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Formula | C31H27NO5 |
Molar mass | 493.559 g·mol−1 |
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Dibenzoylmorphine is an opiate analogue that is a derivative of morphine. It was developed in the early 1900s after first having been synthesised in 1875 in the UK by the CR Alders Wright organisation at Bayer, along with various other esters of morphine. It was never used medically, instead being widely sold as one of the first "designer drugs" for around five years following the introduction of the first international restrictions on the sale of heroin in 1925. It is described as being virtually identical to heroin and morphine in its effects, and consequently was itself banned internationally in 1930 by the Health Committee of the League of Nations, in order to prevent its sale as an unscheduled alternative to diacetylmorphine. [1] However, it still continues to occasionally be encountered as a result of home manufacture from morphine by drug users. [2]
It is produced in the same fashion as other esters of morphine—treating morphine with an acid anhydride (or some acids or other relatives of acids like acetyl chloride) to get a mono-, di-, tri-, or tetra-ester. Specifically, the original 1875 synthesis was effected by boiling morphine for 2 hours in benzoic anhydride at 130 °C, as was heroin made by using acetic anhydride.
Heroin, also known as diacetylmorphine and diamorphine among other names, is a morphinan opioid substance synthesized from the dried latex of the Papaver somniferum plant; it is mainly used as a recreational drug for its euphoric effects. Medical-grade diamorphine is used as a pure hydrochloride salt. Various white and brown powders sold illegally around the world as heroin are routinely diluted with cutting agents. Black tar heroin is a variable admixture of morphine derivatives—predominantly 6-MAM (6-monoacetylmorphine), which is the result of crude acetylation during clandestine production of street heroin. Heroin is used medically in several countries to relieve pain, such as during childbirth or a heart attack, as well as in opioid replacement therapy.
Morphine is a strong opiate that is found naturally in opium, a dark brown resin produced by drying the latex of opium poppies. It is mainly used as an analgesic. There are numerous methods used to administer morphine: oral; sublingual; via inhalation; injection into a muscle, injection under the skin, or injection into the spinal cord area; transdermal; or via rectal suppository. It acts directly on the central nervous system (CNS) to induce analgesia and alter perception and emotional response to pain. Physical and psychological dependence and tolerance may develop with repeated administration. It can be taken for both acute pain and chronic pain and is frequently used for pain from myocardial infarction, kidney stones, and during labor. Its maximum effect is reached after about 20 minutes when administered intravenously and 60 minutes when administered by mouth, while the duration of its effect is 3–7 hours. Long-acting formulations of morphine are available as MS-Contin, Kadian, and other brand names as well as generically.
Opium is dried latex obtained from the seed capsules of the opium poppy Papaver somniferum. Approximately 12 percent of opium is made up of the analgesic alkaloid morphine, which is processed chemically to produce heroin and other synthetic opioids for medicinal use and for the illegal drug trade. The latex also contains the closely related opiates codeine and thebaine, and non-analgesic alkaloids such as papaverine and noscapine. The traditional, labor-intensive method of obtaining the latex is to scratch ("score") the immature seed pods (fruits) by hand; the latex leaks out and dries to a sticky yellowish residue that is later scraped off and dehydrated. The word meconium historically referred to related, weaker preparations made from other parts of the opium poppy or different species of poppies.
Clandestine chemistry is chemistry carried out in secret, and particularly in illegal drug laboratories. Larger labs are usually run by gangs or organized crime intending to produce for distribution on the black market. Smaller labs can be run by individual chemists working clandestinely in order to synthesize smaller amounts of controlled substances or simply out of a hobbyist interest in chemistry, often because of the difficulty in ascertaining the purity of other, illegally synthesized drugs obtained on the black market. The term clandestine lab is generally used in any situation involving the production of illicit compounds, regardless of whether the facilities being used qualify as a true laboratory.
Acetic anhydride, or ethanoic anhydride, is the chemical compound with the formula (CH3CO)2O. Commonly abbreviated Ac2O, it is the simplest isolable anhydride of a carboxylic acid and is widely used as a reagent in organic synthesis. It is a colorless liquid that smells strongly of acetic acid, which is formed by its reaction with moisture in the air.
The Misuse of Drugs Act 1973 is a statute of the Parliament of Singapore that enables authorities to prosecute offenders for crimes involving illegal drugs. The law is designed specifically to grant the Government of Singapore, through its agencies such as the Central Narcotics Bureau, enforcement powers to combat offences such as the trafficking, importation or exportation, possession, and consumption of controlled drugs.
Black tar heroin, also known as black dragon, is a form of heroin that is sticky like tar or hard like coal. Its dark color is the result of crude processing methods that leave behind impurities. Despite its name, black tar heroin can also be dark orange or dark brown in appearance.
6-Monoacetylmorphine is an opioid and also one of three active metabolites of heroin (diacetylmorphine), the others being morphine and the much less active 3-monoacetylmorphine (3-MAM).
Drug injection is a method of introducing a drug into the bloodstream via a hollow hypodermic needle, which is pierced through the skin into the body. Intravenous therapy, a form of drug injection, is universally practiced in modernized medical care. As of 2004, there were 13.2 million people worldwide who self-administered injection drugs outside of medical supervision, of which 22% are from developed countries.
Nicomorphine is the 3,6-dinicotinate ester of morphine. It is a strong opioid agonist analgesic two to three times as potent as morphine with a side effect profile similar to that of dihydromorphine, morphine, and diamorphine.
Nicocodeine is an opioid analgesic and cough suppressant, an ester of codeine closely related to dihydrocodeine and the codeine analogue of nicomorphine. It is not commonly used in most countries, but has activity similar to other opiates. Nicocodeine and nicomorphine were synthesized in 1904, and introduced in 1957 by Lannacher Heilmittel of Austria. Nicocodeine is metabolised in the liver by demethylation to produce nicomorphine, also known as 6-nicotinoylmorphine, and subsequently further metabolised to morphine. Side effects are similar to those of other opiates and include itching, nausea and respiratory depression. Related opioid analogues such as nicomorphine and nicodicodeine were first synthesized. The definitive synthesis, which involves treating anhydrous codeine base with nicotinic anhydride at 130 °C, was published by Pongratz and Zirm in Monatshefte für Chemie in 1957, simultaneously with the two analogues in an article about amides and esters of various organic acids.
Dipropanoylmorphine is an opiate derivative, the 3,6-dipropanoyl ester of morphine. It was developed in 1972 as an analgesic. It is rarely used in some countries for the relief of severe pain such as that caused by terminal cancer, as an alternative to diamorphine (heroin) and morphine. The drug was first synthesised circa or about 1875 in Great Britain along with many other esters of morphine, all of which were shelved at the time, some of which were later developed such as heroin (1898), acetylpropionylmorphine (1924), dibenzoylmorphine, and so on. The name of this drug is also given as 3,6-dipropanoylmorphine and its 6-mono-acetylated homologue is also a longer-acting heroin-like drug, as are 3,6-diformylmorphine and 6-formylmorphine.
"Polish" heroin is a crude preparation of heroin made from poppy straw. It is an opiate, used recreationally as a psychoactive drug. Poppy straw, like opium, is harvested from the opium poppy. Polish heroin was used mainly in Central and Eastern Europe prior to the dissolution of the Soviet Union and the end of communist control of the countries of the Warsaw Pact or Eastern Bloc.
The illegal drug trade in China is influenced by factors such as history, location, size, population, and current economic conditions. China has one-sixth of the world's population and a large and expanding economy. China's large land mass, close proximity to the Golden Triangle, Golden Crescent, and numerous coastal cities with large and modern port facilities make it an attractive transit center for drug traffickers. Opium has played an important role in the country's history since before the First and Second Opium Wars in the mid-19th century.
The Opium Law is the section of the Dutch law which covers nearly all psychotropic drugs.
Desomorphine is a semi-synthetic opioid commercialized by Roche, with powerful, fast-acting effects, such as sedation and analgesia. It was first discovered and patented by a German team working for Knoll in 1920 but was not generally recognized. It was later synthesized in 1932 by Lyndon Frederick Small. Small also successfully patented it in 1934 in the United States. Desomorphine was used in Switzerland under the brand name Permonid and was described as having a fast onset and a short duration of action, with relatively little nausea compared to equivalent doses of morphine. Dose for dose it is eight to ten times more potent than morphine.
Acetylpropionylmorphine is an opiate analog that is an ester of morphine. It was developed in the early 1900s after first being synthesized in Great Britain in 1875 but shelved along with heroin and various other esters of morphine. Acetylpropionylmorphone was never used medically, instead being widely sold as one of the first "designer drugs" for around five years following the introduction of the first international restrictions on the sale of heroin in 1925. It is described as being virtually identical to heroin and morphine in its effects, and consequently was itself banned internationally in 1930 by the Health Committee of the League of Nations, in order to prevent its sale as an unscheduled alternative to heroin.
6-Monoacetylcodeine (6-MAC) is an acetate ester of codeine in which the hydroxyl group on the 6 position has been acetylated. It is occasionally present as an impurity in street heroin and is typically created when attempting to create heroin from a solution of morphine in which some of the codeine from the original opium solution still remains. It is formed either through the addition of acetic anhydride, which can only acetylate the 6 position on the codeine or as a result of the addition of acetic acid with a catalyst in an attempt to create 6-monoacetylmorphine, the equivalent ester of morphine which is slightly more potent than heroin itself. 6-monoacetylcodeine is eventually metabolised into codeine and then into morphine. Since only illegally produced heroin is likely to contain 6-MAC, testing for the presence of it in the urine can be used as a fairly reliable method of detecting the use of illicit heroin, as opposed to prescription painkillers. 6-MAC is the precursor for 14-hydroxycodeinenone which was the original precursor to oxycodone. The 7-8 double-bond was reduced using the hyposulfite ion to reduce the 6-7 double-bond. While the acute toxicity of 6-monoacetylcodeine has not been studied in man, animal studies have shown that in animal models its convulsant effects have been proved and when mixed with mono- or di- acetyl morphine, lowers the convulsant threshold of the mixture still further.
3,14-Diacetyloxymorphone is an opioid analgesic which has never been marketed. It is an acetyl derivative of oxymorphone. It is related to other acetylated morphone derivatives, including 3,6-diacetyloxymorphone, 3,8,14-triacetyloxymorphone, 3,6,8,14-tetraacetyloxymorphone, noroxymorphone analogs of all or most of the above, and 3,6,14-triacetyloxymorphone, a derivative of oxymorphone whose structure-activity relationship suggests is 800% the potency of the parent drug versus 250% for 3,14-diacetyoxymorphone. Both were developed in Austria in the 1920s along with other derivatives of the strong dihydromorphinones and these drugs are generated by reacting oxymorphone with either acetic anhydride or acetyl chloride at various temperatures in the 80-160 °C for several hours; 3,6,14-triacetyloxymorphone may be more easily made when a catalyst is used but elevated pressure or reaction in vacuo or under a nitrogen or noble gas atmosphere is not required.[Citation Needed]
Dibutyrylmorphine is the 3,6-dibutyryl ester of morphine, first synthesized by the CR Alders Wright organization in the United Kingdom in 1875.