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Naproxen

Editor: Matthew A. Varacallo Updated: 8/4/2023 5:20:19 PM

Indications

Naproxen was initially approved in 1976 for prescription use and remained a prescription drug until it received approval as an over-the-counter (OTC) medication in 1994. Naproxen has been FDA-approved to treat acute gout, ankylosing spondylitis, bursitis, polyarticular juvenile idiopathic arthritis, osteoarthritis, tendonitis, rheumatoid arthritis, pain, and primary dysmenorrhea. It is considered the first-line treatment for acute gouty arthritis, osteoarthritis, musculoskeletal pain, inflammation, and dysmenorrhea. While Naproxen and other NSAIDs have FDA approval for the treatment of inflammatory arthropathies, such as rheumatoid arthritis and ankylosing spondylitis, they do not alter the course of the disease, nor do they prevent joint and soft tissue destruction that are common sequelae of these diseases. In these cases, disease-modifying anti-rheumatic drugs (DMARDs) have become the first-line treatment for inflammatory arthropathies, and NSAIDs such as naproxen are used as adjunctive therapy.[1][2]

Off-label uses of naproxen include treating acute migraines and migraine prophylaxis, with Naproxen being considered a first-line abortive remedy for acute migraines. Further, it can be used for chronic migraine prevention as well, along with other medications such as beta-blockers, anti-depressants, and anticonvulsants.[3]

Mechanism of Action

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Mechanism of Action

Naproxen blocks arachidonate binding to competitively inhibit both cyclooxygenase (COX) isoenzymes, COX-1 and COX-2, resulting in analgesic and anti-inflammatory effects. COX-1 and COX-2 are catalysts of arachidonic acid conversion to prostaglandin G (PGG), the first step of the synthesis of prostaglandins and thromboxanes involved in rapid physiological responses. COX-1 is constitutively expressed in most tissues, while COX-2 is only expressed in the brain, kidney, bones, reproductive organs, and select tumors such as colon and prostate cancers. COX-1 is responsible for prostaglandin synthesis in response to stimulation by circulating hormones and maintaining healthy renal function, gastric mucosal integrity, and hemostasis. COX-2 is inducible in many cells in response to specific mediators of inflammation (e.g., interleukin-1, tumor necrosis factor, lipopolysaccharide).

The anti-inflammatory mechanism of naproxen is due to decreased prostaglandin synthesis by inhibiting COX-1 and COX-2. The majority of anti-inflammation that Naproxen induces is mostly due to inhibition of the COX-2 isoenzyme; though, it should be noted that COX-1 is also expressed at distinct inflammatory sites. Further, COX-1 is also expressed in the joints of patients with rheumatoid arthritis or osteoarthritis, especially in the synovial lining. Therefore, although Naproxen targets both COX-1 and COX2, it is slightly more selective for the former. Additionally, naproxen is most effective in the setting of pain receptor sensitivity. It appears prostaglandins, specifically prostaglandins E and F, are responsible for sensitizing these pain receptors; therefore, naproxen has an additional, indirect analgesic effect by inhibiting further prostaglandin production.[4]

The liver extensively metabolizes naproxen, and about 95% of the drug is excreted in the urine. Naproxen also has a half-life of 12 to 17 hours.

Administration

Naproxen can be administered orally, in both immediate and extended-release tablets or suspension forms, or topically. Naproxen may be taken orally with food, milk, antacids (preferably aluminum and magnesium hydroxide-containing antacids), proton pump inhibitors (PPI), or misoprostol to decrease the incidence of GI adverse effects.[5] Naproxen sodium is the most readily available form, and it has demonstrated a faster absorption compared to naproxen.

As a rule, treatment with naproxen, as well as all NSAIDs, begins with the lowest effective dose for the shortest possible duration. Also, consider starting with a lower dose in geriatric patients due to the likelihood that the patient has comorbidities such as cardiovascular disease, chronic kidney disease, or history of GI ulcer/bleeding that increase the risk of adverse effects from NSAID therapy.

Specific dosing recommendations and treatment durations:

Mild to Moderate Arthritis (osteoarthritis, rheumatoid arthritis, and ankylosing spondylitis)

  • 220 to 550 mg PO every 12 hours
  • Take with food if GI upset occurs
  • Max: 1650 mg daily for up to 6 months

Acute Gouty Arthritis

  • 825 mg PO once, followed by 275 mg PO every 8 hours until symptom resolution
  • Take with food if GI upset occurs

Acute Severe Headache or Migraine

  • Controversial concerning isolated naproxen sodium use in patients suffering from acute migraines.
  • Naproxen sodium has a longer half-life compared to other NSAID options, but headache relief rates at 2 hours after initial treatment are lower than ibuprofen.[6][7]
  • Naproxen sodium dosing recommendations: 550 mg every 12 hours; can increase the dosage to 825mg PO if needed; do not exceed the max of 1375 mg daily.

Maximum Recommended Daily Doses for Children

  • 12 years and older - 20 mg/kg/day by mouth, not to exceed 1000 mg/day by mouth; for non-prescription use, 660 mg/day by mouth
  • 2 to 12 years - 20 mg/kg/day by mouth, not to exceed 1000 mg/day by mouth. Non-prescription use is not recommended
  • Less than 2 years - Safety and efficacy remain not established

Patients with Hepatic Impairment Dosing

  • Although specific guidelines are not available, caution is advised with respect to dosing; utilize the lowest recommended dosing regimen initially.

Patients with Renal Impairment Dosing

  • If creatinine clearance (CrCl) is greater than or equal to 30 mL/minute, no dosage adjustment is needed.
  • Naproxen is not recommended for patients with CrCl less than 30 mL/min.

Adverse Effects

Primary adverse effects for naproxen include dyspepsia, nausea, dizziness, elevated liver enzymes, increased blood pressure, diminished renal function, rash, increased bleeding risk, and GI ulcers. Serious but rare adverse effects include blood dyscrasias, Stevens-Johnson syndrome, myocardial infarction, stroke, heart failure, and anaphylaxis. The following are several mechanisms of the above adverse effects:

GI Effects: COX-1 and COX-2 inhibition lead to decreased prostaglandin synthesis in the gastric mucosa. The prostaglandins maintain mucosal integrity, therefore decreased synthesis causes reduced protection to the tissue. However, studies indicate COX-1 has a more significant effect on the integrity of the mucosa; consequently, selective COX-2 inhibitors such as Celecoxib do not have as much of an effect on gastric tissue.[8][9]

Renal Effects: Prostaglandins produced by both COX-1 and COX-2 are important regulators of renal function, hemodynamics, and sodium and water reabsorption in the kidneys. When renal blood flow is dependent upon prostaglandin synthesis, NSAID administration can significantly decrease renal blood flow, leading to acute kidney injury and renal failure. Also, alterations in sodium and water reabsorption may increase blood pressure, especially in patients with pre-existing hypertension.

Platelet Effects: Platelet aggregation inhibition with naproxen is due to the dose-dependent inhibition of COX-1 in platelets. This action leads to decreased levels of platelet thromboxane A2 and an increase in bleeding time. This inhibition is reversible upon discontinuation of naproxen. Despite the known inhibition of platelet function, studies examining an increase in clinical bleeding time have shown mixed results.[10]

Contraindications

Absolute

  • Documented hypersensitivity to NSAID medications
  • ASA or NSAID-induced asthma
  • Pregnancy (caution against use in 1st trimester, absolute contraindication at 30 weeks gestation)
  • Perioperative use for coronary artery bypass graft surgery (CABG)

Relative Risk/Caution Against Using

  • Recent MI or history of heart disease
  • Hypertension
  • Congestive heart failure
  • Fluid retention/edema
  • Dehydration
  • History of GI adverse events (peptic ulcer disease, GERD)
  • Bleeding or coagulopathy conditions
  • Hepatic disease
  • Renal disease
  • Asthma
  • Sodium restrictions
  • Chronic alcohol use
  • Tobacco use
  • Elderly/geriatric patients
  • Females actively trying to conceive

Monitoring

Patients taking naproxen should receive monitoring for pain relief, significant changes in blood pressure, worsening kidney function, and GI symptoms such as gastroesophageal reflux disease (GERD), abdominal pain, or melena. For patients on chronic NSAID therapy, periodic monitoring with complete blood counts to assess for anemia and chemistry panels to evaluate kidney and liver function merit consideration.[11]

Toxicity

Naproxen overdose is common due to its OTC availability, but the overdose is usually mild in severity, and serious adverse effects from overdose are rare. There is no available antidote for naproxen overdose; however, monitoring vital signs and supportive care is recommended. The role of activated charcoal is uncertain due to time constraints and unclear benefits, and there is no role for hemodialysis due to naproxen's high degree of protein binding. However, ingestion of large amounts of Naproxen can lead to severe toxicity causing seizures and metabolic acidosis, which can potentially cause renal failure. Therefore, although hemodialysis is not generally recommended, it can correct acid-base disturbances and provide additional support to those with renal impairment in specific situations.[12]

Enhancing Healthcare Team Outcomes

Naproxen is readily available OTC and widely used for pain relief for many different types of patients. Some of these patients take medications or have medical comorbidities that place them at a significantly higher risk of serious adverse events. Yet, they are unaware of the risk and may think that naproxen's availability OTC means its use is safe for everyone. It is essential for all interprofessional healthcare team members who work in a primary care setting to routinely ask their patients whether they are taking OTC medications and educate them about the potential risks and benefits of NSAIDs, particularly related to their specific medical histories and conditions. It is also crucial for specialist healthcare providers to communicate with primary care providers, nurse practitioners, and pharmacists when starting medication or to treat a patient for a condition in which NSAID therapy is not advised or contraindicated. Providers should also educate their patients about their medical condition and how it affects their ability to take a widely available OTC medication. These interprofessional team activities will increase therapeutic effectiveness and help prevent unwanted adverse effects. [Level 5]

References


[1]

Ong CK, Lirk P, Tan CH, Seymour RA. An evidence-based update on nonsteroidal anti-inflammatory drugs. Clinical medicine & research. 2007 Mar:5(1):19-34     [PubMed PMID: 17456832]


[2]

Simon LS. Biologic effects of nonsteroidal anti-inflammatory drugs. Current opinion in rheumatology. 1997 May:9(3):178-82     [PubMed PMID: 9204251]

Level 3 (low-level) evidence

[3]

Armstrong C, American Academy of Neurology, American Headache Society. AAN/AHS update recommendations for migraine prevention in adults. American family physician. 2013 Apr 15:87(8):584-5     [PubMed PMID: 23668450]


[4]

Giménez M, Pujol J, Ali Z, López-Solà M, Contreras-Rodríguez O, Deus J, Ortiz H, Soriano-Mas C, Llorente-Onaindia J, Monfort J. Naproxen effects on brain response to painful pressure stimulation in patients with knee osteoarthritis: a double-blind, randomized, placebo-controlled, single-dose study. The Journal of rheumatology. 2014 Nov:41(11):2240-8. doi: 10.3899/jrheum.131367. Epub 2014 Oct 1     [PubMed PMID: 25274897]

Level 1 (high-level) evidence

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Gargallo CJ, Sostres C, Lanas A. Prevention and Treatment of NSAID Gastropathy. Current treatment options in gastroenterology. 2014 Dec:12(4):398-413. doi: 10.1007/s11938-014-0029-4. Epub     [PubMed PMID: 25209136]


[6]

Suthisisang CC, Poolsup N, Suksomboon N, Lertpipopmetha V, Tepwitukgid B. Meta-analysis of the efficacy and safety of naproxen sodium in the acute treatment of migraine. Headache. 2010 May:50(5):808-18. doi: 10.1111/j.1526-4610.2010.01635.x. Epub 2010 Mar 5     [PubMed PMID: 20236345]

Level 1 (high-level) evidence

[7]

Law S, Derry S, Moore RA. Naproxen with or without an antiemetic for acute migraine headaches in adults. The Cochrane database of systematic reviews. 2013 Oct 20:2013(10):CD009455. doi: 10.1002/14651858.CD009455.pub2. Epub 2013 Oct 20     [PubMed PMID: 24142263]

Level 1 (high-level) evidence

[8]

Pellicano R. Gastrointestinal damage by non-steroidal anti-inflammatory drugs: updated clinical considerations. Minerva gastroenterologica e dietologica. 2014 Dec:60(4):255-61     [PubMed PMID: 25384803]


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Gudis K, Sakamoto C. The role of cyclooxygenase in gastric mucosal protection. Digestive diseases and sciences. 2005 Oct:50 Suppl 1():S16-23     [PubMed PMID: 16184416]


[10]

Schafer AI. Effects of nonsteroidal anti-inflammatory therapy on platelets. The American journal of medicine. 1999 May 31:106(5B):25S-36S     [PubMed PMID: 10390125]


[11]

Wongrakpanich S, Wongrakpanich A, Melhado K, Rangaswami J. A Comprehensive Review of Non-Steroidal Anti-Inflammatory Drug Use in The Elderly. Aging and disease. 2018 Feb:9(1):143-150. doi: 10.14336/AD.2017.0306. Epub 2018 Feb 1     [PubMed PMID: 29392089]


[12]

Al-Abri SA, Anderson IB, Pedram F, Colby JM, Olson KR. Massive naproxen overdose with serial serum levels. Journal of medical toxicology : official journal of the American College of Medical Toxicology. 2015 Mar:11(1):102-5. doi: 10.1007/s13181-014-0396-1. Epub     [PubMed PMID: 24756481]

Level 3 (low-level) evidence