Naproxen: Difference between revisions

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| width2 =  
| width2 =  
| alt2 =  
| alt2 =  
| caption = <!-- Clinical data -->
| caption =  
 
<!-- Clinical data -->
| pronounce = {{IPAc-en|n|ə|ˈ|p|r|ɒ|k|s|ən}}
| pronounce = {{IPAc-en|n|ə|ˈ|p|r|ɒ|k|s|ən}}
| tradename = Aleve, Naprosyn, others<ref name="drugs"/><ref name="Naproxen international" />
| tradename = Aleve, Naprosyn, others<ref name="drugs"/><ref name="Naproxen international" />
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| ATC_supplemental = {{ATC|M01|AE02}}, {{ATC|M02|AA12}}, {{ATC|M01|AE56}}, {{ATC|M01|AE52}}
| ATC_supplemental = {{ATC|M01|AE02}}, {{ATC|M02|AA12}}, {{ATC|M01|AE56}}, {{ATC|M01|AE52}}


<!-- Legal status -->| legal_AU = S2
<!-- Legal status -->
| legal_AU = S2
| legal_AU_comment = when in preparations that contain no more than 15 days' supply. Otherwise it is Schedule 4 (Prescription only).<ref>{{cite book |title=Standard for the Uniform Scheduling of Medicines and Poisons No. 4 |publisher=Therapeutic Goods Administration |date=July 2013 |url=http://www.comlaw.gov.au/Details/F2013L01607/229bdf2e-7014-4379-b751-0b584f55d699 |format=PDF |isbn=978-1-74241-895-7 |editor=Gill, A}}</ref>
| legal_AU_comment = when in preparations that contain no more than 15 days' supply. Otherwise it is Schedule 4 (Prescription only).<ref>{{cite book |title=Standard for the Uniform Scheduling of Medicines and Poisons No. 4 |publisher=Therapeutic Goods Administration |date=July 2013 |url=http://www.comlaw.gov.au/Details/F2013L01607/229bdf2e-7014-4379-b751-0b584f55d699 |format=PDF |isbn=978-1-74241-895-7 |editor=Gill, A}}</ref>
| 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
| legal_CA = OTC / Rx-only
| legal_CA_comment =  
| legal_CA_comment =  
| legal_DE = <!-- Anlage I, II, III or Unscheduled-->
| legal_DE = <!-- Anlage I, II, III or Unscheduled-->
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| legal_status = <!--For countries not listed above-->
| legal_status = <!--For countries not listed above-->


<!-- Pharmacokinetic data -->| bioavailability = 95% (by mouth)
<!-- Pharmacokinetic data -->
| bioavailability = 95% (by mouth)
| protein_bound = 99%
| protein_bound = 99%
| metabolism = [[Liver]] (to 6-desmethylnaproxen)
| metabolism = [[Liver]] (to 6-desmethylnaproxen)
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| excretion = [[Kidney]]
| excretion = [[Kidney]]


<!-- Identifiers -->| index2_label = as salt
<!-- Identifiers -->
| index2_label = as salt
| CAS_number_Ref = {{cascite|correct|??}}
| CAS_number_Ref = {{cascite|correct|??}}
| CAS_number = 22204-53-1
| CAS_number = 22204-53-1
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| NIAID_ChemDB =  
| NIAID_ChemDB =  
| PDB_ligand = NPX
| PDB_ligand = NPX
| synonyms = <!-- Chemical and physical data -->
| synonyms =  
 
<!-- Chemical and physical data -->
| IUPAC_name = (+)-(''S'')-2-(6-Methoxynaphthalen-2-yl)propanoic acid
| IUPAC_name = (+)-(''S'')-2-(6-Methoxynaphthalen-2-yl)propanoic acid
| C = 14
| C = 14
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<!-- Definition and medical uses -->
<!-- Definition and medical uses -->
'''Naproxen''', sold under the brand name '''Aleve''' among others, is a [[nonsteroidal anti-inflammatory drug]] (NSAID) used to treat pain, [[menstrual cramp]]s, and [[inflammatory diseases]] such as [[rheumatoid arthritis]], [[gout]] and [[fever]].<ref name=AHFS2018/> It is [[Oral administration|taken orally]].<ref name=AHFS2018/> It is available in immediate and [[Delayed release (pharmacology)|delayed release]] formulations.<ref name=AHFS2018/> Onset of effects is within an hour and lasts for up to twelve hours.<ref name=AHFS2018/> Naproxen is also available in [[Salt (chemistry)|salt form]], '''naproxen sodium''', which has better [[solubility]] when taken orally.<ref name=":0">{{cite journal | vauthors = Derry C, Derry S, Moore RA, McQuay HJ | title = Single dose oral naproxen and naproxen sodium for acute postoperative pain in adults | journal = The Cochrane Database of Systematic Reviews | volume = 2009 | issue = 1 | pages = CD004234 | date = January 2009 | pmid = 19160232 | pmc = 6483469 | doi = 10.1002/14651858.CD004234.pub3 }}</ref>
'''Naproxen''', sold under the brand name '''Aleve''' among others, is a [[nonsteroidal anti-inflammatory drug]] (NSAID) used to treat pain, [[menstrual cramp]]s, and [[inflammatory diseases]] such as [[rheumatoid arthritis]], [[gout]] and [[fever]].<ref name=AHFS2018/> It is [[Oral administration|taken orally]].<ref name=AHFS2018/> It is available in immediate and [[Delayed release (pharmacology)|delayed release]] formulations.<ref name=AHFS2018/> Onset of effects is within an hour and lasts for up to twelve hours.<ref name=AHFS2018/> Naproxen is also available in [[Salt (chemistry)|salt form]], '''naproxen sodium''', which has better [[solubility]] when taken orally.<ref name=":0">{{cite journal | vauthors = Derry C, Derry S, Moore RA, McQuay HJ | title = Single dose oral naproxen and naproxen sodium for acute postoperative pain in adults | journal = The Cochrane Database of Systematic Reviews | volume = 2009 | issue = 1 | article-number = CD004234 | date = January 2009 | pmid = 19160232 | pmc = 6483469 | doi = 10.1002/14651858.CD004234.pub3 }}</ref>


<!-- Side effects -->
<!-- Side effects -->
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<!-- History and culture -->
<!-- History and culture -->
Naproxen was patented in 1967 and approved for medical use in the United States in 1976.<ref name="Naprosyn label">{{cite web |title=Naprosyn- naproxen tablet EC-Naprosyn- naproxen tablet, delayed release Anaprox DS- naproxen sodium tablet |website=DailyMed |date=1 July 2019 |url=https://dailymed.nlm.nih.gov/dailymed/drugInfo.cfm?setid=8bff5df5-d856-4237-b6a8-ae445b454844 |access-date=27 December 2019}}</ref><ref name=AHFS2018/><ref name=Fis2006>{{cite book |vauthors = Fischer J, Ganellin CR |title=Analogue-based Drug Discovery |date=2006 |publisher=John Wiley & Sons |isbn=978-3-527-60749-5 |page=520 |url=https://books.google.com/books?id=FjKfqkaKkAAC&pg=PA520 }}</ref> In the United States it is available [[over the counter|over-the-counter]] and as a [[generic medication]].<ref name=AHFS2018>{{cite web |title=Naproxen Monograph for Professionals |url=https://www.drugs.com/monograph/naproxen.html |website=Drugs.com |publisher=AHFS |access-date=19 December 2018 }}</ref><ref>{{cite web |title=Medicines A to Z - Naproxen |url=https://www.nhs.uk/medicines/naproxen/ |website=NHS |publisher=National Health Service |access-date=11 March 2020 |date=24 October 2018}}</ref> In 2022, it was the 88th most commonly prescribed medication in the United States, with more than 7{{nbsp}}million prescriptions.<ref>{{cite web |title=The Top 300 of 2022 |url=https://clincalc.com/DrugStats/Top300Drugs.aspx |website=ClinCalc |access-date=30 August 2024 |archive-date=30 August 2024 |archive-url=https://web.archive.org/web/20240830202410/https://clincalc.com/DrugStats/Top300Drugs.aspx |url-status=live }}</ref><ref>{{cite web |title = Naproxen Drug Usage Statistics, United States, 2013 - 2022 |website = ClinCalc |url = https://clincalc.com/DrugStats/Drugs/Naproxen |access-date = 30 August 2024 }}</ref>
Naproxen was patented in 1967 and approved for medical use in the United States in 1976.<ref name="Naprosyn label">{{cite web |title=Naprosyn- naproxen tablet EC-Naprosyn- naproxen tablet, delayed release Anaprox DS- naproxen sodium tablet |website=DailyMed |date=1 July 2019 |url=https://dailymed.nlm.nih.gov/dailymed/drugInfo.cfm?setid=8bff5df5-d856-4237-b6a8-ae445b454844 |access-date=27 December 2019}}</ref><ref name=AHFS2018/><ref name=Fis2006>{{cite book |vauthors = Fischer J, Ganellin CR |title=Analogue-based Drug Discovery |date=2006 |publisher=John Wiley & Sons |isbn=978-3-527-60749-5 |page=520 |url=https://books.google.com/books?id=FjKfqkaKkAAC&pg=PA520 }}</ref> In the United States it is available [[over the counter|over-the-counter]] and as a [[generic medication]].<ref name=AHFS2018>{{cite web |title=Naproxen Monograph for Professionals |url=https://www.drugs.com/monograph/naproxen.html |website=Drugs.com |publisher=AHFS |access-date=19 December 2018 }}</ref><ref>{{cite web |title=Medicines A to Z - Naproxen |url=https://www.nhs.uk/medicines/naproxen/ |website=NHS |publisher=National Health Service |access-date=11 March 2020 |date=24 October 2018}}</ref> In 2023, it was the 103rd most commonly prescribed medication in the United States, with more than 6{{nbsp}}million prescriptions.<ref name="Top300Drugs">{{cite web | title=Top 300 of 2023 | url=https://clincalc.com/DrugStats/Top300Drugs.aspx | website=ClinCalc | access-date=12 August 2025 | archive-date=12 August 2025 | archive-url=https://web.archive.org/web/20250812130026/https://clincalc.com/DrugStats/Top300Drugs.aspx | url-status=live }}</ref><ref>{{cite web |title = Naproxen Drug Usage Statistics, United States, 2013 - 2023 |website = ClinCalc |url = https://clincalc.com/DrugStats/Drugs/Naproxen |access-date = 18 August 2025 }}</ref> Naproxen is a therapeutic alternative on the [[WHO Model List of Essential Medicines|World Health Organization's List of Essential Medicines]].<ref name="WHO24th">{{cite book | vauthors = ((World Health Organization)) | title = The selection and use of essential medicines, 2025: WHO Model List of Essential Medicines, 24th list | year = 2025 | hdl = 10665/382243 | author-link = World Health Organization | publisher = World Health Organization | location = Geneva | hdl-access=free }}</ref>


== Medical uses ==
== Medical uses ==
Naproxen's medical uses are related to its mechanism of action as an anti-inflammatory compound.<ref name="Naprosyn label" /> Naproxen is used to treat a variety of inflammatory conditions and symptoms that are due to excessive [[inflammation]], such as [[pain]] and [[fever]] (naproxen has fever-reducing, or [[antipyretic]], properties in addition to its anti-inflammatory activity).<ref name="Naprosyn label" /> Naproxen's anti-inflammatory properties may relieve pain caused by inflammatory conditions such as [[migraine]], [[osteoarthritis]], [[kidney stones]], [[rheumatoid arthritis]], [[psoriatic arthritis]], [[gout]], [[ankylosing spondylitis]], [[menstrual cramp]]s, [[tendinitis]], and [[bursitis]].<ref name="drugs" >{{cite web|url=https://www.drugs.com/naproxen.html|title=Naproxen|publisher=Drugs.com|date=2017|access-date=7 February 2017}}</ref>  Naproxen has also proven effective for acute post-operative pain.<ref name=":0" />
Naproxen's medical uses are related to its mechanism of action as an anti-inflammatory compound.<ref name="Naprosyn label" /> Naproxen is used to treat a variety of inflammatory conditions and symptoms that are due to excessive [[inflammation]], such as [[pain]] and [[fever]] (naproxen has fever-reducing, or [[antipyretic]], properties in addition to its anti-inflammatory activity).<ref name="Naprosyn label" /> Naproxen's anti-inflammatory properties relieve pain caused by inflammatory conditions such as [[migraine]], [[osteoarthritis]], [[kidney stones]], [[rheumatoid arthritis]], [[psoriatic arthritis]], [[gout]], [[ankylosing spondylitis]], [[menstrual cramp]]s, [[tendinitis]], and [[bursitis]].<ref name="drugs" >{{cite web|url=https://www.drugs.com/naproxen.html|title=Naproxen|publisher=Drugs.com|date=2017|access-date=7 February 2017}}</ref>  Naproxen has also proven effective for acute post-operative pain.<ref name=":0" />


Naproxen sodium is used as a "bridge therapy" in [[medication overuse headache|medication-overuse headache]] to slowly take patients off other medications.<ref name="Chronic HA">{{cite journal | vauthors = Garza I, Schwedt TJ | title = Diagnosis and management of chronic daily headache | journal = Seminars in Neurology | volume = 30 | issue = 2 | pages = 154–166 | date = April 2010 | pmid = 20352585 | doi = 10.1055/s-0030-1249224 | publisher = WebMD LLC | doi-access = free }}</ref>
Naproxen sodium is used as a "bridge therapy" in [[medication overuse headache|medication-overuse headache]] to slowly take patients off other medications.<ref name="Chronic HA">{{cite journal | vauthors = Garza I, Schwedt TJ | title = Diagnosis and management of chronic daily headache | journal = Seminars in Neurology | volume = 30 | issue = 2 | pages = 154–166 | date = April 2010 | pmid = 20352585 | doi = 10.1055/s-0030-1249224 | publisher = WebMD LLC | doi-access = free }}</ref>
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===Pregnancy and lactation===
===Pregnancy and lactation===
As with all non-steroidal anti-inflammatory medications (NSAIDs), naproxen use should be avoided in pregnancy due to the importance of prostaglandins in vascular and renal function in the fetus. NSAIDs should especially be avoided in the third trimester. Small amounts of naproxen are excreted in breast milk.<ref name=drugs/> However, adverse effects are uncommon in infants breastfed from a mother taking naproxen.<ref name="LactMed">{{cite web|title=LACTMED: NAPROXEN|url=https://toxnet.nlm.nih.gov/cgi-bin/sis/search2/f?./temp/~H9DD3g:1|website=TOXNET|publisher=NIH|access-date=21 July 2017}}</ref>
As with all non-steroidal anti-inflammatory medications (NSAIDs), naproxen use should be avoided in pregnancy due to the importance of prostaglandins in vascular and renal function in the fetus. NSAIDs should especially be avoided in the third trimester. Small amounts of naproxen are excreted in breast milk.<ref name=drugs/> However, adverse effects are uncommon in infants breastfed from a mother taking naproxen.<ref name="LactMed">{{cite web|title=LACTMED: NAPROXEN|url=https://www.nlm.nih.gov/toxnet/index.html|website=TOXNET|publisher=NIH|access-date=21 July 2017}}</ref>


==Adverse effects==
==Adverse effects==
Common adverse effects include dizziness, drowsiness, headache, rash, bruising, and gastrointestinal upset.<ref name="Naprosyn label" /><ref name=drugs/> Heavy use is associated with an increased risk of end-stage renal disease and kidney failure.<ref name="Naprosyn label" /><ref>{{cite journal | vauthors = Perneger TV, Whelton PK, Klag MJ | title = Risk of kidney failure associated with the use of acetaminophen, aspirin, and nonsteroidal antiinflammatory drugs | journal = The New England Journal of Medicine | volume = 331 | issue = 25 | pages = 1675–1679 | date = December 1994 | pmid = 7969358 | doi = 10.1056/nejm199412223312502 | doi-access = free }}</ref> Naproxen may cause [[leg cramps|muscle cramps]] in the legs in 3% of people.<ref>{{cite journal | vauthors = Allen RE, Kirby KA | title = Nocturnal leg cramps | journal = American Family Physician | volume = 86 | issue = 4 | pages = 350–355 | date = August 2012 | pmid = 22963024 }}</ref>
Common adverse effects include dizziness, drowsiness, headache, rash, bruising, and gastrointestinal upset.<ref name="Naprosyn label" /><ref name=drugs/> Heavy use is associated with an increased risk of end-stage renal disease and kidney failure.<ref name="Naprosyn label" /><ref>{{cite journal | vauthors = Perneger TV, Whelton PK, Klag MJ | title = Risk of kidney failure associated with the use of acetaminophen, aspirin, and nonsteroidal antiinflammatory drugs | journal = The New England Journal of Medicine | volume = 331 | issue = 25 | pages = 1675–1679 | date = December 1994 | pmid = 7969358 | doi = 10.1056/nejm199412223312502 | doi-access = free }}</ref> Naproxen may cause [[leg cramps|muscle cramps]] in the legs in 3% of people.<ref>{{cite journal | vauthors = Allen RE, Kirby KA | title = Nocturnal leg cramps | journal = American Family Physician | volume = 86 | issue = 4 | pages = 350–355 | date = August 2012 | pmid = 22963024 }}</ref>


In October 2020, the U.S. [[Food and Drug Administration]] (FDA) required the [[Drug labelling|drug label]] to be updated for all nonsteroidal anti-inflammatory medications to describe the risk of kidney problems in unborn babies that result in low amniotic fluid.<ref name="FDA PR 20201015" /><ref name="FDA safety 20201015" /> They recommend avoiding NSAIDs in pregnant women at 20 weeks or later in pregnancy.<ref name="FDA PR 20201015">{{cite press release | title=FDA Warns that Using a Type of Pain and Fever Medication in Second Half of Pregnancy Could Lead to Complications | website=U.S. [[Food and Drug Administration]] (FDA) | date=15 October 2020 | url=https://www.fda.gov/news-events/press-announcements/fda-warns-using-type-pain-and-fever-medication-second-half-pregnancy-could-lead-complications | access-date=15 October 2020}}{{dead link|date=May 2025|bot=medic}}{{cbignore|bot=medic}} {{PD-notice}}</ref><ref name="FDA safety 20201015">{{cite web | title=NSAIDs may cause rare kidney problems in unborn babies | website=U.S. Food and Drug Administration | date=21 July 2017 | url=https://www.fda.gov/drugs/drug-safety-and-availability/fda-recommends-avoiding-use-nsaids-pregnancy-20-weeks-or-later-because-they-can-result-low-amniotic | archive-url=https://web.archive.org/web/20201017014419/https://www.fda.gov/drugs/drug-safety-and-availability/fda-recommends-avoiding-use-nsaids-pregnancy-20-weeks-or-later-because-they-can-result-low-amniotic | url-status=dead | archive-date=17 October 2020 | access-date=15 October 2020}} {{PD-notice}}</ref>
In October 2020, the U.S. [[Food and Drug Administration]] (FDA) required the [[prescribing information]] to be updated for all nonsteroidal anti-inflammatory medications to describe the risk of kidney problems in unborn babies that result in low amniotic fluid.<ref name="FDA PR 20201015" /><ref name="FDA safety 20201015" /> They recommend avoiding NSAIDs in pregnant women at 20 weeks or later in pregnancy.<ref name="FDA PR 20201015">{{cite press release | title=FDA Warns that Using a Type of Pain and Fever Medication in Second Half of Pregnancy Could Lead to Complications | website=U.S. [[Food and Drug Administration]] (FDA) | date=15 October 2020 | url=https://www.fda.gov/news-events/press-announcements/fda-warns-using-type-pain-and-fever-medication-second-half-pregnancy-could-lead-complications | access-date=15 October 2020}}{{dead link|date=May 2025|bot=medic}}{{cbignore|bot=medic}} {{PD-notice}}</ref><ref name="FDA safety 20201015">{{cite web | title=NSAIDs may cause rare kidney problems in unborn babies | website=U.S. Food and Drug Administration | date=21 July 2017 | url=https://www.fda.gov/drugs/drug-safety-and-availability/fda-recommends-avoiding-use-nsaids-pregnancy-20-weeks-or-later-because-they-can-result-low-amniotic | archive-url=https://web.archive.org/web/20201017014419/https://www.fda.gov/drugs/drug-safety-and-availability/fda-recommends-avoiding-use-nsaids-pregnancy-20-weeks-or-later-because-they-can-result-low-amniotic | archive-date=17 October 2020 | access-date=15 October 2020}} {{PD-notice}}</ref>


===Gastrointestinal===
===Gastrointestinal===
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===Cardiovascular===
===Cardiovascular===
[[COX-2]] selective and nonselective [[NSAIDs]] have been linked to increases in the number of serious and potentially fatal cardiovascular events, such as [[myocardial infarctions]] and [[stroke]]s.<ref name="NissenYeomans2016">{{cite journal | vauthors = Nissen SE, Yeomans ND, Solomon DH, Lüscher TF, Libby P, Husni ME, Graham DY, Borer JS, Wisniewski LM, Wolski KE, Wang Q, Menon V, Ruschitzka F, Gaffney M, Beckerman B, Berger MF, Bao W, Lincoff AM | title = Cardiovascular Safety of Celecoxib, Naproxen, or Ibuprofen for Arthritis | journal = The New England Journal of Medicine | volume = 375 | issue = 26 | pages = 2519–2529 | date = December 2016 | pmid = 27959716 | doi = 10.1056/NEJMoa1611593 | doi-access = free }}</ref> Naproxen is, however, associated with the smallest overall cardiovascular risks.<ref name = Trelle>{{cite journal | vauthors = Trelle S, Reichenbach S, Wandel S, Hildebrand P, Tschannen B, Villiger PM, Egger M, Jüni P | title = Cardiovascular safety of non-steroidal anti-inflammatory drugs: network meta-analysis | journal = BMJ | volume = 342 | pages = c7086 | date = January 2011 | pmid = 21224324 | pmc = 3019238 | doi = 10.1136/bmj.c7086 | id = c7086 }}</ref><ref name=j1>{{cite journal | vauthors = Bhala N, Emberson J, Merhi A, Abramson S, Arber N, Baron JA, Bombardier C, Cannon C, Farkouh ME, FitzGerald GA, Goss P, Halls H, Hawk E, Hawkey C, Hennekens C, Hochberg M, Holland LE, Kearney PM, Laine L, Lanas A, Lance P, Laupacis A, Oates J, Patrono C, Schnitzer TJ, Solomon S, Tugwell P, Wilson K, Wittes J, Baigent C | title = Vascular and upper gastrointestinal effects of non-steroidal anti-inflammatory drugs: meta-analyses of individual participant data from randomised trials | journal = Lancet | volume = 382 | issue = 9894 | pages = 769–779 | date = August 2013 | pmid = 23726390 | pmc = 3778977 | doi = 10.1016/S0140-6736(13)60900-9 }}</ref> Cardiovascular risk must be considered when prescribing any nonsteroidal anti-inflammatory drug. The drug had roughly 50% of the associated risk of stroke compared with [[ibuprofen]] and was also associated with a reduced number of myocardial infarctions compared with [[Treatment and control groups|control groups]].<ref name=Trelle/>
[[COX-2]] selective and nonselective [[NSAIDs]] have been linked to increases in the number of serious and potentially fatal cardiovascular events, such as [[myocardial infarctions]] and [[stroke]]s.<ref name="NissenYeomans2016">{{cite journal | vauthors = Nissen SE, Yeomans ND, Solomon DH, Lüscher TF, Libby P, Husni ME, Graham DY, Borer JS, Wisniewski LM, Wolski KE, Wang Q, Menon V, Ruschitzka F, Gaffney M, Beckerman B, Berger MF, Bao W, Lincoff AM | title = Cardiovascular Safety of Celecoxib, Naproxen, or Ibuprofen for Arthritis | journal = The New England Journal of Medicine | volume = 375 | issue = 26 | pages = 2519–2529 | date = December 2016 | pmid = 27959716 | doi = 10.1056/NEJMoa1611593 | doi-access = free }}</ref> Naproxen is, however, associated with the smallest overall cardiovascular risks.<ref name = Trelle>{{cite journal | vauthors = Trelle S, Reichenbach S, Wandel S, Hildebrand P, Tschannen B, Villiger PM, Egger M, Jüni P | title = Cardiovascular safety of non-steroidal anti-inflammatory drugs: network meta-analysis | journal = BMJ | volume = 342 | article-number = c7086 | date = January 2011 | pmid = 21224324 | pmc = 3019238 | doi = 10.1136/bmj.c7086 | id = c7086 }}</ref><ref name=j1>{{cite journal | vauthors = Bhala N, Emberson J, Merhi A, Abramson S, Arber N, Baron JA, Bombardier C, Cannon C, Farkouh ME, FitzGerald GA, Goss P, Halls H, Hawk E, Hawkey C, Hennekens C, Hochberg M, Holland LE, Kearney PM, Laine L, Lanas A, Lance P, Laupacis A, Oates J, Patrono C, Schnitzer TJ, Solomon S, Tugwell P, Wilson K, Wittes J, Baigent C | title = Vascular and upper gastrointestinal effects of non-steroidal anti-inflammatory drugs: meta-analyses of individual participant data from randomised trials | journal = Lancet | volume = 382 | issue = 9894 | pages = 769–779 | date = August 2013 | pmid = 23726390 | pmc = 3778977 | doi = 10.1016/S0140-6736(13)60900-9 }}</ref> Cardiovascular risk must be considered when prescribing any nonsteroidal anti-inflammatory drug. The drug had roughly 50% of the associated risk of stroke compared with [[ibuprofen]] and was also associated with a reduced number of myocardial infarctions compared with [[Treatment and control groups|control groups]].<ref name=Trelle/>


A study found that high-dose naproxen induced near-complete suppression of platelet [[thromboxane]] throughout the dosing interval and appeared not to increase [[cardiovascular disease]] (CVD) risk, whereas other non-aspirin high-dose NSAID regimens had only transient effects on platelet [[COX-1]] and were associated with a small but definite vascular hazard. Conversely, naproxen was associated with higher rates of upper gastrointestinal bleeding complications compared with other NSAIDs.<ref name=j1/>
A study found that high-dose naproxen induced near-complete suppression of platelet [[thromboxane]] throughout the dosing interval and appeared not to increase [[cardiovascular disease]] (CVD) risk, whereas other non-aspirin high-dose NSAID regimens had only transient effects on platelet [[COX-1]] and were associated with a small but definite vascular hazard. Conversely, naproxen was associated with higher rates of upper gastrointestinal bleeding complications compared with other NSAIDs.<ref name=j1/>


== Interactions ==
== Drug-drug interactions ==
 
===Drug–drug interactions===
Naproxen may [[drug interaction|interact]] with [[antidepressant]]s, [[lithium (medication)|lithium]], [[methotrexate]], [[probenecid]], [[warfarin]] and other [[blood thinners]], heart or blood pressure medications, including [[diuretic]]s, or steroid medicines such as [[prednisone]].<ref name=drugs/>
Naproxen may [[drug interaction|interact]] with [[antidepressant]]s, [[lithium (medication)|lithium]], [[methotrexate]], [[probenecid]], [[warfarin]] and other [[blood thinners]], heart or blood pressure medications, including [[diuretic]]s, or steroid medicines such as [[prednisone]].<ref name=drugs/>


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===Mechanism of action===
===Mechanism of action===
Naproxen works by [[Reversible inhibitor|reversibly inhibiting]] both the [[PTGS1|COX-1]] and [[Prostaglandin-endoperoxide synthase 2|COX-2]] [[enzymes]] as a non-selective [[coxib]].<ref name="pmid20810665">{{cite journal | vauthors = Duggan KC, Walters MJ, Musee J, Harp JM, Kiefer JR, Oates JA, Marnett LJ | title = Molecular basis for cyclooxygenase inhibition by the non-steroidal anti-inflammatory drug naproxen | journal = The Journal of Biological Chemistry | volume = 285 | issue = 45 | pages = 34950–34959 | date = November 2010 | pmid = 20810665 | pmc = 2966109 | doi = 10.1074/jbc.M110.162982 | doi-access = free }}</ref><ref name="pmid18397691">{{cite journal | vauthors = Hinz B, Cheremina O, Besz D, Zlotnick S, Brune K | title = Impact of naproxen sodium at over-the-counter doses on cyclooxygenase isoforms in human volunteers | journal = International Journal of Clinical Pharmacology and Therapeutics | volume = 46 | issue = 4 | pages = 180–186 | date = April 2008 | pmid = 18397691 | doi = 10.5414/CPP46180 }}</ref><ref name="pmid11028250">{{cite journal | vauthors = Van Hecken A, Schwartz JI, Depré M, De Lepeleire I, Dallob A, Tanaka W, Wynants K, Buntinx A, Arnout J, Wong PH, Ebel DL, Gertz BJ, De Schepper PJ | title = Comparative inhibitory activity of rofecoxib, meloxicam, diclofenac, ibuprofen, and naproxen on COX-2 versus COX-1 in healthy volunteers | journal = Journal of Clinical Pharmacology | volume = 40 | issue = 10 | pages = 1109–1120 | date = October 2000 | pmid = 11028250 | doi = 10.1177/009127000004001005 | url = https://accp1.onlinelibrary.wiley.com/doi/abs/10.1177/009127000004001005 | access-date = 23 February 2020 | s2cid = 24736336 | archive-url = https://web.archive.org/web/20200223155551/https://accp1.onlinelibrary.wiley.com/doi/abs/10.1177/009127000004001005 | archive-date = 23 February 2020 }}</ref><ref name="pmid15161995">{{cite journal | vauthors = Gross GJ, Moore J | title = Effect of COX-1/COX-2 inhibition versus selective COX-2 inhibition on coronary vasodilator responses to arachidonic acid and acetylcholine | journal = Pharmacology | volume = 71 | issue = 3 | pages = 135–142 | date = July 2004 | pmid = 15161995 | doi = 10.1159/000077447 | s2cid = 34018223 }}</ref><ref name="pmid11566042">{{cite journal | vauthors = Hawkey CJ | title = COX-1 and COX-2 inhibitors | journal = Best Practice & Research. Clinical Gastroenterology | volume = 15 | issue = 5 | pages = 801–820 | date = October 2001 | pmid = 11566042 | doi = 10.1053/bega.2001.0236 }}</ref>
Naproxen works by [[Reversible inhibitor|reversibly inhibiting]] both the [[PTGS1|COX-1]] and [[Prostaglandin-endoperoxide synthase 2|COX-2]] [[enzymes]] as a non-selective [[coxib]].<ref name="pmid20810665">{{cite journal | vauthors = Duggan KC, Walters MJ, Musee J, Harp JM, Kiefer JR, Oates JA, Marnett LJ | title = Molecular basis for cyclooxygenase inhibition by the non-steroidal anti-inflammatory drug naproxen | journal = The Journal of Biological Chemistry | volume = 285 | issue = 45 | pages = 34950–34959 | date = November 2010 | pmid = 20810665 | pmc = 2966109 | doi = 10.1074/jbc.M110.162982 | doi-access = free }}</ref><ref name="pmid18397691">{{cite journal | vauthors = Hinz B, Cheremina O, Besz D, Zlotnick S, Brune K | title = Impact of naproxen sodium at over-the-counter doses on cyclooxygenase isoforms in human volunteers | journal = International Journal of Clinical Pharmacology and Therapeutics | volume = 46 | issue = 4 | pages = 180–186 | date = April 2008 | pmid = 18397691 | doi = 10.5414/CPP46180 }}</ref><ref name="pmid11028250">{{cite journal | vauthors = Van Hecken A, Schwartz JI, Depré M, De Lepeleire I, Dallob A, Tanaka W, Wynants K, Buntinx A, Arnout J, Wong PH, Ebel DL, Gertz BJ, De Schepper PJ | title = Comparative inhibitory activity of rofecoxib, meloxicam, diclofenac, ibuprofen, and naproxen on COX-2 versus COX-1 in healthy volunteers | journal = Journal of Clinical Pharmacology | volume = 40 | issue = 10 | pages = 1109–1120 | date = October 2000 | pmid = 11028250 | doi = 10.1177/009127000004001005 | url = https://accp1.onlinelibrary.wiley.com/doi/abs/10.1177/009127000004001005 | access-date = 23 February 2020 | s2cid = 24736336 | archive-url = https://web.archive.org/web/20200223155551/https://accp1.onlinelibrary.wiley.com/doi/abs/10.1177/009127000004001005 | archive-date = 23 February 2020 | url-access = subscription }}</ref><ref name="pmid15161995">{{cite journal | vauthors = Gross GJ, Moore J | title = Effect of COX-1/COX-2 inhibition versus selective COX-2 inhibition on coronary vasodilator responses to arachidonic acid and acetylcholine | journal = Pharmacology | volume = 71 | issue = 3 | pages = 135–142 | date = July 2004 | pmid = 15161995 | doi = 10.1159/000077447 | s2cid = 34018223 }}</ref><ref name="pmid11566042">{{cite journal | vauthors = Hawkey CJ | title = COX-1 and COX-2 inhibitors | journal = Best Practice & Research. Clinical Gastroenterology | volume = 15 | issue = 5 | pages = 801–820 | date = October 2001 | pmid = 11566042 | doi = 10.1053/bega.2001.0236 }}</ref>


=== Pharmacokinetics ===
=== Pharmacokinetics ===
Naproxen is a minor substrate of [[CYP1A2]] and [[CYP2C9]]. It is extensively metabolized in the liver to 6-O-desmethylnaproxen, and both the parent drug and the desmethyl metabolite undergo further metabolism to their respective acylglucuronide conjugated metabolites.<ref>{{cite journal | vauthors = Vree TB, van den Biggelaar-Martea M, Verwey-van Wissen CP, Vree JB, Guelen PJ | title = Pharmacokinetics of naproxen, its metabolite O-desmethylnaproxen, and their acyl glucuronides in humans | journal = Biopharmaceutics & Drug Disposition | volume = 14 | issue = 6 | pages = 491–502 | date = August 1993 | pmid = 8218967 | doi = 10.1002/bdd.2510140605 | s2cid = 35920001 }}</ref> An analysis of two [[clinical trials]] shows that naproxen's time to [[Cmax (pharmacology)|peak plasma concentration]] occurs between 2 and 4 hours after oral administration, though naproxen sodium reaches peak plasma concentrations within 1–2 hours.<ref name="CV Safety Review Article" >{{cite journal | vauthors = Angiolillo DJ, Weisman SM | title = Clinical Pharmacology and Cardiovascular Safety of Naproxen | journal = American Journal of Cardiovascular Drugs | volume = 17 | issue = 2 | pages = 97–107 | date = April 2017 | pmid = 27826802 | pmc = 5340840 | doi = 10.1007/s40256-016-0200-5 | author-link1 = Dominick Angiolillo }}</ref>{{what|date=December 2021}}
Naproxen is a minor substrate of [[CYP1A2]] and [[CYP2C9]]. It is extensively metabolized in the liver to 6-O-desmethylnaproxen, and both the parent drug and the desmethyl metabolite undergo further metabolism to their respective acylglucuronide conjugated metabolites.<ref>{{cite journal | vauthors = Vree TB, van den Biggelaar-Martea M, Verwey-van Wissen CP, Vree JB, Guelen PJ | title = Pharmacokinetics of naproxen, its metabolite O-desmethylnaproxen, and their acyl glucuronides in humans | journal = Biopharmaceutics & Drug Disposition | volume = 14 | issue = 6 | pages = 491–502 | date = August 1993 | pmid = 8218967 | doi = 10.1002/bdd.2510140605 | s2cid = 35920001 }}</ref> An analysis of two [[clinical trials]] shows that naproxen's time to [[Cmax (pharmacology)|peak plasma concentration]] occurs between 2 and 4 hours after oral administration (the naproxen sodium formulation of the medication reaches peak plasma concentrations within 1–2 hours).<ref name="CV Safety Review Article" >{{cite journal | vauthors = Angiolillo DJ, Weisman SM | title = Clinical Pharmacology and Cardiovascular Safety of Naproxen | journal = American Journal of Cardiovascular Drugs | volume = 17 | issue = 2 | pages = 97–107 | date = April 2017 | pmid = 27826802 | pmc = 5340840 | doi = 10.1007/s40256-016-0200-5 | author-link1 = Dominick Angiolillo }}</ref>{{what|date=December 2021}}


=== Pharmacogenetics ===
=== Pharmacogenetics ===
Line 167: Line 172:
Naproxen has been industrially produced by [[Syntex]] starting from [[2-naphthol]] as follows:<ref name = Harrington>{{cite journal | journal = [[Org. Process Res. Dev.]] | year = 1997 | volume = 1 | issue = 1 | pages = 72–76 | title = Twenty Years of Naproxen Technology |vauthors=Harrington PJ, Lodewijk E | doi = 10.1021/op960009e}}</ref>
Naproxen has been industrially produced by [[Syntex]] starting from [[2-naphthol]] as follows:<ref name = Harrington>{{cite journal | journal = [[Org. Process Res. Dev.]] | year = 1997 | volume = 1 | issue = 1 | pages = 72–76 | title = Twenty Years of Naproxen Technology |vauthors=Harrington PJ, Lodewijk E | doi = 10.1021/op960009e}}</ref>


:[[File:Scale Synthesis of S-naproxen.svg|center|thumb|500x500px|Synthesis of Naproxen]]
:[[File:Scale Synthesis of S-naproxen.svg|center|thumb|500x500px|Synthesis of Naproxen|class=skin-invert-image]]


==Society and culture==
==Society and culture==
===Brand names ===
===Brand names ===
Naproxen and naproxen sodium are marketed under various [[brand name]]s, including Accord, Aleve,<ref>{{cite ssrn |ssrn=1420558 |title=The Aleve Launch (A) |vauthors=Parry ME, Katie F}}</ref> Anaprox, Antalgin, Apranax, Feminax Ultra, Flanax, Inza, Maxidol, Nalgesin, Naposin, Naprelan, Naprogesic, Naprosyn, Narocin, Pronaxen, Proxen, Soproxen, and Xenifar.<ref name="Naproxen international">{{cite web | title=Naproxen international | website=Drugs.com | date=7 December 2020 | url=https://www.drugs.com/international/naproxen.html | access-date=3 January 2021}}</ref> It is also available as the combination [[naproxen/esomeprazole magnesium]] in delayed-release tablets under the brand name Vimovo.<ref name="Naproxen international" /><ref name="Vimovo">{{cite web | title=Vimovo- naproxen and esomeprazole magnesium tablet, delayed release | website=DailyMed | date=2 August 2019 | url=https://dailymed.nlm.nih.gov/dailymed/drugInfo.cfm?setid=baa47781-7151-4c75-a9a2-d2eac0a7d55e | access-date=27 December 2019}}</ref>
Naproxen and naproxen sodium are marketed under various [[brand name]]s, including Accord, Aleve,<ref>{{cite SSRN |ssrn=1420558 |title=The Aleve Launch (A) |vauthors=Parry ME, Katie F}}</ref> Anaprox, Antalgin, Apranax, Feminax Ultra, Flanax, Inza, Maxidol, Nalgesin, Naposin, Naprelan, Naprogesic, Naprosyn, Narocin, Pronaxen, Proxen, Soproxen, and Xenifar.<ref name="Naproxen international">{{cite web | title=Naproxen international | website=Drugs.com | date=7 December 2020 | url=https://www.drugs.com/international/naproxen.html | access-date=3 January 2021}}</ref> It is also available as the combination [[naproxen/esomeprazole magnesium]] in delayed-release tablets under the brand name Vimovo.<ref name="Naproxen international" /><ref name="Vimovo">{{cite web | title=Vimovo- naproxen and esomeprazole magnesium tablet, delayed release | website=DailyMed | date=2 August 2019 | url=https://dailymed.nlm.nih.gov/dailymed/drugInfo.cfm?setid=baa47781-7151-4c75-a9a2-d2eac0a7d55e | access-date=27 December 2019}}</ref>


=== Access restrictions ===
=== Access restrictions ===
Line 177: Line 182:


==Ecological effects==
==Ecological effects==
Naproxen has been found in groundwater and drinking water in concentrations high enough to have adverse effects on invertebrates including fungi, algae, bacteria and {{not a typo|fishes}}.<ref name="PMID31925484">{{cite journal | vauthors = Wojcieszyńska D, Guzik U | title = Naproxen in the environment: its occurrence, toxicity to nontarget organisms and biodegradation | journal = Applied Microbiology and Biotechnology | volume = 104 | issue = 5 | pages = 1849–1857 | date = March 2020 | pmid = 31925484 | doi = 10.1007/s00253-019-10343-x | pmc = 7007908 }}</ref> Naproxen is not thoroughly removed by conventional water treatment methods,<ref name="PMID36293682">{{cite journal | vauthors = Rodríguez-Serin H, Gamez-Jara A, De La Cruz-Noriega M, Rojas-Flores S, Rodriguez-Yupanqui M, Gallozzo Cardenas M, Cruz-Monzon J | title = Literature Review: Evaluation of Drug Removal Techniques in Municipal and Hospital Wastewater | journal = International Journal of Environmental Research and Public Health | volume = 19 | issue = 20 | date = October 2022 | page = 13105 | pmid = 36293682 | doi = 10.3390/ijerph192013105 | doi-access = free | pmc = 9602914 }}</ref> and its degradation pathways in the environment are limited.<ref name="PMID34767851">{{cite journal | vauthors = Moreno Ríos AL, Gutierrez-Suarez K, Carmona Z, Ramos CG, Silva Oliveira LF | title = Pharmaceuticals as emerging pollutants: Case naproxen an overview | journal = Chemosphere | volume = 291 | issue = Pt 1 | page = 132822 | date = March 2022 | pmid = 34767851 | doi = 10.1016/j.chemosphere.2021.132822 | bibcode = 2022Chmsp.29132822M | hdl = 11323/9007 | hdl-access = free }}</ref><ref name="PMID34139498">{{cite journal | vauthors = Mulkiewicz E, Wolecki D, Świacka K, Kumirska J, Stepnowski P, Caban M | title = Metabolism of non-steroidal anti-inflammatory drugs by non-target wild-living organisms | journal = The Science of the Total Environment | volume = 791 | page = 148251 | date = October 2021 | pmid = 34139498 | doi = 10.1016/j.scitotenv.2021.148251 | bibcode = 2021ScTEn.79148251M }}</ref> Some methods more successfully remove naproxen from wastewater, including [[Metal–organic framework|metal-organic complex]]es and [[Carbon filtering|porous carbon]].<ref name="PMID37419350">{{cite journal | vauthors = Huynh NC, Nguyen TT, Nguyen DT, Tran TV | title = Occurrence, toxicity, impact and removal of selected non-steroidal anti-inflammatory drugs (NSAIDs): A review | journal = The Science of the Total Environment | volume = 898 | page = 165317 | date = November 2023 | pmid = 37419350 | doi = 10.1016/j.scitotenv.2023.165317 | bibcode = 2023ScTEn.89865317H }}</ref> Although the levels are generally low enough to not be acutely toxic, sub-lethal effects may still occur,<ref name="PMID32559537">{{cite journal | vauthors = Parolini M | title = Toxicity of the Non-Steroidal Anti-Inflammatory Drugs (NSAIDs) acetylsalicylic acid, paracetamol, diclofenac, ibuprofen and naproxen towards freshwater invertebrates: A review | journal = The Science of the Total Environment | volume = 740 | page = 140043 | date = October 2020 | pmid = 32559537 | doi = 10.1016/j.scitotenv.2020.140043 | bibcode = 2020ScTEn.74040043P | hdl = 2434/747078 | hdl-access = free }}</ref> such as reduced photosynthetic ability.<ref name="PMID34687686">{{cite journal | vauthors = Mojiri A, Zhou JL, Ratnaweera H, Rezania S, Nazari VM | title = Pharmaceuticals and personal care products in aquatic environments and their removal by algae-based systems | journal = Chemosphere | volume = 288 | issue = Pt 2 | page = 132580 | date = February 2022 | pmid = 34687686 | doi = 10.1016/j.chemosphere.2021.132580 | bibcode = 2022Chmsp.28832580M }}</ref>
Naproxen has been found in groundwater and drinking water in concentrations high enough to have adverse effects on invertebrates including fungi, algae, bacteria and {{not a typo|fishes}}.<ref name="PMID31925484">{{cite journal | vauthors = Wojcieszyńska D, Guzik U | title = Naproxen in the environment: its occurrence, toxicity to nontarget organisms and biodegradation | journal = Applied Microbiology and Biotechnology | volume = 104 | issue = 5 | pages = 1849–1857 | date = March 2020 | pmid = 31925484 | doi = 10.1007/s00253-019-10343-x | pmc = 7007908 }}</ref> Naproxen is not thoroughly removed by conventional water treatment methods,<ref name="PMID36293682">{{cite journal | vauthors = Rodríguez-Serin H, Gamez-Jara A, De La Cruz-Noriega M, Rojas-Flores S, Rodriguez-Yupanqui M, Gallozzo Cardenas M, Cruz-Monzon J | title = Literature Review: Evaluation of Drug Removal Techniques in Municipal and Hospital Wastewater | journal = International Journal of Environmental Research and Public Health | volume = 19 | issue = 20 | date = October 2022 | article-number = 13105 | pmid = 36293682 | doi = 10.3390/ijerph192013105 | doi-access = free | pmc = 9602914 }}</ref> and its degradation pathways in the environment are limited.<ref name="PMID34767851">{{cite journal | vauthors = Moreno Ríos AL, Gutierrez-Suarez K, Carmona Z, Ramos CG, Silva Oliveira LF | title = Pharmaceuticals as emerging pollutants: Case naproxen an overview | journal = Chemosphere | volume = 291 | issue = Pt 1 | article-number = 132822 | date = March 2022 | pmid = 34767851 | doi = 10.1016/j.chemosphere.2021.132822 | bibcode = 2022Chmsp.29132822M | hdl = 11323/9007 | hdl-access = free }}</ref><ref name="PMID34139498">{{cite journal | vauthors = Mulkiewicz E, Wolecki D, Świacka K, Kumirska J, Stepnowski P, Caban M | title = Metabolism of non-steroidal anti-inflammatory drugs by non-target wild-living organisms | journal = The Science of the Total Environment | volume = 791 | article-number = 148251 | date = October 2021 | pmid = 34139498 | doi = 10.1016/j.scitotenv.2021.148251 | bibcode = 2021ScTEn.79148251M }}</ref> Some methods more successfully remove naproxen from wastewater, including [[Metal–organic framework|metal-organic complex]]es and [[Carbon filtering|porous carbon]].<ref name="PMID37419350">{{cite journal | vauthors = Huynh NC, Nguyen TT, Nguyen DT, Tran TV | title = Occurrence, toxicity, impact and removal of selected non-steroidal anti-inflammatory drugs (NSAIDs): A review | journal = The Science of the Total Environment | volume = 898 | article-number = 165317 | date = November 2023 | pmid = 37419350 | doi = 10.1016/j.scitotenv.2023.165317 | bibcode = 2023ScTEn.89865317H }}</ref> Although the levels are generally low enough to not be acutely toxic, sub-lethal effects may still occur,<ref name="PMID32559537">{{cite journal | vauthors = Parolini M | title = Toxicity of the Non-Steroidal Anti-Inflammatory Drugs (NSAIDs) acetylsalicylic acid, paracetamol, diclofenac, ibuprofen and naproxen towards freshwater invertebrates: A review | journal = The Science of the Total Environment | volume = 740 | article-number = 140043 | date = October 2020 | pmid = 32559537 | doi = 10.1016/j.scitotenv.2020.140043 | bibcode = 2020ScTEn.74040043P | hdl = 2434/747078 | hdl-access = free }}</ref> such as reduced photosynthetic ability.<ref name="PMID34687686">{{cite journal | vauthors = Mojiri A, Zhou JL, Ratnaweera H, Rezania S, Nazari VM | title = Pharmaceuticals and personal care products in aquatic environments and their removal by algae-based systems | journal = Chemosphere | volume = 288 | issue = Pt 2 | article-number = 132580 | date = February 2022 | pmid = 34687686 | doi = 10.1016/j.chemosphere.2021.132580 | bibcode = 2022Chmsp.28832580M }}</ref>


==Research==
==Research==
Line 206: Line 211:
[[Category:Nonsteroidal anti-inflammatory drugs]]
[[Category:Nonsteroidal anti-inflammatory drugs]]
[[Category:Propionic acids]]
[[Category:Propionic acids]]
[[Category:World Health Organization essential medicines]]
[[Category:Wikipedia medicine articles ready to translate]]
[[Category:Wikipedia medicine articles ready to translate]]
[[Category:Over-the-counter drugs in the United States]]

Latest revision as of 03:14, 10 October 2025

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Naproxen, sold under the brand name Aleve among others, is a nonsteroidal anti-inflammatory drug (NSAID) used to treat pain, menstrual cramps, and inflammatory diseases such as rheumatoid arthritis, gout and fever.[6] It is taken orally.[6] It is available in immediate and delayed release formulations.[6] Onset of effects is within an hour and lasts for up to twelve hours.[6] Naproxen is also available in salt form, naproxen sodium, which has better solubility when taken orally.[7]

Common side effects include dizziness, headache, bruising, allergic reactions, heartburn, and stomach pain.[6] Severe side effects include an increased risk of heart disease, stroke, gastrointestinal bleeding, and stomach ulcers.[6] The heart disease risk may be lower than with other NSAIDs.[6] It is not recommended in people with kidney problems.[6] Use is not recommended in the third trimester of pregnancy.[6]

Naproxen is a nonselective COX inhibitor.[6] As an NSAID, naproxen appears to exert its anti-inflammatory action by reducing the production of inflammatory mediators called prostaglandins.[8] It is metabolized by the liver to inactive metabolites.[6]

Naproxen was patented in 1967 and approved for medical use in the United States in 1976.[9][6][10] In the United States it is available over-the-counter and as a generic medication.[6][11] In 2023, it was the 103rd most commonly prescribed medication in the United States, with more than 6Script error: No such module "String".million prescriptions.[12][13] Naproxen is a therapeutic alternative on the World Health Organization's List of Essential Medicines.[14]

Medical uses

Naproxen's medical uses are related to its mechanism of action as an anti-inflammatory compound.[9] Naproxen is used to treat a variety of inflammatory conditions and symptoms that are due to excessive inflammation, such as pain and fever (naproxen has fever-reducing, or antipyretic, properties in addition to its anti-inflammatory activity).[9] Naproxen's anti-inflammatory properties relieve pain caused by inflammatory conditions such as migraine, osteoarthritis, kidney stones, rheumatoid arthritis, psoriatic arthritis, gout, ankylosing spondylitis, menstrual cramps, tendinitis, and bursitis.[2] Naproxen has also proven effective for acute post-operative pain.[7]

Naproxen sodium is used as a "bridge therapy" in medication-overuse headache to slowly take patients off other medications.[15]

Available formulations

Naproxen sodium is available as both an immediate-release and an extended-release tablet. The extended-release formulations (sometimes called "sustained release", or "enteric coated") take longer to take effect than the immediate-release formulations and therefore are less useful when immediate pain relief is desired. Extended-release formulations are more useful for the treatment of chronic, or long-lasting, conditions, in which long-term pain relief is desirable.[16]

Pregnancy and lactation

As with all non-steroidal anti-inflammatory medications (NSAIDs), naproxen use should be avoided in pregnancy due to the importance of prostaglandins in vascular and renal function in the fetus. NSAIDs should especially be avoided in the third trimester. Small amounts of naproxen are excreted in breast milk.[2] However, adverse effects are uncommon in infants breastfed from a mother taking naproxen.[17]

Adverse effects

Common adverse effects include dizziness, drowsiness, headache, rash, bruising, and gastrointestinal upset.[9][2] Heavy use is associated with an increased risk of end-stage renal disease and kidney failure.[9][18] Naproxen may cause muscle cramps in the legs in 3% of people.[19]

In October 2020, the U.S. Food and Drug Administration (FDA) required the prescribing information to be updated for all nonsteroidal anti-inflammatory medications to describe the risk of kidney problems in unborn babies that result in low amniotic fluid.[20][21] They recommend avoiding NSAIDs in pregnant women at 20 weeks or later in pregnancy.[20][21]

Gastrointestinal

As with other non-COX-2 selective NSAIDs, naproxen can cause gastrointestinal problems, such as heartburn, constipation, diarrhea, ulcers and stomach bleeding.[22] Naproxen should be taken orally with, or just after food, to decrease the risk of gastrointestinal side effects.[23] Persons with a history of ulcers or inflammatory bowel disease should consult a doctor before taking naproxen.[23] In U.S. markets, naproxen is sold with boxed warnings about the risk of gastrointestinal ulceration or bleeding.[2] Naproxen poses an intermediate risk of stomach ulcers compared with ibuprofen, which is low-risk, and indometacin, which is high-risk.[24] To reduce stomach ulceration risk, it is often combined with a proton-pump inhibitor (a medication that reduces stomach acid production) during long-term treatment of those with pre-existing stomach ulcers or a history of developing stomach ulcers while on NSAIDs.[25][26]

Cardiovascular

COX-2 selective and nonselective NSAIDs have been linked to increases in the number of serious and potentially fatal cardiovascular events, such as myocardial infarctions and strokes.[27] Naproxen is, however, associated with the smallest overall cardiovascular risks.[28][29] Cardiovascular risk must be considered when prescribing any nonsteroidal anti-inflammatory drug. The drug had roughly 50% of the associated risk of stroke compared with ibuprofen and was also associated with a reduced number of myocardial infarctions compared with control groups.[28]

A study found that high-dose naproxen induced near-complete suppression of platelet thromboxane throughout the dosing interval and appeared not to increase cardiovascular disease (CVD) risk, whereas other non-aspirin high-dose NSAID regimens had only transient effects on platelet COX-1 and were associated with a small but definite vascular hazard. Conversely, naproxen was associated with higher rates of upper gastrointestinal bleeding complications compared with other NSAIDs.[29]

Drug-drug interactions

Naproxen may interact with antidepressants, lithium, methotrexate, probenecid, warfarin and other blood thinners, heart or blood pressure medications, including diuretics, or steroid medicines such as prednisone.[2]

NSAIDs such as naproxen may interfere with and reduce the efficacy of SSRI antidepressants,[30] as well as increase the risk of bleeding greater than the individual bleeding risk of either class of agent, when taken together.[31] Naproxen is not contraindicated in the presence of SSRIs, though concomitant use of the medications should be done with caution.[31] Alcohol consumption increases the risk of gastrointestinal bleeding when combined with NSAIDs like naproxen in a dose-dependent manner (that is, the higher the dose of naproxen, the higher the risk of bleeding).[32] The risk is highest for people who are heavy drinkers.[32]

Pharmacology

Mechanism of action

Naproxen works by reversibly inhibiting both the COX-1 and COX-2 enzymes as a non-selective coxib.[33][34][35][36][37]

Pharmacokinetics

Naproxen is a minor substrate of CYP1A2 and CYP2C9. It is extensively metabolized in the liver to 6-O-desmethylnaproxen, and both the parent drug and the desmethyl metabolite undergo further metabolism to their respective acylglucuronide conjugated metabolites.[38] An analysis of two clinical trials shows that naproxen's time to peak plasma concentration occurs between 2 and 4 hours after oral administration (the naproxen sodium formulation of the medication reaches peak plasma concentrations within 1–2 hours).[39]Script error: No such module "Unsubst".

Pharmacogenetics

The pharmacogenetics of naproxen has been studied to better understand its adverse effects.[40] In 1998, a small pharmacokinetic (PK) study failed to show that differences in a patient's ability to clear naproxen from the body could account for differences in a patient's risk of experiencing the adverse effect of a serious gastrointestinal bleed while taking naproxen.[40] However, the study failed to account for differences in the activity of CYP2C9, a drug-metabolizing enzyme that is necessary for clearing naproxen.[40] Studies on the relationship between CYP2C9 genotype and NSAID-induced gastrointestinal bleeds have shown that genetic variants in CYP2C9 that reduce the clearance of major CYP2C9 substrates (like naproxen) increase the risk of NSAID-induced gastrointestinal bleeds, especially for homozygous defective variants.[40]

Chemistry

Naproxen is a member of the 2-arylpropionic acid (profen) family of NSAIDs.[41] The free acid is an odorless, white to off-white crystalline substance.Script error: No such module "Unsubst". Naproxen free base is lipid-soluble and practically insoluble in water, while naproxen sodium and many other salts are freely soluble in water, often soluble in methanol, and sparingly soluble in alcohol; check the specific solubility of each salt before use. Naproxen has a melting point of 152–155 °C, while naproxen salts tend to have higher melting points.Script error: No such module "Unsubst".

Synthesis

Naproxen has been industrially produced by Syntex starting from 2-naphthol as follows:[42]

File:Scale Synthesis of S-naproxen.svg
Synthesis of Naproxen

Society and culture

Brand names

Naproxen and naproxen sodium are marketed under various brand names, including Accord, Aleve,[43] Anaprox, Antalgin, Apranax, Feminax Ultra, Flanax, Inza, Maxidol, Nalgesin, Naposin, Naprelan, Naprogesic, Naprosyn, Narocin, Pronaxen, Proxen, Soproxen, and Xenifar.[3] It is also available as the combination naproxen/esomeprazole magnesium in delayed-release tablets under the brand name Vimovo.[3][44]

Access restrictions

Syntex first marketed naproxen in 1976, as the prescription drug Naprosyn. They first marketed naproxen sodium under the brand name Anaprox in 1980. It remains a prescription-only drug in much of the world.Script error: No such module "Unsubst". In the United States, the Food and Drug Administration (FDA) approved it as an over-the-counter (OTC) drug in 1994. OTC preparations of naproxen in the U.S. are mainly marketed by Bayer HealthCare under the brand name Aleve and generic store brand formulations in 220Script error: No such module "String".mg tablets.[45] In Australia, packets of 275Script error: No such module "String".mg tablets of naproxen sodium are Schedule 2 pharmacy medicines, with a maximum daily dose of five tablets or 1375Script error: No such module "String".mg. In the United Kingdom, 250Script error: No such module "String".mg tablets of naproxen were approved for OTC sale under the brand name Feminax Ultra in 2008, for the treatment of primary dysmenorrhoea in women aged 15 to 50.[46] In the Netherlands, 220Script error: No such module "String".mg and 275Script error: No such module "String".mg tablets are available OTC in drugstores, 550Script error: No such module "String".mg is OTC only at pharmacies. Aleve became available over the counter in some provinces in Canada[47] on 14 July 2009, but not British Columbia, Quebec or Newfoundland and Labrador;[48] it subsequently became available OTC in British Columbia in January 2010[49] and Quebec in 2023.[50]

Ecological effects

Naproxen has been found in groundwater and drinking water in concentrations high enough to have adverse effects on invertebrates including fungi, algae, bacteria and Template:Not a typo.[51] Naproxen is not thoroughly removed by conventional water treatment methods,[52] and its degradation pathways in the environment are limited.[53][54] Some methods more successfully remove naproxen from wastewater, including metal-organic complexes and porous carbon.[55] Although the levels are generally low enough to not be acutely toxic, sub-lethal effects may still occur,[56] such as reduced photosynthetic ability.[57]

Research

Naproxen may have antiviral activity against influenza. In laboratory research, it blocks the RNA-binding groove of the nucleoprotein of the virus, preventing the formation of the ribonucleoprotein complex—thus taking the viral nucleoproteins out of circulation.[58]

Veterinary use

Horses

Naproxen is given by mouth to horses at a dose of 10Script error: No such module "String".mg/kg and has shown to have a wide safety margin (no toxicity when given at three times the recommended dose for 42 days).[59] It is more effective for myositis than the commonly used NSAID phenylbutazone, and has shown especially good results for treatment of equine exertional rhabdomyolysis,[60] a disease of muscle breakdown; it is less commonly used for musculoskeletal disease.Template:Medcn

References

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External links

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