Carbetocin Explained

Carbetocin, sold under the brand names Pabal among others, is a medication used to prevent excessive bleeding after childbirth, particularly following Cesarean section.[1] It appears to work as well as oxytocin. Due to it being less economical than other options, use is not recommended by NHS Scotland.[1] It is given by injection into a vein or muscle.[2]

Side effects differ little from that of no treatment or placebo.[2] Use is not recommended in people with epilepsy or eclampsia.[1] Carbetocin is a manufactured long acting form of oxytocin. It works by activating the oxytocin receptor which causes the uterus to contract.[3] [2]

Carbetocin was first described in 1974.[4] It was approved for medical use in Canada and the United Kingdom in 1997.[2] It is on the World Health Organization's List of Essential Medicines.[5] It is not available in the United States or Japan.[6] [2]

Medical uses

Carbetocin has been approved for use immediately following an elective Cesarean section when a local or spinal anesthesia has been used.[7] Since the uterus cannot contract on its own following incision during a Cesarean section, exogenous administration of oxytocin or an analog is necessary to restore uterine tone and prevent hemorrhage.[7] [8]

Safety of carbetocin following vaginal births and emergency Cesarean sections has not been established, though studies have suggested efficacy following vaginal births to that following Cesarean sections. Some studies have shown that a 10-70ug dose following vaginal delivery caused contractions and no adverse side effects.[9] Carbetocin has also been shown to increase uterine involution (the return of the uterus to its contracted state after the birth of the baby) in humans, horses and cows.[10] [11]

Comparison with other medication

In 2018, heat-stable carbetocin, a formulation that does not require strict refrigeration, was found to be as good as oxytocin for reduction of postpartum hemorrhage after vaginal delivery.[12] It is hoped that this will make oxytocic hemorrhage control more widely available and less expensive,[12] which will be particularly useful in regions of developing countries where the cold chain (in drug transport and storage) is unreliable because of power outages or equipment problems.[13] [14]

Due to carbetocin's considerably longer half-life, its effects are longer lasting than other oxytocin homologs such as oxytocin or barusiban. A single carbetocin dose compared to a placebo or an eight-hour intravenous drip of oxytocin in a randomized blind study, necessitated less additional oxytocin therapy following a Cesarean section. Oxytocin receptor antagonists, such as barusiban or atosiban have the opposite effect of depressing oxytocin receptor activity and can be used to stop premature labor and uterine contractions.

Adverse effects

Ten to forty percent of people will experience nausea, vomiting, abdominal pain, itching skin, increased body temperature, trembling and weakness. One to five percent of peoples may experience back and chest pain, dizziness, anemia, chills and sweating, metallic taste, tachycardia and respiratory distress.

Contraindications for the use of carbetocin include inappropriate timing during labor and delivery (such as before parturition or to induce labor) or allergic reactions to carbetocin or other oxytocin homologues. Additionally, carbetocin should not be used if a person has high blood pressure or cardiovascular problems. Overdosage or repeated use of carbetocin, particularly if used during pregnancy, could cause hyper-excitation of the oxytocin receptors resulting in excessive and prolonged stimulation of uterine contractions, increasing risk of uterine rupture, placental abruption, fetal respiratory distress and postpartum hemorrhage.

Interactions

Due to oxytocin's close sequence homology with vasopressin, oxytocin analogs often bind with much lower affinity to vasopressin receptors V1, in the uterine lining, and V2, in the kidneys[15] and may consequently interact with or disrupt the vasopressin circuitry and feedback loops. Carbetocin may work synergistically with drugs such as dinoprostone and misoprostol that ripen the cervix. Concurrent use of these drugs can be risky, particularly during pregnancy and prenatal care, possibly causing premature labor or abortion.

Pharmacology

Mechanism of action

Carbetocin works as an oxytocic, antihemorrhagic and uterotonic drug in the peripheral nervous system. The most common causes of postpartum hemorrhage are lack of tone in the uterus from overstretching or the use of an anesthetic.[16]

Carbetocin functions as an agonist at peripheral oxytocin receptors, particularly in the myometrium, with lesser affinity for myoepithelial cells. Oxytocin receptors are G protein-coupled[17] and their mechanism of action involves second messengers and the production of inositol phosphates.[18] Carbetocin mimics this mechanism. Binding for carbetocin and other oxytocin agonists has been shown to be nonselective at the extracellular N-terminus and loops E2 and E3.[18] While the oxytocin receptor shows equal affinity for oxytocin and carbetocin, the biological effect of carbetocin is almost 50% that of endogenous or exogenous oxytocin.[18] Carbetocin has a much longer lasting effect than oxytocin, necessitating only a single dose. Carbetocin inhibits endogenous oxytocin release, interrupting the uterine feedback loop with the hypothalamus and decreasing both central and peripheral release of oxytocin.[17] Carbetocin is a biased agonist of the oxytocin receptor.[19]

During pregnancy, the synthesis of oxytocin receptors in the uterus greatly increases, reaching a peak during labor and delivery. Consequently, the administration of carbetocin or another oxytocin analog during or immediately following birth will have increased uterotonic and contractile effect. The application of carbetocin does not affect a non-pregnant uterus with lower oxytocin receptor expression.[8] Carbetocin also functions to thicken the blood, further preventing post-partum hemorrhage.[20] Carbetocin should not be used to induce or augment labor since it could cause cardiac or respiratory distress to mother or infant.[7] [8]

Pharmacokinetics

Carbetocin is to be used in the hospital by prescription only. It can be administered intravenously or intramuscularly. In both cases, the recommended dose for an average adult female is 100ug. Contractile effects of the uterus are apparent within two minutes and can be observed for approximately one hour,[21] though maximum binding occurs about 30 minutes after intramuscular injection. Administration is performed immediately following parturition to minimize risk of postpartum hemorrhage by inducing uterine contractions, increasing muscle tone and thickening the blood. If further uterine stimulation is needed, treatment with other forms of oxytocic uterotonic drugs should be used.[21]

Endogenous and synthetic oxytocin has a half-life of approximately 3.5minutes.[8] [22] Carbetocin, in comparison, has a much longer half-life ranging from 85 to 100minutes.[8] [22] The bioavailable dose is around 80%.[9] The elimination half-life following intravenous administration is around 40 minutes, though the elimination mechanism is not entirely known.[21] Studies have shown that elimination is only minimally renal (0.7%), but may occur at least partially through enzymatic degradation of peptides, primarily on the C-terminal end.[22] Both elimination and volume of distribution are not dose dependent.[21]

Society and culture

Legal status

Carbetocin has been approved for use under the following three brand names in 23 countries: Duratocin (Argentina, Australia, Bahrain, Canada, China, Hong Kong, Italy, Malaysia, Singapore, New Zealand), Lonactene (Mexico), and Pabal (Austria, Belgium, Switzerland, Germany, Estonia, France, UK, Hungary, Lithuania, Luxembourg, Finland). Duratocin has also been approved for veterinary use in Poland, Germany, Italy, Belgium, Luxembourg, France and the Netherlands.[20]

Brand names

Duratocin, Pabal, Lonactene, Depotocin, Comoton, and Decomoton.

Notes and References

  1. Book: British National Formulary: BNF 76 . 2018 . Pharmaceutical Press . 978-0-85711-338-2 . 804 . 76th.
  2. Web site: Proposal for Inclusion of Carbetocin in the Who List of Essential Medicines . WHO . 25 October 2019.
  3. Book: Morton IK, Hall JM . Concise Dictionary of Pharmacological Agents: Properties and Synonyms. 2012. Springer Science & Business Media. 978-94-011-4439-1. 65–.
  4. Book: Elks J . The Dictionary of Drugs: Chemical Data: Chemical Data, Structures and Bibliographies. 2014. Springer. 978-1-4757-2085-3. 214–.
  5. Book: ((World Health Organization)) . World Health Organization model list of essential medicines: 21st list 2019 . 2019 . 10665/325771 . World Health Organization . World Health Organization . Geneva . WHO/MVP/EMP/IAU/2019.06. License: CC BY-NC-SA 3.0 IGO .
  6. Web site: Carbetocin Drug Information, Professional . Drugs.com . 12 November 2019 . 28 November 2020 . https://web.archive.org/web/20201128074038/https://www.drugs.com/mmx/carbetocin.html . dead .
  7. Attilakos G, Psaroudakis D, Ash J, Buchanan R, Winter C, Donald F, Hunt LP, Draycott T . 6 . Carbetocin versus oxytocin for the prevention of postpartum haemorrhage following caesarean section: the results of a double-blind randomised trial . BJOG . 117 . 8 . 929–936 . July 2010 . 20482535 . 10.1111/j.1471-0528.2010.02585.x . 205616218 .
  8. Moertl MG, Friedrich S, Kraschl J, Wadsack C, Lang U, Schlembach D . Haemodynamic effects of carbetocin and oxytocin given as intravenous bolus on women undergoing caesarean delivery: a randomised trial . BJOG . 118 . 11 . 1349–1356 . October 2011 . 21668768 . 10.1111/j.1471-0528.2011.03022.x . 41172212 . free .
  9. Silcox J, Schulz P, Horbay GL, Wassenaar W . Transfer of carbetocin into human breast milk . Obstetrics and Gynecology . 82 . 3 . 456–459 . September 1993 . 8355953 .
  10. Bajcsy AC, Szenci O, van der Weijden GC, Doornenbal A, Maassen F, Bartyik J, Taverne MA . The effect of a single oxytocin or carbetocin treatment on uterine contractility in early postpartum dairy cows . Theriogenology . 65 . 2 . 400–414 . January 2006 . 15993938 . 10.1016/j.theriogenology.2005.05.040 .
  11. Schramme AR, Pinto CR, Davis J, Whisnant CS, Whitacre MD . Pharmacokinetics of carbetocin, a long-acting oxytocin analogue, following intravenous administration in horses . Equine Veterinary Journal . 40 . 7 . 658–661 . November 2008 . 19165935 . 10.2746/042516408X334343 .
  12. Widmer M, Piaggio G, Nguyen TM, Osoti A, Owa OO, Misra S, Coomarasamy A, Abdel-Aleem H, Mallapur AA, Qureshi Z, Lumbiganon P, Patel AB, Carroli G, Fawole B, Goudar SS, Pujar YV, Neilson J, Hofmeyr GJ, Su LL, Ferreira de Carvalho J, Pandey U, Mugerwa K, Shiragur SS, Byamugisha J, Giordano D, Gülmezoglu AM . 6 . Heat-Stable Carbetocin versus Oxytocin to Prevent Hemorrhage after Vaginal Birth . The New England Journal of Medicine . 379 . 8 . 743–752 . August 2018 . 29949473 . 10.1056/NEJMoa1805489 . 205103322 . free .
  13. Malm M, Madsen I, Kjellström J . Development and stability of a heat-stable formulation of carbetocin for the prevention of postpartum haemorrhage for use in low and middle-income countries . Journal of Peptide Science . 24 . 6 . e3082 . June 2018 . 29700898 . 6001700 . 10.1002/psc.3082 .
  14. News: 28 June 2018 . Mundasad S . Revamped drug could save lives of many new mothers: WHO . BBC News . 28 June 2018 .
  15. Web site: Duratocin - Detailed Prescribing Information (Membership Required) . MIMS Malaysia . live . https://web.archive.org/web/20140117004458/https://member.ubmmedica.com/index.php?referrer=http%3A%2F%2Fwww.mims.com%2FMalaysia%2FSsoOtherMembership%2Findex%2F . 17 January 2014 . 5 June 2012 .
  16. Web site: Therapeutic Areas - Reproductive Health . Ferring Pharmaceuticals . dead . https://web.archive.org/web/20120525031943/http://www.ferring.com/en/therapeutic/Reproductive_Health/Products/Obstetrics+Products.htm . 25 May 2012 . 5 June 2012 .
  17. Gimpl G, Fahrenholz F . The oxytocin receptor system: structure, function, and regulation . Physiological Reviews . 81 . 2 . 629–683 . April 2001 . 11274341 . 10.1152/physrev.2001.81.2.629 . 13265083 .
  18. Gimpl G, Postina R, Fahrenholz F, Reinheimer T . Binding domains of the oxytocin receptor for the selective oxytocin receptor antagonist barusiban in comparison to the agonists oxytocin and carbetocin . European Journal of Pharmacology . 510 . 1–2 . 9–16 . March 2005 . 15740719 . 10.1016/j.ejphar.2005.01.010 .
  19. Gulliver D, Werry E, Reekie TA, Katte TA, Jorgensen W, Kassiou M . Targeting the Oxytocin System: New Pharmacotherapeutic Approaches . Trends in Pharmacological Sciences . 40 . 1 . 22–37 . January 2019 . 30509888 . 10.1016/j.tips.2018.11.001 . 54559394 . 1959.4/unsworks_81554 . free .
  20. Web site: Carbetocin . drugs.com . live . https://web.archive.org/web/20160303223256/http://www.drugs.com/international/carbetocin.html . 3 March 2016 . 5 June 2012 .
  21. Web site: Product Information - Duratocin . healthlinks.net . live . https://web.archive.org/web/20111115071733/http://secure.healthlinks.net.au/content/ferring/pi.cfm?product=fppdurai11007 . 15 November 2011 . 5 June 2012 .
  22. Engstrøm T, Barth T, Melin P, Vilhardt H . Oxytocin receptor binding and uterotonic activity of carbetocin and its metabolites following enzymatic degradation . European Journal of Pharmacology . 355 . 2–3 . 203–210 . August 1998 . 9760035 . 10.1016/S0014-2999(98)00513-5 .