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Ibuprofen

Ibuprofen is a nonsteroidal anti-inflammatory drug (NSAID) widely marketed under various trademarks including Act-3, Advil, Brufen, Motrin, Nuprin, and Nurofen; a standing joke about some athletes' regular use has produced "Vitamin I" as a slang term for it. It is used for relief of symptoms of arthritis, primary dysmenorrhoea, and fever; and as an analgesic, especially where there is an inflammatory component. Ibuprofen was developed by the research arm of Boots Group. more...

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Clinical use

Low doses of ibuprofen (200 mg, and sometimes 400 mg) are available over the counter (OTC) in most countries. Ibuprofen has a dose-dependent duration of action of approximately 4–8 hours, which is longer than suggested by its short half-life. The recommended dose varies with body mass and indication. Generally, the oral dose is 200–400 mg (5–10 mg/kg in children) every 4–6 hours, up to a usual maximum daily dose of 800–1200 mg. Under medical direction, a maximum daily dose of 3200 mg may sometimes be used.

Indications

Approved clinical indications for ibuprofen include:

Rheumatoid arthritis (DMARDs should also be considered)
Osteoarthritis, ibuprofen can reduce pain and, if present, joint inflammation
Juvenile rheumatoid arthritis, alone or with corticosteroids
Morbus Bechterew (spondylitis ankylosans) together with corticosteroids
Rheumatic fever, together with antibiotic therapy
Acute gout attack, ibuprofen is not useful for chronic treatment
Primary dysmenorrhoea (ibuprofen proved superior to placebo and propoxyphen, and at least as effective as aspirin)
Fever
Pericarditis, chiefly after myocardial infarction, to reduce pain, fever and inflammation
Minor aches and pains such as toothache, backache, fever and pain associated with common flu, symptomatic relief of influenza, shingles, and postoperative pain
Sporting injuries and pain after mild to moderate trauma
Headache including mild to moderate migraine attack

Off-Label and investigational use

As with other NSAIDs, ibuprofen may be useful in the treatment of severe orthostatic hypotension (PMID 7041104)
In some studies, ibuprofen showed superior results compared to placebo in the prophylaxis of Alzheimer's disease, when given in low doses over a long time (PMID 16195368). Further studies are needed to confirm the results, before ibuprofen can be recommended for this indication.
Ibuprofen has been associated with a lower risk of Parkinson's disease, and may delay or prevent Parkinson's disease. Aspirin, other NSAIDs, and acetaminophen had no effect on the risk for Parkinson's (PMID 16240369). Further research is warranted before recommending ibuprofen for this use.

Ibuprofen lysine

In Europe and Australia, ibuprofen lysine (ibuprofenlysinat, the lysine salt of ibuprofen) is licensed for treatment of the same conditions as ibuprofen. Ibuprofen lysine is said to have a more rapid onset of action compared to base ibuprofen.

Mechanism of action

Ibuprofen is an NSAID which is believed to work through inhibition of cyclooxygenase (COX); thus inhibiting prostaglandin synthesis. As with other NSAIDs, ibuprofen inhibits platelet aggregation, but is not used therapeutically for this action since it is a minor and reversible effect.

Read more at Wikipedia.org

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A single dose of ibuprofen or acetaminophen: which is most effective?
From Pediatrics for Parents, 9/1/04 by David A. Perrott

Which do you think is more effective for relieving your child's pain or fever, acetaminophen (e.g., Tylenol) or ibuprofen (e.g., Advil)? Which is safer? Although these drugs are the most frequently used over-the-counter medications for treating children's pain and fever, it turns out that even the experts disagree.

We used a special statistical technique called "meta-analysis" to help resolve this disagreement. It involves mathematically combining the data from all available high quality studies addressing a particular research question, and then reanalyzing the data as though they were from one very large study conducted at different times and places. We can generally have greater confidence in findings from a meta-analysis than in those from any individual study because a meta-analysis is based on all of the best available evidence on a given topic, rather than on just the data gathered for one individual study.

We conducted meta-analyses to address the following three questions about ibuprofen and acetaminophen: (1) which works best for treating children's pain; (2) which works best for treating children's fever; and (3) which is safer?

The children participating in the studies we included in our meta-analyses were aged two to eighteen years, and were experiencing either fever or moderate-to-severe pain. Two very important characteristics of these studies were that the children were randomly assigned to receive a single dose of acetaminophen or ibuprofen, and that they did not know which drug they were receiving. The dosages of each drug were within the range that health professionals are allowed to prescribe, but varied from study to study. We were able to take this variation into account when analyzing the data.

Which Drug Is Better For Treating Pain?

Our meta-analysis of research comparing the effectiveness of ibuprofen versus acetaminophen for treating children's pain was based on 186 children from three studies. When pain was measured twp hours after taking whichever drug, and again after four hours, we found no evidence that a single dose of ibuprofen (4 to 10 mg/kg) was any better or worse than a single dose of acetaminophen (7 to 15 mg/kg). That is, it did not appear from these studies that a single dose of one drug was any better than the other for treating moderate-to-severe pain.

We regard this as a tentative conclusion, however, because it was only based on three small pain studies. Moreover, these studies only considered dental pain and sore throat pain. When more studies are conducted and published that compare ibuprofen and acetaminophen in the context of other common kinds of pain, such as headache, muscular aches, and cold and flu pain, we can incorporate them into a new meta-analysis and draw conclusions with greater confidence than the one we report here.

Which Is Better For Reducing Fever?

There has been more research comparing the two drugs for treating children's fever than there has for treating children's pain. Our meta-analysis of the fever research was based on 1,078 children from nine studies. We found that a single dose of ibuprofen (4 to 10 mg/kg) did a better job at reducing fever than a single dose of acetaminophen (10 to 15 mg/kg), when measured two, four and six hours after taking the drugs. We also found that the superiority of ibuprofen over acetaminophen for reducing fever was even more pronounced four and six hours after taking the drug, than it was two hours after. The important issue of when such control of fever is desirable is a separate question that was not addressed in this meta-analysis or in the primary studies.

Which Drug Is Safer For Single-Dose Use?

Our meta-analysis of studies examining the safety of ibuprofen versus acetaminophen was based on 1802 children from 17 studies. We examined safety in terms of negative side effects like nausea, sweating, or upset stomach that occurred during the observation period of each study. The most typical observation period in these studies was 48 hours, but it was as short as four hours in two studies and as long as 14 days in another. In nine of the studies, some children were given a placebo instead of one of the drugs. That is, they were given something that looked like one of the drugs, but was in fact more like a sugar pill with no drug-like properties. This allowed us to compare the safety of the drugs to a substance that did not have any active ingredients.

We found that negative side effects were quite rare overall following a single dose, and that there was no evidence that ibuprofen (4 to 10 mg/kg) or acetaminophen (7 to 15 mg/kg) differed from each other or from a "sugar pill" in safety.

The Bottom Line

Our meta-analyses of high quality studies directly comparing the safety and efficacy of ibuprofen versus acetaminophen for treating children's pain and fever lead to three general conclusions. Right now, the best available evidence we have doesn't support a preference for one drug over the other for treating children's pain; rather, ibuprofen (4-10 mg/kg) appears to be as effective as acetaminophen (7-15 mg/kg). For treating children's fever, however, a single 5-10 mg/kg dose of ibuprofen does a better job than a 10-15 mg/kg dose of acetaminophen. And the good news for both drugs is that the side effects from taking a single dose of either one were not any different from taking a "sugar pill."

Some Important Caveats

As you make decisions in consultation with your physician about which drug to use to treat your child's pain or fever, keep in mind that our research was only examining what happens when children take a single dose of either drug to treat fever or moderate-to-severe pain, rather than what happens when they take either drug for an extended period of time. We also did not review the evidence (which is very limited) on the efficacy and safety of the drugs for children younger than two years. Finally, bear in mind that our findings were based on particular dosages of the drugs (tailored to a child's weight and/or age). The effectiveness and safety of either drug depends partly on the dosage your child takes--and you should follow the advice of your family physician and/or pharmacist regarding that.

David Perrott earned his Ph.D. in Social Psychology from Northwestern University, of New South Wales, Sydney, Australia.

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