Opium lettuce is not related to opium but can produce mild sensations similar to opium. Sedative and pain relief qualities of opium lettuce have been used for centuries. Lung and urinary tract afflictions have been treated with it. Opium lettuce is smoked for recreational purposes, but results have not caused the practice to gain popularity. A case report tells of individuals who
received medical care after injecting a preparation made from the plant. It has other names including Acrid Lettuce, Bitter Lettuce, Compass Plant, Great Lettuce, Green Endive, Lactucarium, Lactuca virosa, Poison Lettuce, Prickly Lettuce, Strong-Scented Lettuce, and Wild Lettuce.
Additional scientific information may be found in:
Aurin, M. “Chasing the Dragon: The Cultural Metamorphosis of Opium in the United
States, 1825–1935.” Medical Anthropology Quarterly 14 (2000): 414–41.
Gharagozlou, H., and M.T. Behin. “Frequency of Psychiatric Symptoms among 150
Opium Addicts in Shiraz, Iran.” International Journal of the Addictions 14 (1979):
1145–49.
Goodhand, J. “From Holy War to Opium War? A Case Study of the Opium Economy
in North-Eastern Afghanistan.” Disasters 24 (2000): 87–102.
Haller, J.S. “Opium Usage in Nineteenth Century Therapeutics.” Bulletin of the New
York Academy of Medicine 65 (1989): 591–607.
Kalant, H. “Opium Revisited: A Brief Review of Its Nature, Composition, Non-Medical
Use and Relative Risks.” Addiction 92 (1997): 267–77.
Lerner, A.M., and F.J. Oerther. “Characteristics and Sequelae of Paregoric Abuse.” Annals
of Internal Medicine 65 (1966): 1019–30.
Quinones, M.A. “Drug Abuse during the Civil War (1861–1865).” International Journal
of the Addictions 10 (1975): 1007–20.
Strang, J. “Lessons from an English Opium Eater: Thomas De Quincey Reconsidered.”
International Journal of the Addictions 25 (1990): 1455–65.
Note
1. 64 (February 6, 1915): 477.
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Pronunciation: NUT-mehg
Chemical Abstracts Service Registry Number: 84082-68-8
Formal Names: Mace, Myristica fragrans
Type: Hallucinogen.
Federal Schedule Listing: Unlisted
USA Availability: Nonprescription (food)
Pregnancy Category: None
Uses.
Nutmeg is a familiar spice, but when used in larger amounts, it can act as a drug. Nutmeg originated in the Spice Islands of Indonesia. It is a seed coming from an evergreen tree that can reach 45 feet in height. Folk medicine uses nutmeg for treating insomnia, mouth sores, stomach inflammation, gas, diarrhea, and vomiting. Animal research verifies the antiinsomnia and antidiarrhea properties; they have been observed among humans undergoing formal
medical care, and recreational users mention sleep-inducing action. The substance is also used as an aphrodisiac, and laboratory tests show that it kills headlice. Nutmeg may be able to help improve dysentery, infections, and rheumatism. In rabbit experiments, nutmeg lowered cholesterol levels and aided in coughing up mucus. Nutmeg, like many other spices, has antimicrobial actions that appear to retard spoilage of unrefrigerated food.
Nutmeg can produce false positives for marijuana in a field test that law enforcement officers have used to identify an unknown substance, but of course more sophisticated laboratory examination can correct such an error.
Drawbacks.
A nutmeg dose sufficient to produce hallucinations is also sufficient to produce headache, thirst, nausea, constipation, rapid heartbeat, dizziness, and a miserable hangover. Muscular discoordination can be severe enough to mimic multiple sclerosis. Research on cats produced liver destruction. All these results are from dosage quantities much higher than the small
amounts used for spicing foods.
Abuse factors.
Nutmeg is not considered addictive, although a case report notes a patient hospitalized for nutmeg poisoning, who craved the substance so much that he had a supply smuggled to him during his hospital stay. The report said he was never able to go beyond two weeks without nutmeg.
Some researchers are skeptical that nutmeg possesses hallucinogenic qualities, but for centuries numerous users have said otherwise. Betel chewers sometimes add nutmeg to a quid for extra sensations, and mixing tobacco with nutmeg is a practice reported in Asia. Research indicates that human body chemistry converts part of a nutmeg dose into substances related to amphetamine, affecting mood and sometimes causing hallucinations. The effects from a dose can last three days. Overdose requiring medical intervention is possible, although only one fatality is recorded. Nutmeg has received mixed reviews as a recreational drug. Some people call it incomparable; others resort to it only as an act of desperation when nothing else is available. A favorable description says nutmeg is “capable of removing one completely from the
world of reality in a hypnotic trance accompanied by golden dreams and euphoric bliss.”1 In contrast, someone who used nutmeg together with marijuana received emergency hospital treatment for gagging, hot and cold flashes, numbness, blurred vision, double vision, triple vision, and difficulty in controlling movements—among other complaints. Persons who use nutmeg by
itself have also reported bad experiences.
Drug interactions.
In a mice experiment nutmeg boosted actions of alcohol and reduced those of dextroamphetamine. One authority describes nutmeg as a weak monoamine oxidase inhibitor (MAOI), and MAOIs interact badly with many drugs described in this blog.
Cancer.
A laboratory test using a nutmeg extract found evidence that it might cause cancer, and a nutmeg experiment with mice produced DNA changes that might be related to eventual cancer.
Pregnancy.
Male mice that received nutmeg in an experiment did not show chromosome damage. A case report notes a normal full-term infant born to a woman who had experienced nutmeg poisoning during pregnancy, but pregnant women are advised to avoid using nutmeg as a drug.
Additional information.
As with many other natural products, nutmeg’s effects may be produced by the combination of hundreds of chemicals found in the substance. Researchers have identified several chemicals as likely causes of nutmeg’s effects: elemicin, eugenol, myristicin, and safrole. Under laboratory
conditions myristicin can be chemically converted to MDMA and safrole to MDA, but this conversion has never been detected in animals or humans.
Body chemistry does convert myristicin into substances resembling amphetamine.
Myristicin is found not only in nutmeg but in plants related to carrots. An experiment testing myristicin on rats found no poisonous result. Researchers found no evidence of cancer after dosing mice with the substance, but the study did not last long enough to reveal whether cancer would eventually develop. Myristicin’s potential for causing birth defects is unknown. Safrole
has a faint ability to promote cancer; pregnant women are advised to avoid using it as a drug.
Mace comes from the same seed as nutmeg does, but is a different spice. Folk medicine uses mace to reduce inflammation and pain; research indicates it can protect against some chemically caused cancers. Mace is routinely added to areca nut quids.
Additional scientific information may be found in:
Fras, I., and J.J. Friedman. “Hallucinogenic Effects of Nutmeg in Adolescent.” New York
State Journal of Medicine 69 (1969): 463–65.
Lewis, P.W., and D.W. Patterson. “Acute and Chronic Effects of the Voluntary Inhalation
of Certain Commercial Volatile Solvents by Juveniles.” Journal of Drug
Issues 4 (1974): 172.
Lewis, W.H., and M.P.F. Elvin-Lewis. Medical Botany: Plants Affecting Man’s Health. New
York: John Wiley & Sons, 1977. 408–10.
Panayotopoulos, D.J., and D.D. Chisholm. “Hallucinogenic Effect of Nutmeg.” British
Medical Journal 1 (1970): 754.
Sjoholm, A., A. Lindberg, and M. Personne. “Acute Nutmeg Intoxication.” Journal of
Internal Medicine 243 (1998): 329–31.
Van Gils, C., and P.A. Cox. “Ethnobotany of Nutmeg in the Spice Islands.” Journal of
Ethnopharmacology 42 (1994): 117–24.
Weiss, G. “Hallucinogenic and Narcotic-Like Effects of Nutmeg.” Psychiatric Quarterly
34 (1960): 346–56.
Note
1. W.H. Lewis and M.P.F. Elvin-Lewis, Medical Botany: Plants Affecting Man’s Health
(New York: John Wiley & Sons, 1977), 408.
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Pronunciation: NIGH-truhs OX-eyed
Chemical Abstracts Service Registry Number: 10024-97-2
Formal Names: Dinitrogen Monoxide, Dinitrogen Oxide, Entonox
Informal Names: Fall Down, Gas, Hippie Crack, Hysteria, Laughing Gas, Nitro, Nitrous, Nitrous Acid, Noss, Pan, Shoot the Breeze, Tanks, Thrust, Whippets
Type: Inhalant.
Federal Schedule Listing: Unlisted
USA Availability: Nonprescription, but sales and usage are controlled in some
jurisdictions
Uses.
This drug has been known since the 1720s. Some authorities describe nitrous oxide as an opioid; some persons even use the gas to counteract effects from stimulants. Nitrous oxide actions and its recreational use are similar to those of other inhalants. Recreational use is illegal in some jurisdictions but has a venerable history. The writer Samuel Taylor Coleridge, thesaurus compiler Peter Mark Roget, and potter Josiah Wedgwood were all eighteenthcentury notables who relaxed with nitrous oxide.
Although this substance is a pharmaceutical product, it also occurs naturally. For instance, eating lettuce generates enough nitrous oxide that scientists can measure it in a person’s breath. Large quantities are produced by wild prairie grass. Humans do not receive enough nitrous oxide from such natural sources to be affected, however. The substance is also produced by the human
body. One study found the amount to increase as oral hygiene declined. As with the amounts produced by grass and lettuce, the level created by the body is too small to have any known effect on a person. From a global environmental perspective, however, nitrous oxide is a gas that promotes the greenhouse effect and ozone layer destruction, and concern exists about medical
usage affecting the world’s climate. Medical sources are estimated to create 2% of the atmosphere’s supply. Such usage may seem insignificant in that regard, but the gas is so durable in the atmosphere that any artificial source has been described as an environmental hazard.
Medically this drug is used as an anesthetic and to relieve pain ranging from dental work to migraine headache and cancer. In a medical context nitrous oxide is considered a reliable sedative. Experimental usage to treat anxiety has been successful, and one authority has noted a therapeutic antidepressant action. The substance has been used to help persons break entazocine addiction. Researchers report success in using the gas to ease alcohol,
nicotine, and opioid withdrawal and to reduce craving for alcohol, tobacco, and marijuana among addicts. The latter three substances are so different from one another that nitrous oxide’s ability to reduce craving for all of them is remarkable. Some medical practitioners claim that a single dose of the gas actually eliminates craving for those substances, but that claim sounds much
like those made for other “miracle cure” addiction treatments over the years but that turned out to be overly optimistic.
In former times, nitrous oxide was used to fight ear afflictions. For many years the substance was believed to make hearing more acute, but tests of hearing ability while using the compound show no improvement—and volunteers in those tests even felt they had lesser ability to detect soft sounds.
Nitrous oxide can increase pressure in the middle ear, and a case report tells of treatable hearing loss caused by the drug. Hearing defect has been reported from recreational use as well.
Typical nitrous oxide actions are tingling, numbness, dreaminess, euphoria, dysphoria (the opposite of euphoria), altered sensory perceptions, changed awareness of the body, and different experience of time flow. Although nitrous oxide is not classified as a hallucinogen, some descriptions of experiences are indistinguishable from hallucinations, particularly if a user is talented at creating internal imagery. Some persons claim to achieve mystical insight
while under the drug’s influence. Intoxication from a dose lasts only a few minutes.
Drawbacks.
The substance disrupts learning ability. That action has been exploited medically to promote amnesia of unpleasant procedures. In a typical experiment volunteers who inhaled a low dose of the drug showed worsened reaction time, worsened ability to do arithmetic, and general sedation accompanied by nervous system depression (as opposed to stimulation). Interference with driving ability has been noted one-half hour after a dose. In another experiment volunteers felt stimulated; in still another experiment some individuals were sedated, and others became stimulated. One group became weary, uneasy, and confused. Short-term exposure can cause dizziness, nausea, vomiting, and breathing difficulty. Some recreational users quickly inhale
as much nitrous oxide as possible and hold their breath. This technique causes a sudden change of pressure inside the lungs and can rupture small interior structures needed for breathing. Blood pressure can go up or down, depending on dosage. Users can lose consciousness, which may be hazardous in a recreational context due to falls or inability to shut off the gas source. The
substance deactivates vitamin B12, an effect that can cause numbness and difficulty in moving arms and legs. Other results can be impotence and involuntary discharge of urine and feces. Nitrous oxide interferes with blood clotting, and long-term exposure has caused blood abnormalities. Persons with chronic industrial exposure have more kidney and liver disease than usual.
Nitrous oxide can become very cold when released as a gas from a pressurized container, cold enough to cause frostbite upon meeting skin or throat.
Breathing nitrous oxide without an adequate supply of oxygen can be fatal; a little in a closed space or a lot from a face mask can suffocate a user. Although nitrous oxide is called nonflammable, when inhaled it can seep into the abdominal cavity and bowels, mixing with body gases to create a flammable combination. If ignited the result would be like setting off an explosive inside the body; the danger is real enough that surgical personnel administering
nitrous oxide as an anesthetic have been warned about it.
As with many other drugs, effects of nitrous oxide can be influenced by changes in setting. For example, volunteers who knew what to expect performed better on tests than persons who had no information about what nitrous oxide would do to them.
Abuse factors.
In tests of the drug’s appeal, people in general chose nitrous oxide no more often than placebo; such lack of preference is a classic sign of low addictive potential. One experiment revealed a catch to such findings, however: Volunteers who enjoyed nitrous oxide effects chose it more often than placebo, and volunteers who disliked the drug actions chose it less often
than placebo. Thus, overall in the general population the drug might be no more attractive than placebo, but nonetheless some persons may find it captivating.
Such a finding is consistent with drugs having high abuse potential, such as heroin; so the fact that persons typically find no attraction in nitrous oxide does not prove low abuse potential for nitrous oxide. Its nickname “hippie crack” suggests that users have recognized an abuse potential. Nonetheless, a medical practitioner who administered the gas as a drug addiction
treatment said that in 15,000 cases not a single addict indicated subsequent craving for nitrous oxide; such a patient population would be expected to show particular susceptibility if given a substance with abuse potential. The same practitioner notes that regardless of theoretical possibilities, 200 years of experience demonstrate that nitrous oxide is among the least abused drugs.
Tolerance develops in rats. Human experimentation documents tolerance developing to some effects (such as euphoria and pain relief) but not necessarily to all.
Drug interactions.
In an experiment comparing light drinkers of alcohol to moderate drinkers, the moderate drinkers found nitrous oxide more appealing. One group of researchers found that alcohol boosts nitrous oxide effects and that the drug combination creates effects produced by neither substance alone. Those researchers concluded, however, that the combination was not
potent enough to have more appeal than nitrous oxide alone. That conclusion assumes, of course, that drug abusers base their conduct on rational analysis of scientific findings. In a similar experiment comparing users and nonusers of marijuana, when given a choice neither group preferred nitrous oxide more than a placebo, but nitrous oxide effects felt stronger to marijuana users. In rats ketamine boosts effects from nitrous oxide. In a human medical context
that combination is routine and appears safe, but the combination causes brain damage in rats. Persons using morphine or other opiates can experience muscle rigidity when inhaling nitrous oxide, a situation that can interfere with breathing.
Cancer.
Studies do not indicate that nitrous oxide causes cancer in animals. Whether the drug causes cancer in humans is unknown. Genetic damage similar to the amount from daily smoking 10 to 20 cigarettes has been found in health care workers routinely exposed to minuscule amounts of nitrous oxide; such damage might have a potential for causing cancer.
Pregnancy.
Fertility is lower in female rats exposed to nitrous oxide than in rats having no exposure. Lower fertility has also been observed among female health care workers with occupational exposure to the gas, and reduced fertility is also reported for males. Offspring of male mice exposed to nitrous oxide have weighed less than normal and have not matured as fast as normal.
Birth defects resulted from an experiment exposing pregnant rats to the gas for 24 hours. When given to pregnant women during childbirth the drug builds up in the fetal blood and brain; one authority recommends administering oxygen to any newborn whose mother received nitrous oxide while giving birth. As the twenty-first century began researchers reported that the
gas might cause permanent fetal and newborn brain damage, a finding in contrast to previous understanding of the drug. Occupational exposure to nitrous oxide is associated with smaller infants and lower birth weight and may increase likelihood of spontaneous abortion. Pregnant and breast-feeding health workers are advised to avoid rooms where nitrous oxide residues may
contaminate the air. Sperm abnormalities and lower fertility have been noted in male rats exposed to nitrous oxide. Wives of men exposed to the gas have shown a higher spontaneous abortion rate, compared to wives of men with no exposure. The compound is not detected in milk of nursing mothers.
Additional information.
“Nitrous acid” is an unstable nitrite substance. The nickname “nitrous acid” is sometimes used for nitrous oxide, but they are different substances.
Additional scientific information may be found in:
Block, R.I., et al. “Psychedelic Effects of a Subanesthetic Concentration of Nitrous Oxide.”
Anesthesia Progress 37 (1990): 271–76.
Danto, B.L. “A Bag Full of Laughs.” American Journal of Psychiatry 121 (1964): 612–13.
Dohrn, C.S., et al. “Subjective and Psychomotor Effects of Nitrous Oxide in Healthy
Volunteers.” Behavioural Pharmacology 3 (1992): 19–30.
Linden, C.H. “Volatile Substances of Abuse.” Emergency Medicine Clinics of North America
8 (1990): 559–78.
Temple, W.A., D.M. Beasley, and D.J. Baker. “Nitrous Oxide Abuse from Whipped
Cream Dispenser Chargers.” New Zealand Medical Journal 110 (1997): 322–23.
Yagiela, J.A. “Health Hazards and Nitrous Oxide: A Time for Reappraisal.” Anesthesia
Progress 38 (1991): 1–11.
Zacny, J.P., et al. “Examining the Subjective, Psychomotor and Reinforcing Effects of
Nitrous Oxide in Healthy Volunteers: A Dose-Response Analysis.” Behavioural
Pharmacology 7 (1996): 194–99.
