Propofol

From Self-sufficiency
Jump to: navigation, search
Propofol
File:Propofol.svg
File:Propofol3d.png
Systematic (IUPAC) name
2,6-diisopropylphenol
Clinical data
Pregnancy
category
Routes of
administration
Intravenous
Legal status
Legal status
Pharmacokinetic data
Bioavailability NA
Protein binding 95 to 99%
Metabolism Hepatic glucuronidation
Biological half-life 30 to 60 min
Excretion Renal
Identifiers
CAS Number 2078-54-8
ATC code N01AX10 (WHO)
PubChem CID 4943
DrugBank APRD01201
ChemSpider 4774
Chemical data
Formula C12H18O
Molar mass 178.271 g/mol[[Script error: No such module "String".]]
Script error: No such module "collapsible list".
  (verify)
Script error: No such module "TemplatePar".Expression error: Unexpected < operator.

Propofol (INN, marketed as Diprivan by AstraZeneca) is a short-acting, intravenously administered hypnotic agent. Its uses include the induction and maintenance of general anesthesia, sedation for mechanically ventilated adults, and procedural sedation. Propofol is also commonly used in veterinary medicine. Propofol is approved for use in more than 50 countries, and generic versions are available.

Chemically, propofol is unrelated to barbiturates, and has largely replaced sodium thiopental (Pentothal) for induction of anesthesia because recovery from propofol is more rapid and "clear" when compared with thiopental. Propofol is not considered an analgesic, so opioids such as fentanyl may be combined with propofol to alleviate pain.[1] Due to its amnestic effects and appearance as a white liquid, propofol has been humorously dubbed "milk of amnesia" by doctors.[2]

Indications

Propofol is used for induction of anesthesia, having largely replaced sodium thiopental for this indication.[1] Propofol is also used to sedate individuals who are receiving mechanical ventilation. In critically ill patients it has been found to be superior to lorazepam both in effectiveness as well as overall cost; as result, the use of propofol for this indication is now encouraged whereas the use of lorazepam for this indication is discouraged.[3] Propofol is also used for sedation, for example, prior to endoscopic procedures, and has been found to have less prolonged sedation and a faster recovery time compared to midazolam.[4]

Chemistry

File:Propofol.jpg
20-mL ampoule of 1% propofol emulsion, as sold in Australia by Sandoz

Propofol was originally developed in the UK by Imperial Chemical Industries as ICI 35868. Clinical trials followed in 1977, using a form solubilised in cremophor EL. However, due to anaphylactic reactions to cremophor, this formulation was withdrawn from the market and subsequently reformulated as an emulsion of a soya oil/propofol mixture in water. The emulsified formulation was relaunched in 1986 by ICI (now AstraZeneca) under the brand name Diprivan (abbreviated version of diisopropyl intravenous anesthetic). The currently available preparation is 1% propofol, 10% soybean oil, and 1.2% purified egg phospholipid (emulsifier), with 2.25% of glycerol as a tonicity-adjusting agent, and sodium hydroxide to adjust the pH. Diprivan contains EDTA as an antimicrobial agent. Newer generic formulations contain sodium metabisulfite or benzyl alcohol. Propofol emulsion is a highly opaque white fluid due to the scattering of light from the tiny (~150 nm) oil droplets that it contains.

A water-soluble prodrug form, fospropofol, has recently been developed and tested with positive results. Fospropofol is rapidly broken down by the enzyme alkaline phosphatase to form propofol. Marketed as Lusedra, this new formulation may not produce the pain at injection site that often occurs with the traditional form of the drug. The US Food and Drug Administration approved the product in 2008.[5]

Pharmacology

Propofol is highly protein-bound in vivo and is metabolised by conjugation in the liver.[6] Its rate of clearance exceeds hepatic blood flow, suggesting an extrahepatic site of elimination as well. It has several mechanisms of action,[7][8][9] both through potentiation of GABAA receptor activity, thereby slowing the channel-closing time,[10][11][12] and also acting as a sodium channel blocker.[13][14] Recent research has also suggested that the endocannabinoid system may contribute significantly to propofol's anesthetic action and to its unique properties.[15]

The half life of elimination of propofol has been estimated at between 2 and 24 hours. However, its duration of clinical effect is much shorter, because propofol is rapidly distributed into peripheral tissues. When used for IV sedation, a single dose of propofol typically wears off within minutes. Propofol is versatile; the drug can be given for short or prolonged sedation as well as for general anesthesia. Its use is not associated with nausea as is often seen with opioid medications. These characteristics of rapid onset and recovery along with its amnestic effects[16] have led to its widespread use for sedation and anesthesia.

EEG research upon those undergoing general anesthesia with propofol finds that it causes a prominent reduction in the brain's information integration capacity at gamma wave band frequencies.[17]

Contraindications and interactions

The respiratory effects of propofol are potentiated by other respiratory depressants, including benzodiazepines.[18]

As with any other general anesthetic agent, propofol should be administered only where appropriately trained staff and facilities for monitoring are available, as well as proper airway management, a supply of supplemental oxygen, artificial ventilation and cardiovascular resuscitation.[19]

Adverse effects

Aside from low blood pressure (mainly through vasodilation) and transient apnea following induction doses, one of propofol's most frequent side effects is pain on injection, especially in smaller veins. This pain can be mitigated by pretreatment with lidocaine.[20] Patients show great variability in their response to propofol, at times showing profound sedation with small doses. A more serious but rare side effect is dystonia.[21] Mild myoclonic movements are common, as with other intravenous hypnotic agents. Propofol appears to be safe for use in porphyria, and has not been known to trigger malignant hyperpyrexia.

It has been reported that the euphoria caused by propofol is unlike that caused by other sedation agents, "I even remember my first experience using propofol: a young woman who was emerging from a MAC anesthesia looked at me as though I were a masked Brad Pitt and told me that she felt simply wonderful." —C.F. Ward, M.D.[22]

Propofol has reportedly induced priapism in some individuals.[23][24]

Propofol infusion syndrome

Another recently described rare, but serious, side effect is propofol infusion syndrome. This potentially lethal metabolic derangement has been reported in critically-ill patients after a prolonged infusion of high-dose propofol in combination with catecholamines and/or corticosteroids.[25]

Overdose

A number of people have died following self-administration of the drug via intravenous injection, undoubtedly due to lack of support of respiratory and/or cardiovascular function. Postmortem blood propofol concentrations in such cases have generally been within the range of those observed in living patients receiving the drug under controlled medical conditions.[26]

Nonmedical use

There are reports of self-administration of propofol for recreational purposes.[27][28] Short-term effects include mild euphoria, hallucinations, and disinhibition.[29][30] Long-term use has been reported to result in addiction.[31][32] Such use of the drug has been described amongst medical staff, such as anaesthetists who have access to the drug,[31] Misuse is reported to be more common among anaesthetists on rotations with short rest periods, as recreational users report rousing to a well-rested state.[33] Recreational use of the drug is relatively rare due to its potency and the level of monitoring required to take it safely. Propofol has not yet been scheduled by the US Drug Enforcement Administration.[33][34] The steep dose-response curve of the drug makes potential misuse very dangerous without proper monitoring, and at least three deaths from self-administration have been recorded.[35][36]

Attention to the risks of nonmedical use of propofol increased in August 2009 due to the Los Angeles County coroner's conclusion that Michael Jackson died from a mixture of propofol and the benzodiazepine drug lorazepam.[37][38][39][40] According to a July 22, 2009, search warrant affidavit unsealed by the district court of Harris County, Texas, Jackson's personal physician administered 25 milligrams of propofol diluted with lidocaine shortly before Jackson's death.[38][39][41]

Supply issues

On June 4, 2010 Teva Pharmaceutical Industries,Ltd., an Israel-based pharmaceutical firm, and major supplier of the drug, announced that they would no longer manufacture it. This aggravates an already existing shortage, caused by manufacturing difficulties at Teva and Hospira. (Astra-Zeneca has not made propofol in some time.) A Teva spokesperson attributed the halt to ongoing process difficulties, and a number of pending lawsuits related to the drug.[42]

References

Cite error: Invalid <references> tag; parameter "group" is allowed only.

Use <references />, or <references group="..." />

External links

cs:Propofol

da:Propofol de:Propofol es:Propofol eo:Propofolo fr:Propofol it:Propofol hu:Propofol nl:Propofol ja:プロポフォール no:Propofol pl:Propofol pt:Propofol ru:Пропофол fi:Propofoli sv:Propofol

ur:Propofol
  1. 1.0 1.1 Miner JR, Burton JH. Clinical practice advisory: Emergency department procedural sedation with propofol. Annals of Emergency Medicine. 2007 Aug;50(2):182–7, 187.e1. Epub 2007 Feb 23.
  2. Euliano TY, Gravenstein JS (2004). "A brief pharmacology related to anesthesia". Essential anesthesia: from science to practice. Cambridge, UK: Cambridge University Press. p. 173. ISBN 0-521-53600-6. Retrieved 2009-06-02. 
  3. Lua error in package.lua at line 80: module 'Module:Citation/CS1/Suggestions' not found.
  4. Lua error in package.lua at line 80: module 'Module:Citation/CS1/Suggestions' not found.
  5. "www.accessdata.fda.gov/scripts/cder/drugsatfda/index.cfm?fuseaction=Search.DrugDetails". 
  6. Favetta P, Degoute C-S, Perdrix J-P, Dufresne C, Boulieu R, and Guitton J (2002). Propofol metabolites in man following propofol induction and maintenance. British Journal of Anaesthesia, 88, 653–8.
  7. Trapani G, Altomare C, Liso G, Sanna E, Biggio G. Propofol in anesthesia. Mechanism of action, structure-activity relationships, and drug delivery. Current Medicinal Chemistry. 2000 Feb;7(2):249-71. PMID 10637364
  8. Kotani Y, Shimazawa M, Yoshimura S, Iwama T, Hara H. The experimental and clinical pharmacology of propofol, an anesthetic agent with neuroprotective properties. CNS Neuroscience and Therapeutics. 2008 Summer;14(2):95–106. PMID 18482023
  9. Vanlersberghe C, Camu F. Propofol. Handbook of Experimental Pharmacology. 2008;(182):227-52. PMID 18175094
  10. Trapani G, Latrofa A, Franco M, Altomare C, Sanna E, Usala M, Biggio G, Liso G. Propofol analogues. Synthesis, relationships between structure and affinity at GABAA receptor in rat brain, and differential electrophysiological profile at recombinant human GABAA receptors. Journal of Medicinal Chemistry. 1998 May 21;41(11):1846–54. PMID 9599235
  11. Krasowski MD, Jenkins A, Flood P, Kung AY, Hopfinger AJ, Harrison NL. General anesthetic potencies of a series of propofol analogs correlate with potency for potentiation of gamma-aminobutyric acid (GABA) current at the GABA(A) receptor but not with lipid solubility. Journal of Pharmacology and Experimental Therapeutics. 2001 Apr;297(1):338-51. PMID 11259561
  12. Krasowski MD, Hong X, Hopfinger AJ, Harrison NL. 4D-QSAR analysis of a set of propofol analogues: mapping binding sites for an anesthetic phenol on the GABA(A) receptor. Journal of Medicinal Chemistry. 2002 Jul 18;45(15):3210–21. PMID 12109905
  13. Haeseler G, Leuwer M. High-affinity block of voltage-operated rat IIA neuronal sodium channels by 2,6 di-tert-butylphenol, a propofol analogue. European Journal of Anaesthesiology. 2003 Mar;20(3):220-4. PMID 12650493
  14. Haeseler G, Karst M, Foadi N, Gudehus S, Roeder A, Hecker H, Dengler R, Leuwer M. High-affinity blockade of voltage-operated skeletal muscle and neuronal sodium channels by halogenated propofol analogues. British Journal of Pharmacology. 2008 Sep;155(2):265-75. PMID 18574460
  15. Fowler, CJ. "Possible involvement of the endocannabinoid system in the actions of three clinically used drugs." Trends Pharmacol. Sci. 2004 Feb;25(2):59–61.
  16. Veselis RA, Reinsel RA, Feshchenko VA, & Wroński M. The comparative amnestic effects of midazolam, propofol, thiopental, and fentanyl at equisedative concentrations. Anesthesiology. 1997 Oct;87(4):749-64. PMID 9357875
  17. Lee U, Mashour GA, Kim S, Noh GJ, Choi BM. (2009). Propofol induction reduces the capacity for neural information integration: implications for the mechanism of consciousness and general anesthesia. Conscious Cogn. 18(1):56-64. PMID 19054696 doi:10.1016/j.concog.2008.10.005
  18. Lua error in package.lua at line 80: module 'Module:Citation/CS1/Suggestions' not found.
  19. http://www1.astrazeneca-us.com/pi/diprivan.pdf
  20. "Propofol Drug Information, Professional". drugs.com. Retrieved 2007-01-02.  External link in |publisher= (help)
  21. Schramm BM, Orser BA (2002). Dystonic reaction to propofol attenuated by benztropine (Cogentin). Anesth Analg, 94, 1237-40.
  22. http://www.csahq.org/pdf/bulletin/propofol_57_2.pdf
  23. Lua error in package.lua at line 80: module 'Module:Citation/CS1/Suggestions' not found.
  24. Lua error in package.lua at line 80: module 'Module:Citation/CS1/Suggestions' not found.|url=|format=|accessdate=2009-08-25|doi_brokendate=2009-08-25 }}
  25. Vasile B, Rasulo F, Candiani A, Latronico N (2003). "The pathophysiology of propofol infusion syndrome: a simple name for a complex syndrome". Intensive care medicine. 29 (9): 1417–25. doi:10.1007/s00134-003-1905-x. PMID 12904852. 
  26. R. Baselt, Disposition of Toxic Drugs and Chemicals in Man, 8th edition, Biomedical Publications, Foster City, CA, 2008, pp. 1325-1327.
  27. Riezzo I, Centini F, Neri M, Rossi G, Spanoudaki E, Turillazzi E, Fineschi V (2009). "Brugada-like EKG pattern and myocardial effects in a chronic propofol abuser". Clin Toxicol (Phila). 47 (4): 358–63. doi:10.1080/15563650902887842. PMID 19514884. 
  28. Belluck, Pam (2009-08-06). "With High-Profile Death, Focus on High-Risk Drug". New York Times. Retrieved 2009-08-07. 
  29. In Sweetman SC (Ed.). Martindale: The Complete Drug Reference 2005. 34th Edn London pp. 1305–7
  30. Baudoin Z. General anaesthetics and anaesthetic gases. In Dukes MNG and Aronson JK (Eds.). Meyler's Side Effects of Drugs 2000. 14th Edn Amsterdam pp. 330
  31. 31.0 31.1 Roussin A, Montastruc JL, Lapeyre-Mestre M (October 21, 2007). "Pharmacological and clinical evidences on the potential for abuse and dependence of propofol: a review of the literature". Fundamental and Clinical Pharmacology. 21 (5): 459–66. doi:10.1111/j.1472-8206.2007.00497.x. PMID 17868199. 
  32. Lua error in package.lua at line 80: module 'Module:Citation/CS1/Suggestions' not found.
  33. 33.0 33.1 Charatan F (2009). "Concerns mount over misuse of propofol among US healthcare professionals". BMJ. 339: b3673. doi:10.1136/bmj.b3673. PMID 19737827. 
  34. DEA may limit drug eyed in Jackson case. Associated Press. 15 July 2009.
  35. Iwersen-Bergmann S, Rösner P, Kühnau HC, Junge M, Schmoldt A (2001). "Death after excessive propofol abuse". International Journal of Legal Medicine. 114 (4-5): 248–51. doi:10.1007/s004149900129. 
  36. Kranioti EF, Mavroforou A, Mylonakis P, Michalodimitrakis M. (March 22, 2007). "Lethal self administration of propofol (Diprivan): A case report and review of the literature". Forensic Science International. 167 (1): 56–8. doi:10.1016/j.forsciint.2005.12.027. PMID 16431058.  Check date values in: |access-date= (help);
  37. Empty citation (help) 
  38. 38.0 38.1 Surdin, Ashley (2009-08-25). "Coroner Attributes Michael Jackson's Death to Propofol". The Washington Post. Retrieved 2010-05-22. 
  39. 39.0 39.1 Itzkoff, Dave (2009-08-24). "Coroner's Findings in Jackson Death Revealed". The New York Times. Retrieved 2010-05-22. 
  40. "Jackson's Death: How Dangerous Is Propofol?". Time. 2009-08-25. Retrieved 2010-05-22. 
  41. http://www.scribd.com/doc/19058649/Michael-Jackson-search-warrant.  Missing or empty |title= (help)
  42. "Teva won't make more of powerful sedative".