Papaverine
|
|
Systematic (IUPAC) name |
1-(3,4-dimethoxybenzyl)-6,7-dimethoxyisoquinoline |
Clinical data |
Trade names |
Pavabid |
AHFS/Drugs.com |
monograph |
MedlinePlus |
a682707 |
Pregnancy
category
|
- AU: A
- US: C (Risk not ruled out)
|
Legal status
|
- AU: Prescription Only (S4)
- US: ℞-only
|
Routes of
administration
|
Oral, intravenous, intramuscular, rectal, intracavernosal |
Pharmacokinetic data |
Bioavailability |
80% |
Protein binding |
~90% |
Metabolism |
Hepatic |
Half-life |
1.5–2 hours |
Excretion |
Renal |
Identifiers |
CAS Registry Number
|
58-74-2 Y
61-25-6 (hydrochloride) |
ATC code
|
A03AD01 G04BE02 |
PubChem |
CID 4680 |
DrugBank |
DB01113 Y |
ChemSpider |
4518 Y |
UNII |
DAA13NKG2Q Y |
KEGG |
D07425 Y |
ChEBI |
CHEBI:28241 N |
ChEMBL |
CHEMBL19224 Y |
Chemical data |
Formula |
C20H21NO4 |
Molecular mass
|
339.385 g/mol |
SMILES
- COc1ccc(cc1OC)Cc2c3cc(c(cc3ccn2)OC)OC
|
InChI
-
InChI=1S/C20H21NO4/c1-22-17-6-5-13(10-18(17)23-2)9-16-15-12-20(25-4)19(24-3)11-14(15)7-8-21-16/h5-8,10-12H,9H2,1-4H3 Y
Key:XQYZDYMELSJDRZ-UHFFFAOYSA-N Y
|
N (what is this?) (verify) |
Papaverine //[1] (lat. papaver, "poppy") is an opium alkaloid antispasmodic drug, used primarily in the treatment of visceral spasm, vasospasm (especially those involving the heart and the brain), and occasionally in the treatment of erectile dysfunction. While it is found in the opium poppy, papaverine differs in both structure and pharmacological action from the analgesic (morphine-related) opium alkaloids (opiates).
Contents
- 1 History
- 2 Uses
- 3 Mechanism
- 4 Side effects
- 5 Formulations and trade names
- 6 References
History
Capsule of
Papaver somniferum showing latex (opium) exuding from incision. Papaverine occurs naturally in opium.
Papaverine was discovered in 1848 by Georg Merck (1825-1873).[2] Merck was a student of the German chemists Justus von Liebig and August Hofmann, and he was the son of Emanuel Merck (1794-1855), founder of the Merck corporation, a major German chemical and pharmaceutical company.[3]
Uses
Papaverine is approved to treat spasms of the gastrointestinal tract, bile ducts and ureter and for use as a cerebral and coronary vasodilator in subarachnoid hemorrhage (combined with balloon angioplasty)[4] and coronary artery bypass surgery.[5] Papaverine may also be used as a smooth muscle relaxant in microsurgery where it is applied directly to blood vessels.
Papaverine is used as an erectile dysfunction drug, alone or sometimes in combination.[6][7] Papaverine, when injected in penile tissue causes direct smooth muscle relaxation and consequent filling of the corpus cavernosum with blood resulting in erection. A topical gel is also available for ED treatment.[8]
It is also commonly used in cryopreservation of blood vessels along with the other glycosaminoglycans and protein suspensions.[9][10] Functions as a vasodilator during cryopreservation when used in conjunction with verapamil, phentolamine, nifedipine, tolazoline or nitroprusside.[11][12]
Papaverine is also being investigated as a topical growth factor in tissue expansion with some success.[13]
Papaverine is used as an off label prophylaxis (preventative) of migraine headaches.[14][15][16] It is not a first line drug such as a few beta blockers, calcium channel blockers, tricyclic antidepressants, and some anticonvulsants such as divalproex, but rather when these first line drugs and secondary drugs such as SSRIs, angiotensin II receptor antagonists, etc. fail in the prophylaxis of migraines, have intolerable side effects or are contraindicated.
Papaverine is also present in combinations of opium alkaloid salts such as papaveretum (Omnopon, Pantopon) and others, along with morphine, codeine, and in some cases noscapine and others in a percentage similar to that in opium, or modified for a given application.
Mechanism
The in vivo mechanism of action is not entirely clear, but an inhibition of the enzyme phosphodiesterase causing elevation of cyclic AMP levels is significant. It may also alter mitochondrial respiration.
Papaverine has also been demonstrated to be a selective phosphodiesterase inhibitor for the PDE10A subtype found mainly in the striatum of the brain. When administered chronically to mice, it produced motor and cognitive deficits and increased anxiety, but conversely may produce an antipsychotic effect.,[17][18] even though not all studies support this view.[19]
Side effects
Frequent side effects of papaverine treatment include polymorphic ventricular tachycardia, constipation, interference with sulphobromophthalein[20] retention test (used to determine hepatic function), increased transaminase levels, increased alkaline phosphatase levels, somnolence, and vertigo.
Rare side effects include flushing of the face, hyperhidrosis (excessive sweating), cutaneous eruption, arterial hypotension, tachycardia, loss of appetite, jaundice, eosinophilia, thrombopenia, mixed hepatitis, headache, allergic reaction, chronic active hepatitis, and paradoxical aggravation of cerebral vasospasm.[21]
Formulations and trade names
Papaverine is available as a conjugate of hydrochloride, codecarboxylate, adenylate, and teprosylate. It was also once available as a salt of hydrobromide, camsylate, cromesilate, nicotinate, and phenylglycolate. The hydrochloride salt is available for intramuscular, intravenous, rectal and oral administration. The teprosylate is available in intravenous, intramuscular, and orally administered formulations. The codecarboxylate is available in oral form, only, as is the adenylate.
The codecarboxylate is sold under the name Albatran,[22] the adenylate as Dicertan,[23] and the hydrochloride salt is sold variously as Artegodan (Germany), Cardioverina (countries outside Europe and the United States), Dispamil (countries outside Europe and the United States), Opdensit (Germany), Panergon (Germany), Paverina Houde (Italy, Belgium), Pavacap (United States), Pavadyl (United States), Papaverine (Israel), Papaverin-Hamelin (Germany), Paveron (Germany), Spasmo-Nit (Germany), Cardiospan, Papaversan, Cepaverin, Cerespan, Drapavel, Forpaven, Papalease, Pavatest, Paverolan, Therapav (Canada[24]), Vasospan, Cerebid, Delapav, Dilaves, Durapav, Dynovas, Optenyl, Pameion, Papacon, Pavabid, Pavacen, Pavakey, Pavased, Pavnell, Alapav, Myobid, Vasal, Pamelon, Pavadel, Pavagen, Ro-Papav, Vaso-Pav, Papanerin-hcl, Qua bid, Papital T.R., Paptial T.R., Pap-Kaps-150.[25] In Hungary, papaverine and homatropine methylbromide are used in mild drugs that help "flush" the bile.[26]
References
- ^ Papaverine - EverydayHealth.com
- ^ Merck Georg (1848). "Vorläufige Notiz über eine neue organische Base im Opium" [Preliminary notice of a new organic base in opium]. Annalen der Chemie und Pharmacie 66: 125–128. doi:10.1002/jlac.18480660121.
- ^ William H. Brock, Justus von Liebig: The Chemical Gatekeeper (Cambridge, England: Cambridge University Press, 1997). page 120.
- ^ Liu JK, Couldwell WT (2005). "Intra-arterial papaverine infusions for the treatment of cerebral vasospasm induced by aneurysmal subarachnoid hemorrhage". Neurocrit Care 2 (2): 124–32. doi:10.1385/NCC:2:2:124. PMID 16159054.
- ^ Takeuchi K, Sakamoto S, Nagayoshi Y, Nishizawa H, Matsubara J (November 2004). "Reactivity of the human internal thoracic artery to vasodilators in coronary artery bypass grafting". Eur J Cardiothorac Surg 26 (5): 956–9. doi:10.1016/j.ejcts.2004.07.047. PMID 15519189.
- ^ Desvaux, P (2005). "An overview of the management of erectile disorders". Presse medicale (Paris, France : 1983) 34 (13 Suppl): 5–7. PMID 16158020. edit
- ^ Bella, A. J.; Brock, G. B. (2004). "Intracavernous Pharmacotherapy for Erectile Dysfunction". Endocrine 23 (2–3): 149–155. doi:10.1385/ENDO:23:2-3:149. PMID 15146094. edit
- ^ Kim, E.; Elrashidy, R.; McVary, K. (1995). "Papaverine Topical Gel for Treatment of Erectile Dysfunction". The Journal of Urology 153 (2): 361–5. doi:10.1097/00005392-199502000-00019. PMID 7815584. edit
- ^ Müller-Schweinitzer E, Ellis P (May 1992). "Sucrose promotes the functional activity of blood vessels after cryopreservation in DMSO-containing fetal calf serum". Naunyn Schmiedebergs Arch. Pharmacol. 345 (5): 594–7. doi:10.1007/bf00168954. PMID 1528275.
- ^ Müller-Schweinitzer E, Hasse J, Swoboda L (1993). "Cryopreservation of human bronchi". J Asthma 30 (6): 451–7. doi:10.3109/02770909309056754. PMID 8244915.
- ^ Brockbank KG (February 1994). "Effects of cryopreservation upon vein function in vivo". Cryobiology 31 (1): 71–81. doi:10.1006/cryo.1994.1009. PMID 8156802.
- ^ Giglia JS, Ollerenshaw JD, Dawson PE, Black KS, Abbott WM (November 2002). "Cryopreservation prevents arterial allograft dilation". Ann Vasc Surg 16 (6): 762–7. doi:10.1007/s10016-001-0072-1. PMID 12391500.
- ^ Tang Y, Luan J, Zhang X (2004). "Accelerating tissue expansion by application of topical papaverine cream". Plast. Reconstr. Surg. 114 (5): 1166–9. doi:10.1097/01.PRS.0000135854.48570.76. PMID 15457029.
- ^ Sillanpää, M; Koponen, M (1978). "Papaverine in the prophylaxis of migraine and other vascular headache in children". Acta paediatrica Scandinavica 67 (2): 209–12. doi:10.1111/j.1651-2227.1978.tb16304.x. PMID 343489. edit
- ^ Vijayan, N. (1977). "Brief therapeutic report: papaverine prophylaxis of complicated migraine". Headache 17 (4): 159–162. doi:10.1111/j.1526-4610.1977.hed1704159.x. PMID 893088. edit
- ^ Poser, C. M. (1974). "Letter: Papaverine in prophylactic treatment of migraine". Lancet 1 (7869): 1290–1222. doi:10.1016/S0140-6736(74)90045-2. PMID 4134173. edit
- ^ Siuciak JA, Chapin DS, Harms JF et al. (August 2006). "Inhibition of the striatum-enriched phosphodiesterase PDE10A: a novel approach to the treatment of psychosis". Neuropharmacology 51 (2): 386–96. doi:10.1016/j.neuropharm.2006.04.013. PMID 16780899.
- ^ Hebb AL, Robertson HA, Denovan-Wright EM (May 2008). "Phosphodiesterase 10A inhibition is associated with locomotor and cognitive deficits and increased anxiety in mice". Eur Neuropsychopharmacol 18 (5): 339–63. doi:10.1016/j.euroneuro.2007.08.002. PMID 17913473.
- ^ Weber M, Breier M, Ko D, Thangaraj N, Marzan DE, Swerdlow NR (May 2009). "Evaluating the antipsychotic profile of the preferential PDE10A inhibitor, papaverine". Psychopharmacology (Berl.) 203 (4): 723–35. doi:10.1007/s00213-008-1419-x. PMC 2748940. PMID 19066855.
- ^ "SID 149219 — PubChem Substance Summary".
- ^ Clyde BL, Firlik AD, Kaufmann AM, Spearman MP, Yonas H (April 1996). "Paradoxical aggravation of vasospasm with papaverine infusion following aneurysmal subarachnoid hemorrhage. Case report". J. Neurosurg. 84 (4): 690–5. doi:10.3171/jns.1996.84.4.0690. PMID 8613866.
- ^ "SID 660773 — PubChem Substance Summary".
- ^ "SID 660767 — PubChem Substance Summary".
- ^ "THERAPAV (PRODUIT PUR) - Détail". Retrieved 26 September 2005. CSST - Service du répertoire toxicologique. (French)
- ^ "SID 660767 — PubChem Substance Summary — Depositor-Supplied Synonyms: All".
- ^ Neo-Bilagit
Opium components
|
|
Alkaloids |
- 16-Hydroxythebaine
- Berberine
- Canadine
- Codamine
- Coptisine
- Coreximine
- Cycloartenol
- Cycloartenone
- Cyclolaudenol
- Dehydroreticuline
- Dihydrosanguinarine
- Glaucine
- Isoboldine
- Isocorypalmine
- Laudanidine
- Magnoflorine
- Narceine
- Narceinone
- Norlaudanosoline
- Norsanguinarine
- Oripavine
- Oxysanguinarine
- Palaudine
- Papaverrubine B (O-methyl-porphyroxine)
- Papaverrubine C (epiporphyroxine)
- Reticuline
- Salutaridine (sinoacutine)
- Sanguinarine
- Scoulerine
- Somniferine
- Stepholidine
|
|
Morphine group
(Phenanthrenes. Includes opioids) |
- Codeine
- Morphine
- Narcotoline
- Neopine
- Perparin
- Papaverrubine D (porphyroxine)
- Pseudocodeine
- Pseudomorphine
- Thebaine
|
|
Isoquinolines |
- Cotarnine
- Eupaverine
- Hydrocotarnine
- Laudanosine
- Laudanine
- Noscapine (narcotine)
- Papaverine
- Papaveraldine
- Xanthaline
|
|
Protopine group |
- α-Allocryptopine
- α-Fagarine
- Corycavamine
- Corycavine
- Cryptopine
- Protopine
|
|
Tetrahydroprotoberberine group |
- Corydaline
- Corybulbine
- Isocorybulbine
- Capaurine
|
|
Aporphine group |
- Dicentrine
- Glaucine
- Corytuberine
- Cularine
- Corydine
- Isocorydine
- Bulbocapnine
|
|
Phtalide-isoquinolines |
- Adulmine
- Bicuculline
- Bicucine
- Corlumine
|
|
α-Naphthaphenanthridines |
- Chelidonine
- β-Homochelidonoine
- Chelerythrine
- Sanguinarine
|
|
Other components |
|
|
Drugs for functional gastrointestinal disorders (A03)
|
|
Drugs for
functional
bowel disorders |
Antimuscarinics
|
Tertiary
amino group
|
- Oxyphencyclimine
- Camylofin
- Mebeverine
- Trimebutine
- Rociverine
- Dicycloverine
- Dihexyverine
- Difemerine
- Piperidolate
|
|
Quaternary
ammonium
compounds
|
- Benzilone
- Mepenzolate
- Pipenzolate
- Glycopyrronium
- Oxyphenonium
- Penthienate
- Methantheline
- Propantheline
- Otilonium
- Tridihexethyl
- Isopropamide
- Hexocyclium
- Poldine
- Bevonium
- Diphemanil
- Tiemonium
- Prifinium
- Timepidium
- Fenpiverinium
|
|
|
Phosphodiesterase
inhibitors
|
- Papaverine
- Drotaverine
- Moxaverine
|
|
Acting on
serotonin receptors
|
- 5-HT3 antagonists
- 5-HT4 agonists
- Mosapride
- Prucalopride
- Tegaserod
|
|
Other
|
- Alverine
- Caroverine
- Chlorbenzoxamine
- Diisopromine
- Dimethylaminopropionylphenothiazine
- Fenpiprane
- Fenoverine
- Idanpramine
- Isometheptene
- Phloroglucinol
- Pinaverium
- Proxazole
- Silicones
- Tiropramide
- Trepibutone
- Trimethyldiphenylpropylamine
|
|
|
Belladonna
and derivatives
(antimuscarinics) |
- tertiary amines: Atropine
- Hyoscyamine
- quaternary ammonium compounds:
- Scopolamine
- Butylscopolamine
- Methylscopolamine
- Methylatropine
- Fentonium
- Cimetropium bromide
|
|
Propulsives |
- primarily dopamine antagonists
- Metoclopramide/Bromopride
- Clebopride
- Domperidone
- Alizapride
- 5-HT4 agonists
|
|
Index of digestion
|
|
Description |
- Anatomy
- Physiology
- Development
|
|
Disease |
- Congenital
- Neoplasms and cancer
- Inflammatory bowel disease
- Gluten sensitivity
- Other
- Symptoms and signs
- Blood tests
|
|
Treatment |
- Procedures
- Drugs
- anabolic steroids
- antacids
- diarrhoea and infection
- bile and liver
- functional gastrointestinal disorders
- laxatives
- peptic ulcer and reflux
- nausea and vomiting
- other
- Surgery
|
|
|
Drugs for erectile dysfunction (G04BE) and premature ejaculation
|
|
For erectile dysfunction |
Prostaglandins (E) |
|
|
PDE5 inhibitors |
- Avanafil
- Sildenafil
- Tadalafil
- Udenafil
- Vardenafil
|
|
Alpha blockers |
- Moxisylyte
- Phentolamine
- Yohimbine
|
|
Others |
|
|
|
For premature ejaculation |
SSRIs |
|
|
Oxytocin receptor antagonists |
|
|
Dopaminergic stimulants |
- Amphetamine
- Methamphetamine
- Methylphenidate
|
|
|
Index of reproductive medicine
|
|
Description |
- Anatomy
- Physiology
- Development
- sex determination and differentiation
|
|
Disease |
- Infections
- Congenital
- Neoplasms and cancer
- male
- female
- gonadal
- germ cell
- Other
- Symptoms and signs
|
|
Treatment |
- Procedures
- Drugs
- benign prostatic hypertrophy
- erectile dysfunction and premature ejaculation
- sexual dysfunction
- infection
- hormones
- androgens
- estrogens
- progestogens
- GnRH
- prolactin
- Assisted reproduction
- Birth control
|
|
|
Phosphodiesterase inhibitors
|
|
PDE1 |
- MMPX
- SCH-51866
- Vinpocetine
|
|
PDE2 |
|
|
PDE3 |
- Amrinone
- Anagrelide
- Bucladesine
- Cilostamide
- Cilostazol
- Enoximone
- KMUP-1
- Milrinone
- Quazinone
- RPL-554
- Siguazodan
- Trequinsin
- Vesnarinone
- Zardaverine
|
|
PDE4 |
- Apremilast
- Arofylline
- Atizoram
- Cilomilast
- Denbutylline
- Drotaverine
- Etazolate
- Filaminast
- Glaucine
- HT-0712
- Ibudilast
- ICI-63197
- Irsogladine
- Luteolin
- Mesembrine
- Piclamilast
- Roflumilast
- Rolipram
- RPL-554
- YM-976
|
|
PDE5 |
- Acetildenafil
- Aildenafil
- Avanafil
- Dipyridamole
- Icariin
- Lodenafil
- Mirodenafil
- MY-5445
- Nitrosoprodenafil
- Sildenafil
- Sulfoaildenafil
- T-0156
- Tadalafil
- Udenafil
- Vardenafil
|
|
PDE6 |
|
|
PDE7 |
|
|
PDE9 |
|
|
PDE10 |
- Papaverine
- PF-2545920
- Tofisopam
|
|
PDE11 |
BC11-38
|
|
Nonselective |
- Caffeine
- Doxofylline
- IBMX
- Pentoxifylline
- Propentofylline
- Theophylline
|
|