Ephedrine


Ephedrine is a medication and stimulant. It is often used to prevent low blood pressure during spinal anesthesia. It has also been used for asthma, narcolepsy, and obesity but is not the preferred treatment. It is of unclear benefit in nasal congestion. It can be taken by mouth or by injection into a muscle, vein, or just under the skin. Onset with intravenous use is fast, while injection into a muscle can take 20 minutes, and by mouth can take an hour for effect. When given by injection it lasts about an hour and when taken by mouth it can last up to four hours.
Common side effects include trouble sleeping, anxiety, headache, hallucinations, high blood pressure, fast heart rate, loss of appetite, and inability to urinate. Serious side effects include stroke, heart attack, and abuse. While likely safe in pregnancy, its use in this population is poorly studied. Use during breastfeeding is not recommended. Ephedrine works by increasing the activity of the α and β adrenergic receptors.
Ephedrine was first isolated in 1885 and came into commercial use in 1926. It is on the World Health Organization's List of Essential Medicines. It is available as a generic medication. It can normally be found in plants of the Ephedra type. Dietary supplements containing ephedrine are illegal in the United States, with the exception of those used in traditional Chinese medicine, where its presence is noted by má huáng.

Medical use

Both ephedrine and pseudoephedrine increase blood pressure and act as bronchodilators, with pseudoephedrine having considerably less effect.
Ephedrine may decrease motion sickness, but it has mainly been used to decrease the sedating effects of other medications used for motion sickness.

Weight loss

Ephedrine promotes modest short-term weight loss, specifically fat loss, but its long-term effects are unknown. In mice, ephedrine is known to stimulate thermogenesis in the brown adipose tissue, but because adult humans have only small amounts of brown fat, thermogenesis is assumed to take place mostly in the skeletal muscle. Ephedrine also decreases gastric emptying. Methylxanthines such as caffeine and theophylline have a synergistic effect with ephedrine with respect to weight loss. This led to creation and marketing of compound products. One of them, known as the ECA stack, contains ephedrine with caffeine and aspirin. It is a popular supplement taken by bodybuilders seeking to cut body fat before a competition.

Recreational use

As a phenethylamine, ephedrine has a similar chemical structure to amphetamines and is a methamphetamine analogue having the methamphetamine structure with a hydroxyl group at the β position. Because of ephedrine's structural similarity to methamphetamine, it can be used to create methamphetamine using chemical reduction in which ephedrine's hydroxyl group is removed; this has made ephedrine a highly sought-after chemical precursor in the illicit manufacture of methamphetamine.
The most popular method for reducing ephedrine to methamphetamine is similar to the Birch reduction, in that it uses anhydrous ammonia and lithium metal in the reaction. The second-most popular method uses red phosphorus and iodine in the reaction with ephedrine. Moreover, ephedrine can be synthesized into methcathinone via simple oxidation. As such, ephedrine is listed as a table-I precursor under the United Nations Convention Against Illicit Traffic in Narcotic Drugs and Psychotropic Substances.

Detection of use

Ephedrine may be quantified in blood, plasma, or urine to monitor possible abuse by athletes, confirm a diagnosis of poisoning, or assist in a medicolegal death investigation. Many commercial immunoassay screening tests directed at the amphetamines cross-react appreciably with ephedrine, but chromatographic techniques can easily distinguish ephedrine from other phenethylamine derivatives. Blood or plasma ephedrine concentrations are typically in the 20-200 µg/l range in persons taking the drug therapeutically, 300-3000 µg/l in abusers or poisoned patients and 3–20 mg/l in cases of acute fatal overdosage. The current WADA limit for ephedrine in an athlete's urine is 10 µg/ml.

Contraindications

Ephedrine should not be used in conjunction with certain antidepressants, namely norepinephrine-dopamine reuptake inhibitors, as this increases the risk of symptoms due to excessive serum levels of norepinephrine.
Bupropion is an example of an antidepressant with an amphetamine-like structure similar to ephedrine, and it is an NDRI. Its action bears more resemblance to amphetamine than to fluoxetine in that its primary mode of therapeutic action involves norepinephrine and to a lesser degree dopamine, but it also releases some serotonin from presynaptic clefts. It should not be used with ephedrine, as it may increase the likelihood of side effects.
Ephedrine should be used with caution in patients with inadequate fluid replacement, impaired adrenal function, hypoxia, hypercapnia, acidosis, hypertension, hyperthyroidism, prostatic hypertrophy, diabetes mellitus, cardiovascular disease, during delivery if maternal blood pressure is >130/80 mmHg, and during lactation.
Contraindications for the use of ephedrine include: closed-angle glaucoma, phaeochromocytoma, asymmetric septal hypertrophy, concomitant or recent monoamine oxidase inhibitor therapy, general anaesthesia with halogenated hydrocarbons, tachyarrhythmias or ventricular fibrillation, or hypersensitivity to ephedrine or other stimulants.
Ephedrine should not be used at any time during pregnancy unless specifically indicated by a qualified physician and only when other options are unavailable.

Adverse effects

Ephedrine is a potentially dangerous natural compound; the US Food and Drug Administration had received over 18,000 reports of adverse effects in people using it.
Adverse drug reactions are more common with systemic administration compared to topical administration. ADRs associated with ephedrine therapy include:
The neurotoxicity of l-ephedrine is disputed.

Other uses

In chemical synthesis, ephedrine is used in bulk quantities as a chiral auxiliary group.
In saquinavir synthesis, the half-acid is resolved as its salt with l-ephedrine.

Chemistry and nomenclature

Ephedrine is a sympathomimetic amine and substituted amphetamine. It is similar in molecular structure to phenylpropanolamine, methamphetamine, and epinephrine. Chemically, it is an alkaloid with a phenethylamine skeleton found in various plants in the genus Ephedra. It works mainly by increasing the activity of norepinephrine on adrenergic receptors. It is most usually marketed as the hydrochloride or sulfate salt.
Ephedrine exhibits optical isomerism and has two chiral centres, giving rise to four stereoisomers. By convention, the pair of enantiomers with the stereochemistry and is designated ephedrine, while the pair of enantiomers with the stereochemistry and is called pseudoephedrine.
Ephedrine is a substituted amphetamine and a structural methamphetamine analogue. It differs from methamphetamine only by the presence of a hydroxyl group.
The isomer which is marketed is --ephedrine.
Ephedrine hydrochloride has a melting point of 187−188 °C.
In the outdated -ephedrine is also referred to as D-ephedrine and -ephedrine as L-ephedrine.
Often, the D/L system and the d/l system are confused. The result is that the levorotary l-ephedrine is wrongly named L-ephedrine and the dextrorotary d-pseudoephedrine wrongly D-pseudoephedrine.
The IUPAC names of the two enantiomers are - respectively -2-methylamino-1-phenylpropan-1-ol. A synonym is erythro-ephedrine.

Agricultural

Ephedrine is obtained from the plant Ephedra sinica and other members of the genus Ephedra. Raw materials for the manufacture of ephedrine and traditional Chinese medicines are produced in China on a large scale. As of 2007, companies produced for export US$13 million worth of ephedrine from 30,000 tons of ephedra annually, or about ten times the amount used in traditional Chinese medicine.

Synthetic

Most of the l-ephedrine produced today for official medical use is made synthetically as the extraction and isolation process from E. sinica is tedious and no longer cost effective.

Biosynthetic

Ephedrine was long thought to come from modifying the amino acid L-phenylalanine. L-Phenylalanine would be decarboxylated and subsequently attacked with ω-aminoacetophenone. Methylation of this product would then produce ephedrine. This pathway has since been disproven. A new pathway proposed suggests that phenylalanine first forms cinnamoyl-CoA via the enzymes phenylalanine ammonia-lyase and acyl CoA ligase. The cinnamoyl-CoA is then reacted with a hydratase to attach the alcohol functional group. The product is then reacted with a retro-aldolase, forming benzaldehyde. Benzaldehyde reacts with pyruvic acid to attach a 2 carbon unit. This product then undergoes transamination and methylation to form ephedrine and its stereoisomer, pseudoephedrine.

Mechanism of action

Ephedrine, a sympathomimetic amine, acts on part of the sympathetic nervous system. The principal mechanism of action relies on its indirect stimulation of the adrenergic receptor system by increasing the activity of norepinephrine at the postsynaptic α and β receptors. The presence of direct interactions with α receptors is unlikely, but still controversial. L-ephedrine, and particularly its stereoisomer norpseudoephedrine has indirect sympathomimetic effects and due to its ability to cross the blood-brain barrier, it is a CNS stimulant similar to amphetamines, but less pronounced, as it releases noradrenaline and dopamine in the substantia nigra.
The presence of an N-methyl group decreases binding affinities at α receptors, compared with norephedrine. Ephedrine, though, binds better than N-methylephedrine, which has an additional methyl group at the nitrogen atom. Also the steric orientation of the hydroxyl group is important for receptor binding and functional activity.
;Compounds with decreasing α-receptor affinity

History

Asia

Ephedrine in its natural form, known as má huáng in traditional Chinese medicine, has been documented in China since the Han dynasty as an antiasthmatic and stimulant.
The industrial manufacture of ephedrine in China began in the 1920s, when Merck began marketing and selling the drug as ephetonin. Ephedrine exports from China to the West grew from 4 to 216 tonnes between 1926 and 1928.
In traditional Chinese medicine, má huáng has been used as a treatment for asthma and bronchitis for centuries.
In 1885, the chemical synthesis of ephedrine was first accomplished by Japanese organic chemist Nagai Nagayoshi based on his research on traditional Japanese and Chinese herbal medicines.

Western medicine

Introduced in 1948 Vicks Vatronol nose drops contained ephedrine sulfate as the active ingredient for rapid nasal decongestion.

Legality

Canada

In January 2002, Health Canada issued a voluntary recall of all ephedrine products containing more than 8 mg per dose, all combinations of ephedrine with other stimulants such as caffeine, and all ephedrine products marketed for weight-loss or bodybuilding indications, citing a serious risk to health. Ephedrine is still sold as an oral nasal decongestant in 8 mg pills, OTC.

United States

In 1997, the FDA proposed a regulation on ephedra, which limited an ephedra dose to 8 mg with no more than 24 mg per day. This proposed rule was withdrawn, in part, in 2000 because of "concerns regarding the agency's basis for proposing a certain dietary ingredient level and a duration of use limit for these products." In 2004, the FDA created a ban on ephedrine alkaloids marketed for reasons other than asthma, colds, allergies, other disease, or traditional Asian use. On April 14, 2005, the U.S. District Court for the District of Utah ruled the FDA did not have proper evidence that low dosages of ephedrine alkaloids are actually unsafe, but on August 17, 2006, the U.S. Court of Appeals for the Tenth Circuit in Denver upheld the FDA's final rule declaring all dietary supplements containing ephedrine alkaloids adulterated, and therefore illegal for marketing in the United States. Furthermore, ephedrine is banned by the NCAA, MLB, NFL, and PGA. Ephedrine is, however, still legal in many applications outside of dietary supplements. Purchasing is currently limited and monitored, with specifics varying from state to state.
The House passed the Combat Methamphetamine Epidemic Act of 2005 as an amendment to the renewal of the USA PATRIOT Act. Signed into law by President George W. Bush on March 6, 2006, the act amended the US Code concerning the sale of ephedrine-containing products. The federal statute included these requirements for merchants who sell these products:
The law gives similar regulations to mail-order purchases, except the monthly sales limit is only 7.5 g.
As a pure herb or tea, má huáng, containing ephedrine, is still sold legally in the USA. The law restricts/prohibits its being sold as a dietary supplement or as an ingredient/additive to other products, like diet pills.

Australia

All Ephedra spp and ephedrine itself are considered schedule 4 substances under the Poisons Standard. A schedule 4 drug is considered a Prescription Only Medicine, or Prescription Animal Remedy – Substances, the use or supply of which should be by or on the order of persons permitted by State or Territory legislation to prescribe and should be available from a pharmacist on prescription under the Poisons Standard.

South Africa

In South Africa, ephedrine was moved to schedule 6 on 27 May 2008, which makes it illegal to have ephedrine in higher doses than 8 mg per pill. Lower than 8 mg pills are still available OTC for sinus, head colds and flu, but is completely illegal in over the counter weight loss products.

Germany

Ephedrine was freely available in pharmacies in Germany until 2001. Afterwards, access was restricted since it was mostly bought for unindicated uses. Similarly, ephedra can only be bought with a prescription. Since April 2006, all products, including plant parts, that contain ephedrine are only available with a prescription.