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{{Short description|Pharmaceutical drug}}
{{Short description|Pharmaceutical drug}}
{{Use dmy dates|date=June 2024}}
{{cs1 config |name-list-style=vanc |display-authors=6}}
{{Infobox drug
{{Infobox drug
| drug_name =
| INN =
| type = mab
| type = mab
| image =
| image =
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<!-- Clinical data -->
<!-- Clinical data -->
| pronounce = EE-voh-lock-yoo-mab
| pronounce = e-voe-LOK-ue-mab
| tradename = Repatha
| tradename = Repatha
| Drugs.com = {{drugs.com|monograph|evolocumab}}
| Drugs.com = {{drugs.com|monograph|evolocumab}}
| MedlinePlus =
| MedlinePlus =
| DailyMedID = Evolocumab
| licence_CA = <!-- Health Canada may use generic or brand name (generic name preferred) -->
| licence_EU = yes
| DailyMedID = <!-- DailyMed may use generic or brand name (generic name preferred) -->
| licence_US = <!-- FDA may use generic or brand name (generic name preferred) -->
| pregnancy_AU = B1
| pregnancy_AU = B1
| pregnancy_AU_comment =
| pregnancy_AU_comment =
| pregnancy_US = N
| pregnancy_US_comment =
| pregnancy_category=
| pregnancy_category=
| dependency_liability =
| addiction_liability =
| routes_of_administration = [[Subcutaneous injection|Subcutaneous]]
| routes_of_administration = [[Subcutaneous injection|Subcutaneous]]
| class =
| class =
| ATCvet =
| ATC_prefix = C10
| ATC_prefix = C10
| ATC_suffix = AX13
| ATC_suffix = AX13
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| legal_BR = <!-- OTC, A1, A2, A3, B1, B2, C1, C2, C3, C4, C5, D1, D2, E, F -->
| legal_BR = <!-- OTC, A1, A2, A3, B1, B2, C1, C2, C3, C4, C5, D1, D2, E, F -->
| legal_BR_comment =
| legal_BR_comment =
| legal_CA = <!-- OTC, Rx-only, Schedule I, II, III, IV, V, VI, VII, VIII -->
| legal_CA = Rx-only
| legal_CA_comment = <ref>{{cite web | title=Health Canada New Drug Authorizations: 2015 Highlights | website=[[Health Canada]] | date=4 May 2016 | url=https://www.canada.ca/en/health-canada/services/publications/drugs-health-products/health-canada-new-drug-authorizations-2015-highlights.html | access-date=7 April 2024}}</ref>
| legal_CA_comment =
| legal_DE = <!-- Anlage I, II, III or Unscheduled -->
| legal_DE = <!-- Anlage I, II, III or Unscheduled -->
| legal_DE_comment =
| legal_DE_comment =
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| legal_UK_comment =
| legal_UK_comment =
| legal_US = Rx-only
| legal_US = Rx-only
| legal_US_comment = <ref name="Repatha FDA label">{{cite web | title=Repatha- evolocumab injection, solution Repatha- evolocumab kit | website=DailyMed | date=6 May 2020 | url=https://dailymed.nlm.nih.gov/dailymed/drugInfo.cfm?setid=cd61e902-166d-4aa6-9f3c-a18c1008d07e | access-date=20 October 2020}}</ref>
| legal_US_comment = <ref name="Repatha FDA label">{{cite web | title=Repatha- evolocumab injection, solution Repatha- evolocumab kit | work = DailyMed | publisher = U.S. National Library of Medicine | date=6 May 2020 | url=https://dailymed.nlm.nih.gov/dailymed/drugInfo.cfm?setid=cd61e902-166d-4aa6-9f3c-a18c1008d07e | access-date=20 October 2020}}</ref>
| legal_EU =
| legal_EU = Rx-only
| legal_EU_comment = <ref>{{cite web | title=Repatha EPAR | website=European Medicines Agency | date=17 July 2015 | url=https://www.ema.europa.eu/en/medicines/human/EPAR/repatha | access-date=29 June 2024}}</ref>
| legal_EU_comment =
| legal_UN = <!-- N I, II, III, IV / P I, II, III, IV -->
| legal_UN = <!-- N I, II, III, IV / P I, II, III, IV -->
| legal_UN_comment =
| legal_UN_comment =
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| NIAID_ChemDB =
| NIAID_ChemDB =
| PDB_ligand =
| PDB_ligand =
| synonyms = AMG-145<ref name=sheridan2013>{{cite journal | vauthors = Sheridan C | title = Phase 3 data for PCSK9 inhibitor wows | journal = Nature Biotechnology | volume = 31 | issue = 12 | pages = 1057–8 | date = December 2013 | pmid = 24316621 | doi = 10.1038/nbt1213-1057 | s2cid = 34214247 }}</ref>
| synonyms = AMG-145<ref name=sheridan2013>{{cite journal | vauthors = Sheridan C | title = Phase 3 data for PCSK9 inhibitor wows | journal = Nature Biotechnology | volume = 31 | issue = 12 | pages = 1057–1058 | date = December 2013 | pmid = 24316621 | doi = 10.1038/nbt1213-1057 | s2cid = 34214247 }}</ref>


<!-- Chemical and physical data -->
<!-- Chemical and physical data -->
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}}
}}


'''Evolocumab'''<ref>{{cite journal | author = World Health Organization | title = International Nonproprietary Names for Pharmaceutical Substances (INN). Proposed INN: List 108 | journal = WHO Drug Information | volume = 26 | issue = 4 | year = 2012 | url =https://www.who.int/medicines/publications/druginformation/innlists/PL108.pdf | author-link = World Health Organization }}</ref> (trade name '''Repatha''') is a [[monoclonal antibody]] medication designed for the treatment of [[hyperlipidemia]].
'''Evolocumab''',<ref>{{cite journal | vauthors = ((World Health Organization)) | year = 2013 | title = International nonproprietary names for pharmaceutical substances (INN): recommended INN: list 70 | journal = WHO Drug Information | volume = 27 | issue = 3 | hdl = 10665/331167 | hdl-access = free | author-link = World Health Organization }}</ref> sold under the brand name '''Repatha''', is a [[monoclonal antibody]] that is an [[immunotherapy]] medication for the treatment of [[hyperlipidemia]].


Evolocumab is a fully human monoclonal antibody that inhibits [[PCSK9|proprotein convertase subtilisin/kexin type 9 (PCSK9)]]. PCSK9 is a protein that targets [[LDL receptor]]s for degradation; its inhibition thereby enhances the [[liver]]'s ability to remove [[LDL-C]], often simplistically referred to as "bad" [[Cholesterol embolism|cholesterol]], from the blood.<ref>{{cite journal | vauthors = Coppinger C, Movahed MR, Azemawah V, et al. | title = A Comprehensive Review of PCSK9 Inhibitors | journal = Journal of Cardiovascular Pharmacology and Therapeutics | volume = 27 | pages = 1–14 | date = May 20, 2022 | doi = 10.1177/10742484221100107 | pmid = 35593194 | s2cid = 248918656 | doi-access = free }}</ref><ref>{{cite journal | vauthors = Weinreich M, Frishman WH | title = Antihyperlipidemic therapies targeting PCSK9 | journal = Cardiology in Review | volume = 22 | issue = 3 | pages = 140–6 | date = 2014 | pmid = 24407047 | doi = 10.1097/CRD.0000000000000014 | s2cid = 2201087 }}</ref>
Evolocumab is a fully human monoclonal antibody that inhibits [[PCSK9|proprotein convertase subtilisin/kexin type 9 (PCSK9)]]. PCSK9 is a protein that targets [[LDL receptor]]s for degradation; its inhibition thereby enhances the [[liver]]'s ability to remove [[LDL-C]], often colloquially referred to as "bad" [[Cholesterol embolism|cholesterol]], from the blood.<ref>{{cite journal | vauthors = Coppinger C, Movahed MR, Azemawah V, Peyton L, Gregory J, Hashemzadeh M | title = A Comprehensive Review of PCSK9 Inhibitors | journal = Journal of Cardiovascular Pharmacology and Therapeutics | volume = 27 | pages = 10742484221100107 | date = 20 May 2022 | pmid = 35593194 | doi = 10.1177/10742484221100107 | s2cid = 248918656 | doi-access = free }}</ref><ref>{{cite journal | vauthors = Weinreich M, Frishman WH | title = Antihyperlipidemic therapies targeting PCSK9 | journal = Cardiology in Review | volume = 22 | issue = 3 | pages = 140–146 | date = 2014 | pmid = 24407047 | doi = 10.1097/CRD.0000000000000014 | s2cid = 2201087 }}</ref>


==Mechanism==
==Mechanism==
Evolocumab is designed to bind to PCSK9 and inhibit PCSK9 from binding to LDL receptors on the liver surface. In the absence of PCSK9, there are more LDL receptors on the surface of liver cells to remove LDL-C from the blood.<ref>{{Cite web|url=https://spisaniemd.bg/md-magazine/2016/11/pcsk9-inhibitori-nov-klas-medikamenti-za-lechenie-na-dislipidemiya|title=PCSK9 инхибитори – нов клас медикаменти за лечение на дислипидемия {{!}} Списание МД|website=spisaniemd.bg|date=November 2016|access-date=2018-10-28}}</ref>
Evolocumab is designed to bind to PCSK9 and inhibit PCSK9 from binding to LDL receptors on the liver surface. In the absence of PCSK9, there are more LDL receptors on the surface of liver cells to remove LDL-C from the blood.<ref>{{cite web|url=https://spisaniemd.bg/md-magazine/2016/11/pcsk9-inhibitori-nov-klas-medikamenti-za-lechenie-na-dislipidemiya|title=PCSK9 инхибитори – нов клас медикаменти за лечение на дислипидемия | work = Списание МД | trans-title = PCSK9 inhibitors – a new class of drugs for the treatment of dyslipidemia | trans-work = MD Journal | via = spisaniemd.bg|date=November 2016|access-date=28 October 2018 | language = Bulgarian }}</ref>


==Adverse effects==
[[Injection site reaction]]s such as redness and pain are common and are reported in approximately 2.1–4.3% of cases.<ref name="PMID32821708">{{cite journal | vauthors = Choi JY, Na JO | title = Pharmacological Strategies beyond Statins: Ezetimibe and PCSK9 Inhibitors | journal = Journal of Lipid and Atherosclerosis | volume = 8 | issue = 2 | pages = 183–191 | date = September 2019 | pmid = 32821708 | doi = 10.12997/jla.2019.8.2.183 | pmc = 7379114 }}</ref><ref name="PMID28304224">{{cite journal | vauthors = Sabatine MS, Giugliano RP, Keech AC, Honarpour N, Wiviott SD, Murphy SA, Kuder JF, Wang H, Liu T, Wasserman SM, Sever PS, Pedersen TR | title = Evolocumab and Clinical Outcomes in Patients with Cardiovascular Disease | journal = The New England Journal of Medicine | volume = 376 | issue = 18 | pages = 1713–1722 | date = May 2017 | pmid = 28304224 | doi = 10.1056/NEJMoa1615664 | s2cid = 1972937 | doi-access = free | hdl = 10536/DRO/DU:30157496 | hdl-access = free }}</ref>
Concerns about mortality rate underreporting in the FOURIER study have attracted some controversy in the media.<ref name="underreporting">{{cite news |title=Altmetric – Restoring mortality data in the FOURIER cardiovascular outcomes trial of evolocumab in patients with cardiovascular disease: a reanalysis based on regulatory data |url=https://bmj.altmetric.com/details/140671672/news |work=bmj.altmetric.com}}</ref>
== History==
== History==
Amgen submitted a [[biologics license application]] (BLA) for evolocumab to the [[FDA]] in August 2014.<ref>[http://investors.amgen.com/phoenix.zhtml?c=61656&p=RssLanding&cat=news&id=1961786 Amgen Submits Biologics License Application For Novel Investigational LDL Cholesterol-Lowering Medication Evolocumab To The FDA]{{Dead link|date=February 2021 |bot=InternetArchiveBot |fix-attempted=yes }}</ref> The FDA approved evolocumab injection on 27 August 2015, for some patients who are unable to get their LDL cholesterol under control with current treatment options.<ref name=FDA>{{cite news|last1=FDA News Release|title=FDA approves Repatha to treat certain patients with high cholesterol|url=https://www.fda.gov/NewsEvents/Newsroom/PressAnnouncements/ucm460082.htm|access-date=30 August 2015|agency=U.S. Food and Drug Administration|date=August 27, 2015}}</ref> The European Commission approved it in July 2015.<ref>[https://archive.today/20150722065627/http://investors.amgen.com/phoenix.zhtml?c=61656&p=RssLanding&cat=news&id=2069405 European Commission Approves Amgen's New Cholesterol-Lowering Medication Repatha™ (evolocumab), The First PCSK9 Inhibitor To Be Approved In The World, For Treatment Of High Cholesterol]</ref> Evolocumab received approval from Health Canada on September 10, 2015.<ref>{{Cite web|title = Regulatory Decision Summary (SBD): REPATHA - 2015 - Health Canada|url = http://www.hc-sc.gc.ca/dhp-mps/prodpharma/rds-sdr/drug-med/rds_sdr_repatha_178234-eng.php|website = www.hc-sc.gc.ca|access-date = 2015-10-06|archive-url = https://web.archive.org/web/20151007082457/http://www.hc-sc.gc.ca/dhp-mps/prodpharma/rds-sdr/drug-med/rds_sdr_repatha_178234-eng.php|archive-date = 2015-10-07|url-status = dead}}</ref> Amgen reported approval by Health Canada in a press release on September 15, 2015.<ref>{{Cite web|title = Amgen - Media - In The News|url = https://www.amgen.ca/english/media/repatha_press_release.html|website = www.amgen.ca|access-date = 2015-09-17}}</ref>
Amgen submitted a [[biologics license application]] (BLA) for evolocumab to the [[FDA]] in August 2014.<ref>{{cite web | url = https://www.amgen.com/newsroom/press-releases/2014/08/amgen-submits-biologics-license-application-for-novel-investigational-ldl-cholesterol-lowering-medication-evolocumab-to-the-fda | title = Amgen Submits Biologics License Application For Novel Investigational LDL Cholesterol-Lowering Medication Evolocumab To The FDA | work = Amgen | date = 28 August 2014 }}</ref> The FDA approved evolocumab injection on 27 August 2015, for some patients who are unable to get their LDL cholesterol under control with current treatment options.<ref name=FDA>{{cite news| work = FDA News Release | publisher = U.S. Food and Drug Administration |title=FDA approves Repatha to treat certain patients with high cholesterol|url=https://www.fda.gov/NewsEvents/Newsroom/PressAnnouncements/ucm460082.htm|access-date=30 August 2015|agency=U.S. Food and Drug Administration|date=27 August 2015}}</ref> The European Commission approved it in July 2015.<ref>{{cite web | url = http://investors.amgen.com/phoenix.zhtml?c=61656&p=RssLanding&cat=news&id=2069405 | title = European Commission Approves Amgen's New Cholesterol-Lowering Medication Repatha™ (evolocumab), The First PCSK9 Inhibitor To Be Approved In The World, For Treatment Of High Cholesterol | work = Amgen | date = 21 July 2015 | access-date = 11 January 2020 | archive-date = 22 July 2015 | archive-url = https://archive.today/20150722065627/http://investors.amgen.com/phoenix.zhtml?c=61656&p=RssLanding&cat=news&id=2069405 | url-status = dead }}</ref> Evolocumab received approval from Health Canada on 10 September 2015.<ref>{{cite web|title = Regulatory Decision Summary (SBD): REPATHA - 2015 - Health Canada|url = http://www.hc-sc.gc.ca/dhp-mps/prodpharma/rds-sdr/drug-med/rds_sdr_repatha_178234-eng.php|website = www.hc-sc.gc.ca|access-date = 6 October 2015|archive-url = https://web.archive.org/web/20151007082457/http://www.hc-sc.gc.ca/dhp-mps/prodpharma/rds-sdr/drug-med/rds_sdr_repatha_178234-eng.php|archive-date = 7 October 2015|url-status = dead}}</ref> Amgen reported approval by Health Canada in a press release on 15 September 2015.<ref>{{cite web|title = Amgen - Media - In The News|url = https://www.amgen.ca/english/media/repatha_press_release.html|website = www.amgen.ca|access-date = 17 September 2015|archive-date = 4 March 2016|archive-url = https://web.archive.org/web/20160304054941/https://www.amgen.ca/english/media/repatha_press_release.html|url-status = dead}}</ref>


Results of the FOURIER trial were published in March 2017.<ref>{{cite journal | vauthors = Sabatine MS, Giugliano RP, Keech AC, Honarpour N, Wiviott SD, Murphy SA, Kuder JF, Wang H, Liu T, Wasserman SM, Sever PS, Pedersen TR | display-authors = 6 | title = Evolocumab and Clinical Outcomes in Patients with Cardiovascular Disease | language = EN | journal = The New England Journal of Medicine | volume = 376 | issue = 18 | pages = 1713–1722 | date = May 2017 | pmid = 28304224 | doi = 10.1056/nejmoa1615664 | hdl = 10536/DRO/DU:30157496 | s2cid = 1972937 | url = http://spiral.imperial.ac.uk/bitstream/10044/1/48891/7/nejmoa1615664.pdf | doi-access = free }}</ref>
Results of the FOURIER trial were published in March 2017.<ref>{{cite journal | vauthors = Sabatine MS, Giugliano RP, Keech AC, Honarpour N, Wiviott SD, Murphy SA, Kuder JF, Wang H, Liu T, Wasserman SM, Sever PS, Pedersen TR | title = Evolocumab and Clinical Outcomes in Patients with Cardiovascular Disease | language = EN | journal = The New England Journal of Medicine | volume = 376 | issue = 18 | pages = 1713–1722 | date = May 2017 | pmid = 28304224 | doi = 10.1056/nejmoa1615664 | s2cid = 1972937 | doi-access = free | hdl = 10536/DRO/DU:30157496 | hdl-access = free }}</ref>


[[Regeneron Pharmaceuticals]] and Amgen had each filed for patent protection on their monoclonal antibodies against PCSK9 and the companies ended up in [[patent infringement under United States law|patent litigation]] in the U.S. In March 2016 a district court found that Regeneron's drug [[alirocumab]] infringed Amgen's patents; Amgen then requested an [[injunction]] barring Regeneron and Sanofi from marketing alirocumab, which was granted in January 2017. The judge gave Regeneron and Sanofi 30 days to appeal before the injunction went into effect.<ref>{{cite news |last1=Feeley |first1=Jef |last2=Bloomfield |first2=Doni |last3=Decker |first3=Susan | name-list-style = vanc |title=Amgen Wins Ban on Sanofi's Praluent Cholesterol Drug Sales|url=https://www.bloomberg.com/news/articles/2017-01-05/amgen-wins-ban-on-sanofi-s-sales-of-praluent-cholesterol-drug|work=Bloomberg News|date=5 January 2017}}</ref> After several years of litigation, the patent dispute between Regeneron and Amgen was docketed by the [[SCOTUS]] for March-April 2023.<ref>{{cite web | url=https://www.scotusblog.com/case-files/cases/amgen-inc-v-sanofi-2/ | title=Amgen Inc. V. Sanofi }}</ref> Numerous legal commentators were surprised by the [[SCOTUS]] decision, considering the
[[Regeneron Pharmaceuticals]] and Amgen had each filed for patent protection on their monoclonal antibodies against PCSK9 and the companies ended up in [[patent infringement under United States law|patent litigation]] in the U.S. In March 2016 a district court found that Regeneron's drug [[alirocumab]] infringed Amgen's patents; Amgen then requested an [[injunction]] barring Regeneron and Sanofi from marketing alirocumab, which was granted in January 2017. The judge gave Regeneron and Sanofi 30 days to appeal before the injunction went into effect.<ref>{{cite news | vauthors = Feeley J, Bloomfield D, Decker S |title=Amgen Wins Ban on Sanofi's Praluent Cholesterol Drug Sales|url=https://www.bloomberg.com/news/articles/2017-01-05/amgen-wins-ban-on-sanofi-s-sales-of-praluent-cholesterol-drug|work=Bloomberg News|date=5 January 2017}}</ref> After several years of litigation, the patent dispute between Regeneron and Amgen was docketed by the [[SCOTUS]] for March-April 2023<ref name = "SCOTUSBlog" /> Numerous legal commentators were surprised by the [[SCOTUS]] decision, considering the existing trend not to review patent cases from the [[United States Court of Appeals for the Federal Circuit]], since this court was created in 1982 to assure uniformity in patent law among all federal courts. The question before the US Supreme Court is "Whether enablement is governed by the statutory requirement, that the specification teach those skilled in the art to “make and use” the claimed invention, or whether it must instead enable those skilled in the art “to reach the full scope of claimed embodiments” without undue experimentation—i.e., to cumulatively identify and make all or nearly all embodiments of the invention without substantial “time and effort.”<ref name = "SCOTUSBlog">{{cite web | url=https://www.scotusblog.com/case-files/cases/amgen-inc-v-sanofi-2/ | title=Amgen Inc. V. Sanofi | work = SCOTUSblog }}</ref> Other commentators believe, that the [[SCOTUS]] took the case, because of the significance of the legal question, which is deemed comparable to the impact of [[KSR v. Teleflex]].
existing trend not to review patent cases from the [[United States Court of Appeals for the Federal Circuit]], since this court was created in 1982 to assure uniformity in patent law among all federal courts. The question before the US Supreme Court is "Whether enablement is governed by the statutory requirement, that the specification teach those skilled in the art to “make and use” the claimed invention, or whether it must instead enable those skilled in the art “to reach the full scope of claimed embodiments” without undue experimentation—i.e., to cumulatively identify and make all or nearly all embodiments of the invention without substantial “time and effort.” " <ref>{{cite web | url=https://www.scotusblog.com/case-files/cases/amgen-inc-v-sanofi-2/ | title=Amgen Inc. V. Sanofi }}</ref> Other commentators believe, that the [[SCOTUS]] took the case, because of the significance of the legal question, which is deemed comparable to the impact of [[KSR v. Teleflex]].


Issued Amgen's patents have a so-called “functional genus claim,” which defines an antibody by its epitope, the specific target against which it binds. Although, Amgen did discover the target [[antigen]], the antigen itself cannot be patented, because it is a product of nature (i.e. is was discovered rather than invented). However, Amgen was able to convince the USPTO to issue a patent, that broadly claims yet-unmade antibodies with a high affinity to the discovered antigen. Although there are many potential problems with such "functional genus" claims, the lower courts invalidated broad Amgen's claims based on the patent requirements for [[sufficiency of disclosure]]. The [[purposivism]] justification for disallowing such broad poorly-enabled claims is to allow other pharmaceutical companies to develop other (and potentially better) drugs, that target the same receptor. However, the drawback of such narrow interpretation, is the resulting reluctance of the antigen discoverers to share their finding with the World, because such early disclosure would prevent them from reaping the maximum profits from their discovery, which they could obtain by developing multiple medications, and keeping them secret for many years. <ref>{{cite journal | url=https://www.liebertpub.com/doi/pdf/10.1089/blr.2022.29293.cmh?download=true | doi=10.1089/blr.2022.29293.cmh | title=Amgen v. Sanofi: The Supreme Court Takes up the Enablement Requirement in the Context of Therapeutic Monoclonal Antibodies | year=2022 | last1=Holman | first1=Christopher M. | journal=Biotechnology Law Report | volume=41 | issue=6 | pages=269–282 | s2cid=254435116 }}</ref> However, such dilemma is not unique to [[biologics]] or to [[pharmaceuticals]], since the purpose of the patent system is to provide an incentive for earlier disclosure in the gambling game from-discovery-to-market, that does not necessarily reward every participant according to their contribution, but encourages discovers and inventors to play the gambling game nevertheless.<ref>Broad Patent Claims Come Before the Supreme Court in Amgen v Sanofi. 2023. Jama. S.S. Tu, S. Nagar, V.L. Van De Wiele. doi: 10.1001/jama.2023.5638.</ref>
Issued Amgen's patents have a so-called “functional genus claim,” which defines an antibody by its epitope, the specific target against which it binds. Although, Amgen did discover the target [[antigen]], the antigen itself cannot be patented, because it is a product of nature (i.e. it was discovered rather than invented). However, Amgen was able to convince the USPTO to issue a patent, that broadly claims yet-unmade antibodies with a high affinity to the discovered antigen. Although there are many potential problems with such "functional genus" claims, the lower courts invalidated broad Amgen's claims based on the patent requirements for [[sufficiency of disclosure]]. The [[purposivism]] justification for disallowing such broad poorly-enabled claims is to allow other pharmaceutical companies to develop other (and potentially better) drugs, that target the same receptor. However, the drawback of such narrow interpretation, is the resulting reluctance of the antigen discoverers to share their finding with the World, because such early disclosure would prevent them from reaping the maximum profits from their discovery, which they could obtain by developing multiple medications, and keeping them secret for many years. <ref>{{cite journal | url=https://www.liebertpub.com/doi/pdf/10.1089/blr.2022.29293.cmh?download=true | doi=10.1089/blr.2022.29293.cmh | title=Amgen v. Sanofi: The Supreme Court Takes up the Enablement Requirement in the Context of Therapeutic Monoclonal Antibodies | year=2022 | vauthors = Holman CM | journal=Biotechnology Law Report | volume=41 | issue=6 | pages=269–282 | s2cid=254435116 }}</ref> However, such dilemma is not unique to [[biologics]] or to [[pharmaceuticals]], since the purpose of the patent system is to provide an incentive for earlier disclosure in the gambling game from-discovery-to-market, that does not necessarily reward every participant according to their contribution, but encourages discovers and inventors to play the gambling game nevertheless.<ref name="pmid36972066">{{cite journal | vauthors = Tu SS, Nagar S, Van de Wiele VL | title = Broad Patent Claims Come Before the Supreme Court in Amgen v Sanofi | journal = JAMA | volume = 329 | issue = 19 | pages = 1641–1642 | date = May 2023 | pmid = 36972066 | doi = 10.1001/jama.2023.5638 | s2cid = 257765649 | doi-access = free }}</ref>


== Society and culture ==
== Society and culture ==


=== Economics ===
=== Economics ===
In 2015 it cost about US$14,100 per year. One article calculated this to be about $400,000 to $500,000 per [[quality-adjusted life year]] (QALY), which did not meet "generally accepted" cost-benefit thresholds. The authors calculated that an annual cost of $4,500 would meet an acceptable $100,000 per QALY standard.<ref>{{cite journal | vauthors = Kazi DS, Moran AE, Coxson PG, Penko J, Ollendorf DA, Pearson SD, Tice JA, Guzman D, Bibbins-Domingo K | display-authors = 6 | title = Cost-effectiveness of PCSK9 Inhibitor Therapy in Patients With Heterozygous Familial Hypercholesterolemia or Atherosclerotic Cardiovascular Disease | journal = JAMA | volume = 316 | issue = 7 | pages = 743–53 | date = August 2016 | pmid = 27533159 | doi = 10.1001/jama.2016.11004 | doi-access = free }}</ref> On October 26, 2018 the maker of the drug, [[Amgen]], announced a 60% cut in price and the drug at that date cost $5,850 per year.<ref>{{Cite news|url=https://www.marketwatch.com/story/the-bigger-money-message-behind-amgens-decision-to-slash-the-cost-of-its-repatha-cholesterol-drug-2018-10-26?siteid=yhoof2&yptr=yahoo|title=The bigger message behind Amgen's decision to slash cost of its Repatha cholesterol drug|last=Goldman|first=Dana|work=MarketWatch|access-date=2018-10-28}}</ref>
<!-- The following sentence does not mean anything. "it" does not refer to any antecedent. -->In 2015 it cost about US$14,100 per year. One article calculated this to be about $400,000 to $500,000 per [[quality-adjusted life year]] (QALY), which did not meet "generally accepted" cost-benefit thresholds. The authors calculated that an annual cost of $4,500 would meet an acceptable $100,000 per QALY standard.<ref>{{cite journal | vauthors = Kazi DS, Moran AE, Coxson PG, Penko J, Ollendorf DA, Pearson SD, Tice JA, Guzman D, Bibbins-Domingo K | title = Cost-effectiveness of PCSK9 Inhibitor Therapy in Patients With Heterozygous Familial Hypercholesterolemia or Atherosclerotic Cardiovascular Disease | journal = JAMA | volume = 316 | issue = 7 | pages = 743–753 | date = August 2016 | pmid = 27533159 | doi = 10.1001/jama.2016.11004 | doi-access = free }}</ref> On 26 October 2018, the maker of the drug, [[Amgen]], announced a 60% cut in price and the drug at that date cost $5,850 per year.<ref>{{cite news|url=https://www.marketwatch.com/story/the-bigger-money-message-behind-amgens-decision-to-slash-the-cost-of-its-repatha-cholesterol-drug-2018-10-26?siteid=yhoof2&yptr=yahoo|title=The bigger message behind Amgen's decision to slash cost of its Repatha cholesterol drug| vauthors = Goldman D |work=MarketWatch|access-date=28 October 2018}}</ref>


== References ==
== References ==
{{Reflist}}
{{Reflist}}

== External links ==
* {{cite web | url = https://druginfo.nlm.nih.gov/drugportal/name/evolocumab | publisher = U.S. National Library of Medicine | work = Drug Information Portal | title = Evolocumab }}


{{Lipid modifying agents}}
{{Lipid modifying agents}}
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{{monoclonals for bone, musculoskeletal, circulatory, and neurologic systems}}
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[[Category:Amgen]]
[[Category:Amgen]]

Latest revision as of 10:46, 21 September 2024

Evolocumab
Monoclonal antibody
TypeWhole antibody
SourceHuman
TargetPCSK9
Clinical data
Pronunciatione-voe-LOK-ue-mab
Trade namesRepatha
Other namesAMG-145[1]
AHFS/Drugs.comMonograph
License data
Pregnancy
category
  • AU: B1
Routes of
administration		Subcutaneous
ATC code
Legal status
Legal status
Identifiers
CAS Number
ChemSpider
  • none
UNII
KEGG
Chemical and physical data
FormulaC6242H9648N1668O1996S56
Molar mass141790.89 g·mol−1

Evolocumab,[6] sold under the brand name Repatha, is a monoclonal antibody that is an immunotherapy medication for the treatment of hyperlipidemia.

Evolocumab is a fully human monoclonal antibody that inhibits proprotein convertase subtilisin/kexin type 9 (PCSK9). PCSK9 is a protein that targets LDL receptors for degradation; its inhibition thereby enhances the liver's ability to remove LDL-C, often colloquially referred to as "bad" cholesterol, from the blood.[7][8]

Mechanism

[edit]

Evolocumab is designed to bind to PCSK9 and inhibit PCSK9 from binding to LDL receptors on the liver surface. In the absence of PCSK9, there are more LDL receptors on the surface of liver cells to remove LDL-C from the blood.[9]

Adverse effects

[edit]

Injection site reactions such as redness and pain are common and are reported in approximately 2.1–4.3% of cases.[10][11] Concerns about mortality rate underreporting in the FOURIER study have attracted some controversy in the media.[12]

History

[edit]

Amgen submitted a biologics license application (BLA) for evolocumab to the FDA in August 2014.[13] The FDA approved evolocumab injection on 27 August 2015, for some patients who are unable to get their LDL cholesterol under control with current treatment options.[14] The European Commission approved it in July 2015.[15] Evolocumab received approval from Health Canada on 10 September 2015.[16] Amgen reported approval by Health Canada in a press release on 15 September 2015.[17]

Results of the FOURIER trial were published in March 2017.[18]

Regeneron Pharmaceuticals and Amgen had each filed for patent protection on their monoclonal antibodies against PCSK9 and the companies ended up in patent litigation in the U.S. In March 2016 a district court found that Regeneron's drug alirocumab infringed Amgen's patents; Amgen then requested an injunction barring Regeneron and Sanofi from marketing alirocumab, which was granted in January 2017. The judge gave Regeneron and Sanofi 30 days to appeal before the injunction went into effect.[19] After several years of litigation, the patent dispute between Regeneron and Amgen was docketed by the SCOTUS for March-April 2023[20] Numerous legal commentators were surprised by the SCOTUS decision, considering the existing trend not to review patent cases from the United States Court of Appeals for the Federal Circuit, since this court was created in 1982 to assure uniformity in patent law among all federal courts. The question before the US Supreme Court is "Whether enablement is governed by the statutory requirement, that the specification teach those skilled in the art to “make and use” the claimed invention, or whether it must instead enable those skilled in the art “to reach the full scope of claimed embodiments” without undue experimentation—i.e., to cumulatively identify and make all or nearly all embodiments of the invention without substantial “time and effort.”[20] Other commentators believe, that the SCOTUS took the case, because of the significance of the legal question, which is deemed comparable to the impact of KSR v. Teleflex.

Issued Amgen's patents have a so-called “functional genus claim,” which defines an antibody by its epitope, the specific target against which it binds. Although, Amgen did discover the target antigen, the antigen itself cannot be patented, because it is a product of nature (i.e. it was discovered rather than invented). However, Amgen was able to convince the USPTO to issue a patent, that broadly claims yet-unmade antibodies with a high affinity to the discovered antigen. Although there are many potential problems with such "functional genus" claims, the lower courts invalidated broad Amgen's claims based on the patent requirements for sufficiency of disclosure. The purposivism justification for disallowing such broad poorly-enabled claims is to allow other pharmaceutical companies to develop other (and potentially better) drugs, that target the same receptor. However, the drawback of such narrow interpretation, is the resulting reluctance of the antigen discoverers to share their finding with the World, because such early disclosure would prevent them from reaping the maximum profits from their discovery, which they could obtain by developing multiple medications, and keeping them secret for many years. [21] However, such dilemma is not unique to biologics or to pharmaceuticals, since the purpose of the patent system is to provide an incentive for earlier disclosure in the gambling game from-discovery-to-market, that does not necessarily reward every participant according to their contribution, but encourages discovers and inventors to play the gambling game nevertheless.[22]

Society and culture

[edit]

Economics

[edit]

In 2015 it cost about US$14,100 per year. One article calculated this to be about $400,000 to $500,000 per quality-adjusted life year (QALY), which did not meet "generally accepted" cost-benefit thresholds. The authors calculated that an annual cost of $4,500 would meet an acceptable $100,000 per QALY standard.[23] On 26 October 2018, the maker of the drug, Amgen, announced a 60% cut in price and the drug at that date cost $5,850 per year.[24]

References

[edit]
  1. ^ Sheridan C (December 2013). "Phase 3 data for PCSK9 inhibitor wows". Nature Biotechnology. 31 (12): 1057–1058. doi:10.1038/nbt1213-1057. PMID 24316621. S2CID 34214247.
  2. ^ "Prescription medicines: registration of new chemical entities in Australia, 2015". Therapeutic Goods Administration (TGA). 21 June 2022. Retrieved 10 April 2023.
  3. ^ "Health Canada New Drug Authorizations: 2015 Highlights". Health Canada. 4 May 2016. Retrieved 7 April 2024.
  4. ^ "Repatha- evolocumab injection, solution Repatha- evolocumab kit". DailyMed. U.S. National Library of Medicine. 6 May 2020. Retrieved 20 October 2020.
  5. ^ "Repatha EPAR". European Medicines Agency. 17 July 2015. Retrieved 29 June 2024.
  6. ^ World Health Organization (2013). "International nonproprietary names for pharmaceutical substances (INN): recommended INN: list 70". WHO Drug Information. 27 (3). hdl:10665/331167.
  7. ^ Coppinger C, Movahed MR, Azemawah V, Peyton L, Gregory J, Hashemzadeh M (20 May 2022). "A Comprehensive Review of PCSK9 Inhibitors". Journal of Cardiovascular Pharmacology and Therapeutics. 27: 10742484221100107. doi:10.1177/10742484221100107. PMID 35593194. S2CID 248918656.
  8. ^ Weinreich M, Frishman WH (2014). "Antihyperlipidemic therapies targeting PCSK9". Cardiology in Review. 22 (3): 140–146. doi:10.1097/CRD.0000000000000014. PMID 24407047. S2CID 2201087.
  9. ^ "PCSK9 инхибитори – нов клас медикаменти за лечение на дислипидемия" [PCSK9 inhibitors – a new class of drugs for the treatment of dyslipidemia]. Списание МД [MD Journal] (in Bulgarian). November 2016. Retrieved 28 October 2018 – via spisaniemd.bg.
  10. ^ Choi JY, Na JO (September 2019). "Pharmacological Strategies beyond Statins: Ezetimibe and PCSK9 Inhibitors". Journal of Lipid and Atherosclerosis. 8 (2): 183–191. doi:10.12997/jla.2019.8.2.183. PMC 7379114. PMID 32821708.
  11. ^ Sabatine MS, Giugliano RP, Keech AC, Honarpour N, Wiviott SD, Murphy SA, et al. (May 2017). "Evolocumab and Clinical Outcomes in Patients with Cardiovascular Disease". The New England Journal of Medicine. 376 (18): 1713–1722. doi:10.1056/NEJMoa1615664. hdl:10536/DRO/DU:30157496. PMID 28304224. S2CID 1972937.
  12. ^ "Altmetric – Restoring mortality data in the FOURIER cardiovascular outcomes trial of evolocumab in patients with cardiovascular disease: a reanalysis based on regulatory data". bmj.altmetric.com.
  13. ^ "Amgen Submits Biologics License Application For Novel Investigational LDL Cholesterol-Lowering Medication Evolocumab To The FDA". Amgen. 28 August 2014.
  14. ^ "FDA approves Repatha to treat certain patients with high cholesterol". FDA News Release. U.S. Food and Drug Administration. U.S. Food and Drug Administration. 27 August 2015. Retrieved 30 August 2015.
  15. ^ "European Commission Approves Amgen's New Cholesterol-Lowering Medication Repatha™ (evolocumab), The First PCSK9 Inhibitor To Be Approved In The World, For Treatment Of High Cholesterol". Amgen. 21 July 2015. Archived from the original on 22 July 2015. Retrieved 11 January 2020.
  16. ^ "Regulatory Decision Summary (SBD): REPATHA - 2015 - Health Canada". www.hc-sc.gc.ca. Archived from the original on 7 October 2015. Retrieved 6 October 2015.
  17. ^ "Amgen - Media - In The News". www.amgen.ca. Archived from the original on 4 March 2016. Retrieved 17 September 2015.
  18. ^ Sabatine MS, Giugliano RP, Keech AC, Honarpour N, Wiviott SD, Murphy SA, et al. (May 2017). "Evolocumab and Clinical Outcomes in Patients with Cardiovascular Disease". The New England Journal of Medicine. 376 (18): 1713–1722. doi:10.1056/nejmoa1615664. hdl:10536/DRO/DU:30157496. PMID 28304224. S2CID 1972937.
  19. ^ Feeley J, Bloomfield D, Decker S (5 January 2017). "Amgen Wins Ban on Sanofi's Praluent Cholesterol Drug Sales". Bloomberg News.
  20. ^ a b "Amgen Inc. V. Sanofi". SCOTUSblog.
  21. ^ Holman CM (2022). "Amgen v. Sanofi: The Supreme Court Takes up the Enablement Requirement in the Context of Therapeutic Monoclonal Antibodies". Biotechnology Law Report. 41 (6): 269–282. doi:10.1089/blr.2022.29293.cmh. S2CID 254435116.
  22. ^ Tu SS, Nagar S, Van de Wiele VL (May 2023). "Broad Patent Claims Come Before the Supreme Court in Amgen v Sanofi". JAMA. 329 (19): 1641–1642. doi:10.1001/jama.2023.5638. PMID 36972066. S2CID 257765649.
  23. ^ Kazi DS, Moran AE, Coxson PG, Penko J, Ollendorf DA, Pearson SD, et al. (August 2016). "Cost-effectiveness of PCSK9 Inhibitor Therapy in Patients With Heterozygous Familial Hypercholesterolemia or Atherosclerotic Cardiovascular Disease". JAMA. 316 (7): 743–753. doi:10.1001/jama.2016.11004. PMID 27533159.
  24. ^ Goldman D. "The bigger message behind Amgen's decision to slash cost of its Repatha cholesterol drug". MarketWatch. Retrieved 28 October 2018.
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