<MPQA autoclass="obj" certainty="6.4">Caffeine molecular structureCaffeine is a chemical compound found naturally in such foods as coffee beans, tea, cacao beans (chocolate, but in much smaller amounts), kola nuts, Yerba mate, and guarana.</MPQA>
<MPQA autoclass="subj" certainty="11.1">It is well known for its characteristic, intensely <MPQA autoclass="negative">bitter</MPQA> taste, and as a stimulant of the central <MPQA autoclass="negative">nervous</MPQA> system, heart, and respiration.</MPQA>
<MPQA autoclass="obj" certainty="15.3">It is also a diuretic.</MPQA>
<MPQA autoclass="obj" certainty="19.2">It is <MPQA autoclass="objectiveSpeech">added</MPQA> to some soft drinks such as colas and Mountain Dew.1 Chemical properties 2 Physical properties 3 Sources3.1</MPQA>
<MPQA autoclass="obj" certainty="16.4">Chocolate 3.2 Coffee 3.3 Teas and other infusions 3.4 Other sources 3.5 Equivalents 200 mg of Caffeine 4 Metabolism and toxicology 5 Abuse and addiction 6 History 7 References 8 External linksChemical propertiesCaffeine is an alkaloid of the methylxanthine family, which also includes the similar compounds theophylline and theobromine.</MPQA>
<MPQA autoclass="subj" certainty="9.2">In its pure state it is an intensely <MPQA autoclass="negative">bitter</MPQA> white powder.</MPQA>
<MPQA autoclass="obj" certainty="7.7">Its chemical formula is C8H10N4O2, its systematic name is 1,3,7-trimethylxanthine or 3,7-dihydro-1,3,7-trimethyl-1H-purine-2,6-dione, and its structure is shown above.</MPQA>
<MPQA autoclass="obj" certainty="16.3">Physical propertiesPure caffeine occurs as odorless, white, fleecy masses, glistening needles or powder.</MPQA>
<MPQA autoclass="subj" certainty="0.7">Boiling point: 178 C (sublimes) Melting point: 238 C Specific gravity: 1.2 <MPQA autoclass="negative">Volatility</MPQA>: 0.5% Vapor pressure: 760 mm Hg @ 178 C pH: 6.9 (1% solution) Solubility in water: 2.17% Vapor density: 6.7 Molecular weight: 194.19SourcesThe main source of caffeine in food industry are the coffee beans.</MPQA>
<MPQA autoclass="obj" certainty="19.4">The caffeine content can vary significantly.</MPQA>
<MPQA autoclass="obj" certainty="14.8">In 2004 some trees were found in Ethiopia that contain 15 times less caffeine than average.</MPQA>
<MPQA autoclass="subj" certainty="0.9">Beans from such trees may be used in the future to produce better quality decaffeinated coffee.</MPQA>
<MPQA autoclass="obj" certainty="1.7">One dose of caffeine is generally <MPQA autoclass="objectiveSpeech">considered</MPQA> to be 100 mg, delivered by one 5 fl oz / 150 ml cup of drip coffee or one (or one-half) caffeine tablet.</MPQA>
<MPQA autoclass="subj" certainty="4.7">Real-world coffee varies considerably in caffeine content per cup, from about 75 to 250 mg. Black tea contains somewhat less caffeine per serving than coffee, depending on the strength of the brew, and green tea contains significantly less.</MPQA>
<MPQA autoclass="subj" certainty="24.1">Colas also typically contain less than coffee, but some "energy" colas and similar drinks can have considerably more (the caffeine strength of soft drinks being controlled entirely by the manufacturer, with high caffeine content a popular marketing feature).</MPQA>
<MPQA autoclass="subj" certainty="3.8">The amount of caffeine in some common consumables is approximately as follows:ChocolateChocolate, bittersweet - 25 mg/oz (875 mg/kg)Chocolate, milk - 3 to 6 mg/oz (100 to 210 mg/kg)Cocoa - 0.5 mg/floz (17 mg/litre)CoffeeCoffee, brewed (drip) - 4 to 20 mg/floz (130 to 680 mg/litre) (40 to 170 mg per 5 fl oz cup)Coffee, decaffeinated - 0.4 to 0.6 mg/floz (13 to 20 mg/litre)Coffee, instant - 4 to 12 mg/floz (130 to 400 mg/litre)Espresso - 100 mg/floz (3400 mg/litre)Teas and other infusionsBlack tea, brewed (USA) - 2.5 to 11 mg/floz (85 to 370 mg per litre)Black tea, brewed (other) - 3 to 14 mg/floz (100 to 470 mg/litre)Black tea, canned iced - 2 to 3 mg/floz (70 to 100 mg/litre)Black tea, instant - 3.5 mg/floz (120 mg/litre)Oolong, 3.75 mg/floz (120 mg per litre) (12 to 55 mg per tea bag, i.e. one serving)Green tea, 2.5 mg/floz (85 mg/litre) (8 to 30 mg per tea bag, i.e. one serving)White tea, 2.0 mg/floz (68 mg/litre) (6 to 25 mg per tea bag, i.e. one serving)Decaf, 0.5 mg/oz (17 mg/litre) (1 to 4 mg per tea bag, i.e. one serving)Caffeine is sometimes <MPQA autoclass="speechDirectSubjective">called</MPQA> theine when it is found in tea, as the caffeine in tea was once <MPQA autoclass="speechDirectSubjective">thought</MPQA> to be a separate compound to the caffeine found in coffee.</MPQA>
<MPQA autoclass="obj" certainty="17.3">The mateine <MPQA autoclass="objectiveSpeech">described</MPQA> in some literature as the primary psychoactive constituent of yerba mate is also generally <MPQA autoclass="objectiveSpeech">considered</MPQA> to be identical to caffeine.</MPQA>
<MPQA autoclass="obj" certainty="23.5">Tisanes (i.e. Herbal teas), depends on the herb, e.g. Chamomile and Rooibos teas have no caffeine while Yerba mate and Guarana do contain varying quantities.</MPQA>
<MPQA autoclass="obj" certainty="18.8">Many tea drinkers characterise herbal tea simply as that which, unlike black or green tea, contains no caffeine.</MPQA>
<MPQA autoclass="obj" certainty="21.9">Other sourcesEnergy drink - 10 mg/floz (340 mg/litre).</MPQA>
<MPQA autoclass="obj" certainty="19.4">Some countries limit the caffeine content at 135 mg/litre.</MPQA>
<MPQA autoclass="subj" certainty="2.3">Soft drink (caffeinated) - 3 to 8 mg/floz (100 to 270 mg/litre)Pill (caffeine) - 200 mg (100 mg in many countries within EU)Equivalents 200 mg of CaffeineOne caffeine pill (Two in some countries where these are 100 mg)One shot of espresso (2 oz)~2 cups (5 floz) of regular coffee~1.3 L soft drink (These can vary widely in content)~1 kg (~2 lb) of milk chocolate or ~0.25 kg of bittersweet chocolate (~0.5 lb)~5 cups (8 floz) of black tea or ~10 cups (8 oz) of green teaIn the European Union, a warning must be placed on packaging if the caffeine content of any beverage exceeds 150 mg per litre.</MPQA>
<MPQA autoclass="obj" certainty="19.2">This includes caffeine from any source (including guarana, which is often found in energy drinks).</MPQA>
<MPQA autoclass="obj" certainty="27.9">In many countries, caffeine is classified as a flavouring.</MPQA>
<MPQA autoclass="obj" certainty="13.0">Metabolism and toxicologyCaffeine is <MPQA autoclass="objectiveSpeech">thought</MPQA> to act on the brain by blocking adenosine receptors.</MPQA>
<MPQA autoclass="obj" certainty="23.1">Adenosine, when bound to receptors of nerve cells, slows down nerve cell activity; this happens, among other times, during sleep.</MPQA>
<MPQA autoclass="obj" certainty="19.2">The caffeine molecule, being similar to adenosine, binds to the same receptors but doesn't cause the cells to slow down; instead, the caffeine blocks the receptors and thereby the adenosine action.</MPQA>
<MPQA autoclass="obj" certainty="17.6">The resulting increased nerve activity causes the release of the hormone epinephrine, which in turn leads to several effects such as higher heart rate, increased blood pressure, increased blood flow to muscles, decreased blood flow to the skin and inner organs, and release of glucose by the liver.</MPQA>
<MPQA autoclass="obj" certainty="21.0">In addition, caffeine, similar to amphetamines, increases the levels of the neurotransmitter dopamine in the brain.</MPQA>
<MPQA autoclass="obj" certainty="18.8">Caffeine is quickly and completely removed from the brain and, unlike other CNS stimulants or alcohol, its effects are short lived.</MPQA>
<MPQA autoclass="obj" certainty="14.2">In many people, caffeine does not negatively affect concentration or higher mental functions, and hence caffeinated drinks are often consumed in the course of work.</MPQA>
<MPQA autoclass="obj" certainty="2.4">Continued consumption of caffeine can lead to tolerance.</MPQA>
<MPQA autoclass="subj" certainty="24.6">Upon withdrawal, the body becomes oversensitive to adenosine, causing the blood pressure to drop dramatically, leading to <MPQA autoclass="negative">headache</MPQA> and other symptoms.</MPQA>
<MPQA autoclass="subj" certainty="9.7">Recent studies suggest that caffeine intake (in coffee) may decrease the risk of developing Parkinson's <MPQA autoclass="negative">disease</MPQA>, but additional study is needed.</MPQA>
<MPQA autoclass="subj" certainty="8.6">Too much caffeine can lead to caffeine intoxication.</MPQA>
<MPQA autoclass="subj" certainty="3.0">The symptoms of this <MPQA autoclass="negative">disorder</MPQA> are <MPQA autoclass="negative">restlessness</MPQA>, <MPQA autoclass="negative">nervousness</MPQA>, excitement, insomnia, flushed face, diuresis, and gastrointestial <MPQA autoclass="negative">complaints</MPQA>.</MPQA>
<MPQA autoclass="subj" certainty="14.1">They can occur in some people after as little as 250 mg per day.</MPQA>
<MPQA autoclass="subj" certainty="33.7">More than 1 g per day may result in muscle twitching, <MPQA autoclass="negative">rambling</MPQA> flow of <MPQA autoclass="speechDirectSubjective">thought</MPQA> and speech, cardiac arrhythmia or tachycardia, and psychomotor <MPQA autoclass="negative">agitation</MPQA>.</MPQA>
<MPQA autoclass="subj" certainty="28.8">Caffeine intoxication can lead to symptoms similar to <MPQA autoclass="negative">panic</MPQA> <MPQA autoclass="negative">disorder</MPQA> and generalized <MPQA autoclass="negative">anxiety</MPQA> <MPQA autoclass="negative">disorder</MPQA>.</MPQA>
<MPQA autoclass="obj" certainty="1.0">The LD50 is estimated to be about 192 mg/kg of body mass, or about 72 cups of coffee for an average adult.</MPQA>
<MPQA autoclass="subj" certainty="11.0">While safe for humans, caffeine and its related compounds theobromine and theophylline are considerably more <MPQA autoclass="negative">toxic</MPQA> to some other animals such as dogs and horses, due to differences in liver metabolism.</MPQA>
<MPQA autoclass="subj" certainty="30.1">A fascinating recent finding is that intake of caffeine can up to halve a patient's risk of diabetes mellitus type 2. While this was originally noticed in patients who consumed high amounts (7 cups a day), the relationship has now been shown to be linear (Salazar-Martinez 2004).</MPQA>
<MPQA autoclass="subj" certainty="26.6"><MPQA autoclass="negative">Abuse</MPQA> and <MPQA autoclass="negative">addiction</MPQA>Caffeine, in its many forms, has been used for its stimulating effects.</MPQA>
<MPQA autoclass="subj" certainty="13.6">In modern times, though, the substance can be produced in much higher quantities, and has found its way into many products.</MPQA>
<MPQA autoclass="obj" certainty="11.7">Purer forms, such as those in caffeine pills, are available easily.</MPQA>
<MPQA autoclass="obj" certainty="22.2">These pills are often used by college students and graveyard shift workers to last an entire night with no sleep.</MPQA>
<MPQA autoclass="obj" certainty="23.7">Caffeine pills have been under media fire for recent and past deaths of students, usually take on the form of a caffeine overdose.</MPQA>
<MPQA autoclass="obj" certainty="23.1">One such example of this was the death North Carolina student, Jason Allen.</MPQA>
<MPQA autoclass="obj" certainty="21.1">He swallowed a total of 90 such pills, which is the equivalent of 250 cups of coffee.</MPQA>
<MPQA autoclass="subj" certainty="4.8">One <MPQA autoclass="negative">dangerous</MPQA> form of caffiene use is to stay alert when one is under the influence of alcohol.</MPQA>
<MPQA autoclass="subj" certainty="16.1">This <MPQA autoclass="negative">tricks</MPQA> one into <MPQA autoclass="speechDirectSubjective">thinking</MPQA> one is more alert than what is actually the case.</MPQA>
<MPQA autoclass="subj" certainty="2.8">When such persons take part in <MPQA autoclass="negative">dangerous</MPQA> tasks, like driving, etc. it results in accidents.</MPQA>
<MPQA autoclass="obj" certainty="20.1">HistoryCaffeine was isolated by the German chemist Friedrich Ferdinand Runge in 1819.</MPQA>
<MPQA autoclass="obj" certainty="28.4">According to the legend, he did this at the instigation of Johann Wolfgang von Goethe (Weinberg & Bealer 2001).</MPQA>
<MPQA autoclass="obj" certainty="30.6">ReferencesSalazar-Martinez E, Willet WC, Ascherio A, Manson JE, Leitzmann MF, Stampfer MJ, Hu FB. Coffee consumption and risk for type 2 diabetes mellitus.</MPQA>
<MPQA autoclass="obj" certainty="31.7">Ann Intern Med 2004;140:1-8.</MPQA>
<MPQA autoclass="obj" certainty="31.7">Weinberg BA, Bealer BK.</MPQA>
<MPQA autoclass="obj" certainty="31.7">The world of caffeine.</MPQA>
<MPQA autoclass="obj" certainty="31.7">New York & London: Routledge, 2001.</MPQA>
<MPQA autoclass="obj" certainty="31.7">ISBN 0-415-92722-6.</MPQA>
<MPQA autoclass="obj" certainty="31.7">External linksCaffeine Content of Foods (http://www.cspinet.org/new/cafchart.htm)</MPQA>
<MPQA autoclass="obj" certainty="31.7">Caffeine Intoxication (http://www.digitalnaturopath.com/cond/C569985.html)</MPQA>
<MPQA autoclass="obj" certainty="31.7">Caffeine Intoxication (http://www. drowning .com/caffeine.html)</MPQA>
<MPQA autoclass="obj" certainty="31.7">Caffeine Health (http://www.coffeeforums.com/viewforum.php?f=4)</MPQA>
<MPQA autoclass="obj" certainty="31.7">Description of the Yerba Mate (http://platense.dyn.dhs.org/personal/argentina/mate_desc.htm)</MPQA>
<MPQA autoclass="obj" certainty="31.7">Is Caffeine a Health Hazard ?</MPQA>
<MPQA autoclass="obj" certainty="31.7">(http://www.benbest.com/health/caffeine.html)</MPQA>
<MPQA autoclass="obj" certainty="31.7">Why do plants make caffeine ?</MPQA>
<MPQA autoclass="obj" certainty="31.7">(http://www.thenakedscientists.com/html/columnists/dalyacolumn2.htm)</MPQA>
<MPQA autoclass="obj" certainty="31.7">Stimulants [ edit (http://en.wikipedia.org/w/wiki.phtml?title=Template:Stimulants&action=edit)</MPQA>
<MPQA autoclass="obj" certainty="31.7">]{Caffeine} {Nicotine}Sympathomimetic amines [ edit (http://en.wikipedia.org/w/wiki.phtml?title=Template:Sympathomimetic_amines&action=edit)</MPQA>
<MPQA autoclass="obj" certainty="29.0">]{Cathinone} {Chlorphentermine} {Cocaine} {Diethylpropion} {Ephedrine} {Fenfluramine} {Fen-phen} {Mazindol} {Methcathinone} {Methylphenidate} {Pemoline} {Phendimetrazine} {Phenmetrazine} {Phentermine} {Pseudoephedrine}Amphetamines [ edit (http://en.wikipedia.org/w/wiki.phtml?title=Template:Amphetamines&action=edit)</MPQA>
<MPQA autoclass="obj" certainty="16.0">]{Amphetamine} {Benzphetamine} {Dexamphetamine} {MDMA} {Methamphetamine} {Paramethoxyamphetamine} This article is part of the Wikiproject on Drugs, which is an attempt to facilitate the categorization and creation of accurate and formal drug-related articles on Wikipedia.</MPQA>
<MPQA autoclass="subj" certainty="1.3">If you are interested in editing this article, please see its talk page and ensure your edits are consistent with the goals of the project.</MPQA>
<MPQA autoclass="obj" certainty="22.0">Retrieved from "http://en.wikipedia.org/wiki/Caffeine"</MPQA>
<MPQA autoclass="obj" certainty="31.7">Categories: Alkaloids | Heterocyclic bases | Ketones | Purines | Stimulants</MPQA>