Structural Scheduling Of Synthetic Cannabinoids
To combat the illicit synthetic cannabinoid industry many jurisdictions have created a system to control these cannabinoids through their general (or Markush) structure as opposed to their specific identity. In this way new analogs are already controlled before they are even created. A large number of cannabinoids have been grouped into classes based on similarities in their chemical structure, and these classes have been widely adopted across a variety of jurisdictions. Typical groups of compounds included for control may include naphthoylindoles, phenylacetylindoles, benzoylindoles, cyclohexylphenols, naphthylmethylindoles, naphthoylpyrroles, naphthylmethylindenes, indole-3-carboxamides, indole-3-carboxylates, indazole-3-carboxamides and sometimes others, each with specific substitutions on specific atoms of the molecule. The scope of definitions and the range of compounds included may vary substantially between jurisdictions, so compounds which are legal in one country or state m ...
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Synthetic Cannabinoid
Synthetic cannabinoids are a class of designer drug molecules that bind to the same receptors to which cannabinoids (THC, CBD and many others) in cannabis plants attach. These novel psychoactive substances should not be confused with synthetic phytocannabinoids (THC or CBD obtained by chemical synthesis) or synthetic endocannabinoids from which they are in many aspects distinct. Typically, synthetic cannabinoids are sprayed onto plant matter and are usually smoked, although they have also been ingested as a concentrated liquid form in the US and UK since 2016. They have been marketed as herbal incense, or "herbal smoking blends", and sold under common names like K2, spice, and synthetic marijuana. They are often labeled "not for human consumption" for liability defense. A large and complex variety of synthetic cannabinoids are designed in an attempt to avoid legal restrictions on cannabis, making synthetic cannabinoids designer drugs. Most synthetic cannabinoids are agonists o ...
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JWH-018
JWH-018 (1-pentyl-3-(1-naphthoyl)indole, NA-PIMO or AM-678) is an analgesic chemical from the naphthoylindole family that acts as a full agonist at both the CB1 and CB2 cannabinoid receptors, with some selectivity for CB2. It produces effects in animals similar to those of tetrahydrocannabinol (THC), a cannabinoid naturally present in cannabis, leading to its use in synthetic cannabis products that in some countries are sold legally as "incense blends". As a full agonist at both the CB1 and CB2 cannabinoid receptors, this chemical compound is classified as an analgesic medication. The analgesic effects of cannabinoid ligands, mediated by CB1 receptors are well established in treatment of neuropathic pain, as well as cancer pain and arthritis. These compounds work by mimicking the body's naturally-produced endocannabinoid hormones such as 2-AG and anandamide (AEA), which are biologically active and can exacerbate or inhibit nerve signaling. As the cause is poorly understood in chr ...
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O-1871
O-1871 is a potent cannabinoid agonist which was invented by Billy R Martin and Raj K Razdan at Organix Inc in 2002. It has a CB1 receptor affinity of 2.0nM and a CB2 receptor affinity of 0.3nM. Structurally, O-1871 is a cyclohexylphenol derivative related to CP 47,497, and so is illegal in some jurisdictions where CP 47,497 and its derivatives are banned. However the 3,3-dimethylcyclohexyl substituent of O-1871 can be replaced by various other groups, producing other potent compounds such as the cycloheptyl derivative O-1656 and the 2-adamantyl derivative O-1660, as well as the corresponding 3,5-dichlorophenyl derivative, which are not cyclohexylphenol derivatives. ] ] See also * CP 55,940 * Cannabidiol * Cannabicyclohexanol Cannabicyclohexanol (CCH, CP 47,497 dimethyloctyl homologue, (C8)-CP 47,497) is a cannabinoid receptor agonist drug, developed by Pfizer in 1979. On 19 January 2009, the University of Freiburg in Germany announced that an analog of CP 47,497 was ... * ...
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Hydroxyl
In chemistry, a hydroxy or hydroxyl group is a functional group with the chemical formula and composed of one oxygen atom covalently bonded to one hydrogen atom. In organic chemistry, alcohols and carboxylic acids contain one or more hydroxy groups. Both the negatively charged anion , called hydroxide, and the neutral radical , known as the hydroxyl radical, consist of an unbonded hydroxy group. According to IUPAC definitions, the term ''hydroxyl'' refers to the hydroxyl radical () only, while the functional group is called a ''hydroxy group''. Properties Water, alcohols, carboxylic acids, and many other hydroxy-containing compounds can be readily deprotonated due to a large difference between the electronegativity of oxygen (3.5) and that of hydrogen (2.1). Hydroxy-containing compounds engage in intermolecular hydrogen bonding increasing the electrostatic attraction between molecules and thus to higher boiling and melting points than found for compounds that lack this f ...
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CP 47,497
CP 47,497 or (C7)-CP 47,497 is a cannabinoid receptor agonist drug, developed by Pfizer in the 1980s. It has analgesic effects and is used in scientific research. It is a potent CB1 agonist with a ''K''d of 2.1 nM. Homologue On the 19th of January 2009, the University of Freiburg in Germany announced that an analog of CP 47,497 is the main active ingredient in the herbal "incense" product Spice, specifically the 1,1-dimethyloctyl homologue of CP 47,497. Both the dimethylheptyl and dimethyloctyl homologues were detected in different batches, with considerable variation in the concentration present in different samples that were analysed. The weaker dimethylhexyl and dimethylnonyl homologues were not found in any batches of smoking blends tested, but have been legally scheduled alongside the others in some jurisdictions, to forestall any potential use for this purpose. The 1,1-dimethyloctyl homologue of CP 47,497 is several times more potent than the parent compound, which is ...
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Cyclohexylphenol Structure General
To combat the illicit synthetic cannabinoid industry many jurisdictions have created a system to control these cannabinoids through their general (or Markush) structure as opposed to their specific identity. In this way new analogs are already controlled before they are even created. A large number of cannabinoids have been grouped into classes based on similarities in their chemical structure, and these classes have been widely adopted across a variety of jurisdictions. Typical groups of compounds included for control may include naphthoylindoles, phenylacetylindoles, benzoylindoles, cyclohexylphenols, naphthylmethylindoles, naphthoylpyrroles, naphthylmethylindenes, indole-3-carboxamides, indole-3-carboxylates, indazole-3-carboxamides and sometimes others, each with specific substitutions on specific atoms of the molecule. The scope of definitions and the range of compounds included may vary substantially between jurisdictions, so compounds which are legal in one country or state m ...
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RCS-4 Molecular Structure
RCS-4, or 1-pentyl-3-(4-methoxybenzoyl)indole, is a synthetic cannabinoid drug sold under the names SR-19, BTM-4, or Eric-4 (later shortened to E-4), but originally, OBT-199. Pharmacology RCS-4 is a potent cannabinoid receptor agonist, with EC50 values of 146 nM for human CB1 receptors, and 46 nM for human CB2 receptors. All methoxyphenyl regioisomers, and ''N''-butyl homologues of RCS-4 and its regioisomers also display potent agonist activities at CB1 and CB2 receptors. Legality RCS-4 was banned in Sweden on 1 October 2010 as a hazardous good harmful to health, after being identified as an ingredient in "herbal" synthetic cannabis products. It was outlawed in Denmark on 11 March 2011. In August 2011, New Zealand added not only RCS-4 but also its 1-butyl homologue, and the 2-methoxybenzoyl isomers of both these compounds, to a temporary class drug schedule (i.e. equivalent to Class C but reviewed after 12 months, and with personal possession and use of small amounts decrimi ...
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Methoxy
In organic chemistry, a methoxy group is the functional group consisting of a methyl group bound to oxygen. This alkoxy group has the formula . On a benzene ring, the Hammett equation classifies a methoxy substituent at the ''para'' position as an electron-donating group, but as an electron-withdrawing group if at the ''meta'' position. At the ''ortho'' position, steric effects are likely to cause a significant alteration in the Hammett equation prediction which otherwise follows the same trend as that of the ''para'' position. Occurrence The simplest of methoxy compounds are methanol and dimethyl ether. Other methoxy ethers include anisole and vanillin. Many alkoxides contain methoxy groups, e.g. tetramethyl orthosilicate and titanium methoxide. Such compounds are often classified as methoxides. Esters with a methoxy group can be referred to as methyl esters, and the —COOCH3 substituent is called a methoxycarbonyl. Biosynthesis In nature, methoxy groups are found on nucleosi ...
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RCS-4
RCS-4, or 1-pentyl-3-(4-methoxybenzoyl)indole, is a synthetic cannabinoid drug sold under the names SR-19, BTM-4, or Eric-4 (later shortened to E-4), but originally, OBT-199. Pharmacology RCS-4 is a potent cannabinoid receptor agonist, with EC50 values of 146 nM for human CB1 receptors, and 46 nM for human CB2 receptors. All methoxyphenyl regioisomers, and ''N''-butyl homologues of RCS-4 and its regioisomers also display potent agonist activities at CB1 and CB2 receptors. Legality RCS-4 was banned in Sweden on 1 October 2010 as a hazardous good harmful to health, after being identified as an ingredient in "herbal" synthetic cannabis products. It was outlawed in Denmark on 11 March 2011. In August 2011, New Zealand added not only RCS-4 but also its 1-butyl homologue, and the 2-methoxybenzoyl isomers of both these compounds, to a temporary class drug schedule (i.e. equivalent to Class C but reviewed after 12 months, and with personal possession and use of small amounts decrimi ...
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Benzoylindole Structure General
To combat the illicit synthetic cannabinoid industry many jurisdictions have created a system to control these cannabinoids through their general (or Markush) structure as opposed to their specific identity. In this way new analogs are already controlled before they are even created. A large number of cannabinoids have been grouped into classes based on similarities in their chemical structure, and these classes have been widely adopted across a variety of jurisdictions. Typical groups of compounds included for control may include naphthoylindoles, phenylacetylindoles, benzoylindoles, cyclohexylphenols, naphthylmethylindoles, naphthoylpyrroles, naphthylmethylindenes, indole-3-carboxamides, indole-3-carboxylates, indazole-3-carboxamides and sometimes others, each with specific substitutions on specific atoms of the molecule. The scope of definitions and the range of compounds included may vary substantially between jurisdictions, so compounds which are legal in one country or state m ...
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