Quinine

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Quinine
Clinical data
Pregnancy; category	X (USA), D (Au);
Routes of; administration	Oral, intravenous
ATC code	M09AA01 (WHO) P01BC01 (WHO);
Pharmacokinetic data
Bioavailability	76 to 88%
Protein binding	~70%
Metabolism	Hepatic (mostly CYP3A4 and CYP2C19-mediated)
Elimination half-life	~18 hours
Excretion	Renal (20%)
Identifiers
	IUPAC name (2-ethenyl-4-azabicyclo[2.2.2]oct-5-yl)- (6-methoxyquinolin-4-yl)-methanol;
CAS Number	130-95-0;
PubChem CID	8549;
DrugBank	APRD00563;
E number	{{#property:P628}}
ECHA InfoCard	{{#property:P2566}}Lua error in Module:EditAtWikidata at line 36: attempt to index field 'wikibase' (a nil value).
Chemical and physical data
Formula	C20H24N2O2
Molar mass	324.417 g/mol
Melting point	177 °C (350.6 °F)

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Quinine (Template:IPAEng) is a natural white crystalline alkaloid having antipyretic (fever-reducing), anti-smallpox, analgesic (painkilling), and anti-inflammatory properties and a bitter taste. It is a stereoisomer of quinidine.

Quinine was the first effective treatment for malaria caused by P falciparum, appearing in therapeutics in the 17th century. It remained the antimalarial drug of choice until the 1940s, when other drugs took over. Since then, many effective antimalarials have been introduced, although quinine is still used to treat the disease in certain critical situations. Quinine is available with a prescription in the United States. Quinine is also used to treat nocturnal leg cramps and arthritis, and there have been attempts (with limited success) to treat prion diseases. It was once a popular heroin adulterant.

Mechanism of action

The theorized mechanism of action for quinine and related anti-malarial drugs is that these drugs are toxic to the malaria parasite. Specifically, the drugs interfere with the parasite's ability to break down and digest hemoglobin. Consequently, the parasite starves and/or builds up toxic levels of partially degraded hemoglobin in itself.

Sources of quinine

Quinine was extracted from the bark of the South American cinchona tree and was isolated and named in 1817 by French researchers Pierre Joseph Pelletier and Joseph Bienaimé Caventou. The name was derived from the original Quechua (Inca) word for the cinchona tree bark, "Quina" or "Quina-Quina", which roughly means "bark of bark" or "holy bark". Prior to 1820, the bark was first dried, ground to a fine powder and then mixed into a liquid (commonly wine) which was then drunk.

Large scale use of quinine as a prophylaxis started around 1850, although it had been used in un-extracted form by Europeans since at least the early 1600s. Quinine was first used to treat malaria in Rome in 1631. During the 1600s, malaria was endemic to the swamps and marshes surrounding the city of Rome. Over time, malaria was responsible for the death of several Popes, many Cardinals and countless common citizens of Rome. Most of the priests trained in Rome had seen malaria victims and were familiar with the shivering brought on by the cold phase of the disease. In addition to its anti-malarial properties, quinine is an effective muscle relaxant, long used by the Quechua Indians of Peru to halt shivering brought on by cold temperatures. The Jesuit Brother Agostino Salumbrino (1561-1642), an apothecary by training and who lived in Lima, observed the Quechua using the quinine-containing bark of the cinchona tree for that purpose. While its effect in treating malaria (and hence malaria-induced shivering) was entirely unrelated to its effect in controlling shivering from cold, it was still the correct medicine for malaria. At the first opportunity, he sent a small quantity to Rome to test in treating malaria. In the years that followed, cinchona bark became one of the most valuable commodities shipped from Peru to Europe.

Quinine also played a significant role in the colonization of Africa by Europeans. As the dawn of modern pharmacology, Quinine was the prime reason why Africa ceased to be the white man's grave. According to Clifford D. Conner in "A People's History of Science", "It was quinine's efficacy that gave colonist fresh opportunities to swarm into the Gold Coast, Nigeria and other parts of west Africa and seize fertile agricultural lands, introduce new livestock and crops, build roads and railways, drive natives into mines, and introduce all the disruptions to traditional lifestyles that cash economies brought."(Conner pp 95-96) also cites Porter, "The Greatest Benefit to Mankind, pp. 465-466)

Synthetic quinine

Main article: quinine total synthesis

Cinchona trees remain the only practical source of quinine. However, under wartime pressure, research towards its artificial production was undertaken. A formal chemical synthesis was accomplished in 1944 by American chemists R.B. Woodward and W.E. Doering.^[1] Since then, several more efficient quinine total syntheses have been achieved ^[2] , but none of them can compete in economic terms with isolation of the alkaloid from natural sources.

Dosing

Quinine is a basic amine and is therefore always presented as a salt. Various preparations that exist include the hydrochloride, dihydrochloride, sulfate, bisulfate and gluconate. This makes quinine dosing very complicated, because each of the salts has a different weight.

The following amounts of each form are equal:

quinine base 100 mg
quinine bisulfate 169 mg
quinine dihydrochloride 122 mg
quinine hydrochloride 122 mg
quinine sulfate 121 mg
quinine gluconate 160 mg.

All quinine salts may be given orally or intravenously (IV); quinine gluconate may also be given intramuscularly (IM) or rectally (PR).^[3]^[4] The main problem with the rectal route is that the dose can be expelled before it is completely absorbed, but this can be rectified by giving half dose again.

The IV dose of quinine is 8 mg/kg of quinine base every eight hours; the IM dose is 12.8 mg/kg of quinine base twice daily; the PR dose is 20 mg/kg of quinine base twice daily. Treatment should be given for seven days.

The preparations available in the UK are quinine sulfate (200 mg or 300 mg tablets) and quinine hydrochloride (300 mg/ml for injection). Quinine is not licensed for IM or PR use in the UK. The adult dose in the UK is 600 mg quinine dihydrochloride IV or 600 mg quinine sulfate orally every eight hours.

In the United States quinine sulfate is available as 324 mg tablets under the brand name Qualaquin; the adult dose is two tablets every eight hours. There is no injectable preparation of quinine licensed in the U.S.: quinidine is used instead.^[5]^[6]

Quinine is not recommended for malaria prevention (prophylaxis) because of its side effects and poor tolerability, not because it is ineffective. When used for prophylaxis, the dose of quinine sulphate is 300–324mg once daily, starting one week prior to travel and continuing for four weeks after returning.

Side effects

See: cinchonism

It is usual for quinine in therapeutic doses to cause cinchonism; in rare cases, it may even cause death (usually by pulmonary edema). The development of mild cinchonism is not a reason for stopping or interrupting quinine therapy and the patient should be reassured. Blood glucose levels and electrolyte concentrations must be monitored when quinine is given by injection; the patient should also ideally be in cardiac monitoring when the first quinine injection is given (these precautions are often unavailable in developing countries where malaria is most a problem).

Cinchonism is much less common when quinine is given by mouth, but oral quinine is not well tolerated (quinine is exceedingly bitter and many patients will vomit up quinine tablets): other drugs such as Fansidar® (sulfadoxine (sulfonamide antibiotic) with pyrimethamine) or Malarone® (proguanil with atovaquone) are often used when oral therapy is required. Blood glucose, electrolyte and cardiac monitoring are not necessary when quinine is given by mouth.

In 1994, the U.S. Food and Drug Administration (FDA), banned the use of over-the-counter (OTC) quinine as a treatment for nocturnal leg cramps. Pfizer Pharmaceuticals had been selling the brand name Legatrin® for this purpose. This soon followed disallowing even prescription quinine for leg cramps, and all OTC sales of the drug for malaria. From 1969 to 1992, the FDA received 157 reports of health problems related to quinine use, including 23 which had resulted in death.[3]

Quinine can cause paralysis if accidentally injected into a nerve. It is extremely toxic in overdose and the advice of a poisons specialist should be sought immediately.

Quinine and pregnancy

In very large doses, quinine also acts as an abortifacient; in the United States quinine is classed as a Category X teratogen by the Food and Drug Administration, meaning that it can cause birth defects (especially deafness) if taken by a woman during pregnancy. In the UK, the recommendation is that pregnancy is not a contra-indication to quinine therapy for falciparum malaria (which directly contradicts the US recommendation), although it should be used with caution; the reason for this is that the risks to the pregnancy are small and theoretical, as opposed to the very real risk of death from falciparum malaria. Futher research, conducted in Sweden's Consug University hospital, has found a weak but significant correlation between dosage increase in pregnancy and Klebs-Loeffler bacillus infections in neonates.

Quinine and interactions with other diseases

Quinine can cause hemolysis in G6PD deficiency, but again this risk is small and the physician should not hesitate to use quinine in patients with G6PD deficiency when there is no alternative. Quinine can also cause drug-induced immune thrombocytopenic purpura (ITP).

Quinine can cause abnormal heart rhythms and should be avoided if possible in patients with atrial fibrillation, conduction defects or heart block.

Quinine must not be used in patients with hemoglobinuria, myasthenia gravis or optic neuritis, because it worsens these conditions.

Quinine and hearing impairment

Some studies have related the use of quinine and hearing impairment, which can cause some high-frequency loss, but it has not been conclusively established whether such impairment is temporary or permanent.^[7]

Non-medical uses of quinine

Quinine is a flavour component of tonic water, bitter lemon, and vermouth. According to tradition, the bitter taste of anti-malarial quinine tonic led British colonials in India to mix it with gin, thus creating the gin and tonic cocktail, which is still popular today in both India and United Kingdom, and in many English speaking countries.

In the United States, the Food and Drug Administration limits tonic water quinine to 83 parts per million, which is one-half to one-quarter the concentration used in therapeutic tonic.

In France, quinine is an ingredient of an apéritif known as Quinquina.

Quinine is often added to street drugs cocaine or ketamine in order to "cut" the product and make more profit.

Because of its relatively constant and well-known fluorescence quantum yield, quinine is also used in photochemistry as a common fluorescence standard.

In the United States, quinine is an ingredient in the Howling monkey energy drink.

In Canada, quinine is an ingredient in the carbonated chinotto beverage called Brio.

In the United Kingdom, quinine is an ingredient in the carbonated and caffeinated beverage, Irn-Bru.

In South Africa and Europe, quinine is an ingredient in the carbonated beverage called Schweppes.

References

↑ Woodward R, Doering W (1944). "The Total Synthesis of Quinine". J Am Chem Soc. 66 (849).
↑ see review article in Angewandte Chemie, Int. Ed., 2005, 44, p. 854 ff
↑ Barennes H; et al. (1996). "Efficacy and pharmacokinetics of a new intrarectal quinine formulation in children with Plasmodium falciparum malaria". Brit J Clin Pharmacol. 41 (5): 389. doi:10.1046/j.1365-2125.1996.03246.x.
↑ "Safety and efficacy of rectal compared with intramuscular quinine for the early treatment of moderately sever malaria in children: randomised clinical trial". Brit Med J. 332 (7549): 1055&ndash, 57. Text " Barennes H, Balima-Koussoubé T, Nagot N, Charpentier J-C, Pussard E " ignored (help)
↑ Center for Disease Control (1991). "Treatment with Quinidine Gluconate of Persons with Severe Plasmodium falciparum Infection: Discontinuation of Parenteral Quinine". Morb Mort Weekly Rep. 40 (RR-4): 21&ndash, 23. Retrieved 2006-05-06.
↑ Magill A, Panosian C (2005). "Making Antimalarial Agents Available in the United States". New Engl J Med. 353 (4): 335&ndash, 337.
↑ Department of Clinical Pharmacology, Huddinge University Hospital, Sweden (1994). "The concentration-effect relationship of quinine-induced hearing impairment". Clin Pharmacol Ther. 55 (3): 317&ndash, 323. PMID 8143397. |access-date= requires |url= (help)

External links

Template:Antimalarials ca:Quinina cs:Chinin da:Kinin de:Chinin eo:Kinino ko:퀴닌 it:Chinino he:כינין nl:Kinine no:Kinin sk:Chinín fi:Kiniini sv:Kinin

Template:Jb1 Template:WH Template:WikiDoc Sources

[Woodward1944-1] Woodward R, Doering W (1944). "The Total Synthesis of Quinine". J Am Chem Soc. 66 (849).

[2] see review article in Angewandte Chemie, Int. Ed., 2005, 44, p. 854 ff

[Barennes1996-3] Barennes H; et al. (1996). "Efficacy and pharmacokinetics of a new intrarectal quinine formulation in children with Plasmodium falciparum malaria". Brit J Clin Pharmacol. 41 (5): 389. doi:10.1046/j.1365-2125.1996.03246.x.

[Barennes2006-4] "Safety and efficacy of rectal compared with intramuscular quinine for the early treatment of moderately sever malaria in children: randomised clinical trial". Brit Med J. 332 (7549): 1055&ndash, 57. Text " Barennes H, Balima-Koussoubé T, Nagot N, Charpentier J-C, Pussard E " ignored (help)

[5] Center for Disease Control (1991). "Treatment with Quinidine Gluconate of Persons with Severe Plasmodium falciparum Infection: Discontinuation of Parenteral Quinine". Morb Mort Weekly Rep. 40 (RR-4): 21&ndash, 23. Retrieved 2006-05-06.

[6] Magill A, Panosian C (2005). "Making Antimalarial Agents Available in the United States". New Engl J Med. 353 (4): 335&ndash, 337.

[7] Department of Clinical Pharmacology, Huddinge University Hospital, Sweden (1994). "The concentration-effect relationship of quinine-induced hearing impairment". Clin Pharmacol Ther. 55 (3): 317&ndash, 323. PMID 8143397. |access-date= requires |url= (help)

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