As a patient, it rarely is necessary to know the half-life of a drug you are taking. But it can help to understand what this term means and how it might affect you during the time you’re on the drug.

What Is Half-Life?

A medication’s biological half-life refers simply to how long it takes for half of the dose to be metabolized and eliminated from the bloodstream. Or, put another way, the half-life of a drug is the time it takes for it to be reduced by half. For example, the half-life of ibuprofen (the active ingredient in pain and fever relievers such as Advil and Motrin) is about two hours. This means if you take a dose of 400 milligrams (mg) of ibuprofen at noon, half of the dose (200 mg) will have been eliminated from your bloodstream by 2 p.m. By 4 p.m., another 100 mg will have been eliminated, and so forth. It’s important to note that the expected half-life of a drug varies from person to person, depending on factors such as age, weight, genetics, and even specific health issues. For example, the half-life of acetaminophen (the active ingredient in Tylenol), can be significantly affected by a person’s liver function, since acetaminophen is primarily processed through the liver.

Achieving a Steady State

The goal of any medication that will need to be taken on an ongoing basis, such as an antidepressant, is to get it to a “steady state”—in other words, to the point at which the amount that goes into the body is equal to the amount that’s eliminated. No matter what the half-life of a medication is, it takes about four times that amount of time for the concentration of the drug to reach a steady state in the body. This means that if you begin taking a medication with a half-life of 24 hours, after four days, or on the fifth day, the rate of intake of the drug will approximately equal the rate of elimination. If the half-life is 12 hours, you’ll reach a steady state at the beginning of the third day (after 48 hours).

Why Half-Life Matters

Drugs with a longer half-life take longer to work. But on the positive side, they take less time to leave your bloodstream. Those with a short half-life become effective more quickly, but are harder to come off of. In fact, drugs with very short half-lives can lead to dependency if taken over a long period of time. A drug’s half-life is an important factor when it’s time to stop taking it. Both the strength and duration of the medication will be considered, as will its half-life. This is important because you risk unpleasant withdrawal symptoms if you quit cold turkey. Medication side effects occur usually when the blood level of the drug is not in its steady state. That’s why it’s important to follow dosage and duration recommendations to the letter. Otherwise, the drug will be either toxic (more than intended), or not therapeutic (ineffective for treatment). One impact of half-life is found in the SSRI antidepressants. People taking SSRIs with short half-lives are much more likely to experience SSRI discontinuation syndrome. People taking an SSRI with a long half-life, such as Prozac, need to wait far longer between stopping them and starting a new antidepressant, such as a monoamine oxidase inhibitor (MAOI).