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Epinephrine

Catalog No. DB00668 Name DrugBank
CAS Number 51-43-4 Website http://www.ualberta.ca/
M. F. C9H13NO3 Telephone (780) 492-3111
M. W. 183.20442 Fax (780) 492-1071
Purity Email david.wishart@ualberta.ca
Storage Chembase ID: 550

SYNONYMS

IUPAC name
4-[(1R)-1-hydroxy-2-(methylamino)ethyl]benzene-1,2-diol
IUPAC Traditional name
epinephrine
Brand Name
Glaucosan
Medihaler-Epi
Tolhart
Lyophrin
Bosmin
Hypernephrin
Adrenohorma
Duranest
Esphygmogenina
Glycirenan
IOP
Nephridine
Scurenaline
Vaponefrin
Vasodrine
Adrenasol
Adrenutol
Balmadren
Chelafrin
Epipen Jr.
Epipen Jr. Auto-Injector
Exadrin
Haemostasin
Renostypricin
Simplene
Stryptirenal
Supracapsulin
Supranephrine
Supranol
Suprarenaline
Tolansin
Tolcil
Vasotonin
Adrenamine
Adrenan
Adrenapax
Adrenatrate
Adrenodis
Adrenosan
Asthmanefrin
Astmahalin
Brevirenin
Bronkaid
Corisol
Drenamist
Dylephrin
Epi EZ Pen Jr
Epiglaufrin
Epirenan
Haemostatin
Hektalin
Hemisine
Hemostasin
Hemostatin
Intranefrin
Iontocaine
Levorenen
Primatene Mist
Renaglandulin
Renaleptine
Renalina
Renoform
Renostyptin
Sindrenina
Supranefran
Supranephrane
Suprel
Surenine
Surrenine
Sus-Phrine
Sympathin E
Sympathin I
Takamine
Vasoconstrictine
Vasoton
ADROP
Adnephrine
Adrenal
Adrenalin-Medihaler
Adrenine
Adrenor
Adrin
Adrine
Aktamin
Ana-Guard
Antiasthmatique
Asmatane Mist
Asthma Meter Mist
Asthma-Nefrin
Asthmahaler Mist
Astminhal
Bernarenin
Biorenine
Bronkaid Mist
Bronkaid Suspension Mist
Citanest Forte
Epifrin
Epipen
Epipen Auto-Injector
Epipen EZ Pen
Epirenamine
Epirenin
Epitrate
Eppy
Glaucon
Glauposine
Hyporenin
Isoptoepinal
Kidoline
Levonor
Levorenin
Levorenine
Lidocaton
Metanephrin
Micronefrin
Mucidrina
Myosthenine
Mytrate
Nephron
Nieraline
Nor-Epirenan
Norartrinal
Paranephrin
Renagladin
Renaglandin
Renostypticin
Septocaine
Soladren
Sphygmogenin
Styptirenal
Supradin
Suprarenin
Susphrine
Takamina
Tokamina
Tolax
Tonogen
Twinject
Synonyms
D-Epinephrine
Epinephran
Racepinefrine
Epinephrine Bitartrate
L-Adrenaline
L-Epirenamine
Levoepinephrine
ADR Adrenaline
Adrenalin Chloride
Adrenaline
Epinefrin [Czech]
L-Epinephine
Adrenalina
Adrenalin
Adrenalinum
D-Adrenaline
D-Epifrin
Epinefrina [INN-Spanish]
Epinephrinum [INN-Latin]
L-Adrenalin
L-Adrenaline Base
L-Epinephrine
Levoadrenaline
Racepinefrinum [inn-latin]
Racepinephrine
Racepinefrina [inn-spanish]

DATABASE IDS

CAS Number 51-43-4
PubChem SID 46509097
PubChem CID 5816

PROPERTIES

Hydrophobicity(logP) -1.37 [HANSCH,C & LEO,AJ (1985)]
Solubility 0.18 mg/mL at 20 oC [YALKOWSKY,SH & DANNENFELSER,RM (1992)]

DETAILS

Description (English)
Item Information
Drug Groups approved
Description The active sympathomimetic hormone from the adrenal medulla in most species. It stimulates both the alpha- and beta- adrenergic systems, causes systemic vasoconstriction and gastrointestinal relaxation, stimulates the heart, and dilates bronchi and cerebral vessels. It is used in asthma and cardiac failure and to delay absorption of local anesthetics. [PubChem]
Indication Used to treat anaphylaxis and sepsis. Also one of the body's main adrenergic neurotransmitters.
Pharmacology Epinephrine is indicated for intravenous injection in treatment of acute hypersensitivity, treatment of acute asthmatic attacks to relieve bronchospasm, and treatment and prophylaxis of cardiac arrest and attacks of transitory atrioventricular heart block with syncopal seizures (Stokes-Adams Syndrome). The actions of epinephrine resemble the effects of stimulation of adrenergic nerves. To a variable degree it acts on both alpha and beta receptor sites of sympathetic effector cells. Its most prominent actions are on the beta receptors of the heart, vascular and other smooth muscle. When given by rapid intravenous injection, it produces a rapid rise in blood pressure, mainly systolic, by (1) direct stimulation of cardiac muscle which increases the strength of ventricular contraction, (2) increasing the heart rate and (3) constriction of the arterioles in the skin, mucosa and splanchnic areas of the circulation. When given by slow intravenous injection, epinephrine usually produces only a moderate rise in systolic and a fall in diastolic pressure. Although some increase in pulse pressure occurs, there is usually no great elevation in mean blood pressure. Accordingly, the compensatory reflex mechanisms that come into play with a pronounced increase in blood pressure do not antagonize the direct cardiac actions of epinephrine as much as with catecholamines that have a predominant action on alpha receptors.
Toxicity Skin, LD50 = 62 mg/kg (rat)
Affected Organisms
Humans and other mammals
Biotransformation Epinephrine is rapidly inactivated in the body and is degraded by enzymes in the liver and other tissues. The larger portion of injected doses is excreted in the urine as inactivated compounds and the remainder either partly unchanged or conjugated. The drug becomes fixed in the tissues and is inactivated chiefly by enzymatic transformation to metanephrine or normetanephrine either of which is subsequently conjugated and excreted in the urine in the form of sulfates and glucuronides. Either sequence results in the formation of 3-methoxy-4-hydroxy-mandelic acid which also is detectable in the urine. Main metabolic enzymes include MAO and COMT
Absorption Usually this vasodilator effect of the drug on the circulation predominates so that the modest rise in systolic pressure which follows slow injection or absorption is mainly the result of direct cardiac stimulation and increase in cardiac output.
Half Life 2 minutes
Elimination Renal
References
Yamashima T: Jokichi Takamine (1854-1922), the samurai chemist, and his work on adrenalin. J Med Biogr. 2003 May;11(2):95-102. [Pubmed]
Bennett MR: One hundred years of adrenaline: the discovery of autoreceptors. Clin Auton Res. 1999 Jun;9(3):145-59. [Pubmed]
External Links
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REFERENCES

  • Yamashima T: Jokichi Takamine (1854-1922), the samurai chemist, and his work on adrenalin. J Med Biogr. 2003 May;11(2):95-102. Pubmed
  • Bennett MR: One hundred years of adrenaline: the discovery of autoreceptors. Clin Auton Res. 1999 Jun;9(3):145-59. Pubmed