Fluoxetine interaction with other drugs

All SSRIs have common 5-HT agonistic effects and because of this, SSRIs have common interactions and side effects. SSRIs are potent inhibitors of serotonin reuptake by CNS neurons and may interact with other drugs such as monoamine oxidase inhibitors (MAOIs) or circumstances which cause serotonin release. A minimum 2 weeks wash-out period should be observed between stopping a MAOI and starting an SSRI. Conversely, a MAOI should not be started for at least 1 week after an SSRI has been stopped, 5 weeks after fluoxetine, and 2 weeks for paroxetine and sertraline. Escitalopram and citalopram are hypersensitive to each other. 

For most child psychiatrists, the drug interactions most frequently encountered are interactions with other psychotropics. Fluoxetine inhibits the CYP3A isozymes and thus increase the plasma concentration of the tria-zolobenzodiazepines (alprazolam, midazolam, and triazolam), causing increased psychomotor effects (Shader and Greenblatt, 1995). To avoid unwanted psychomotor effects, the dosage of alprazolam should be decreased when it is coadministered with fluoxetine (Chouinard et ah, 1999). Nefazadone has also been shown to increase the pharmacodynamic effects of triazolam and, to a lesser extent, alprazolam (Chouinard et ah, 1999). 

The selective serotonin reuptake inhibitors (SSRIs) are the first-line treatment of depression in the elderly. Compared with tricyciic antidepressants (TCAs), they are much safer in overdose and, for the most part, their side-effects are better tolerated. The antidepressants that have been shown, in controlled studies, to be effective in geriatric major depression are the SSRIs fluoxetine, paroxetine, and sertraline, the TCAs clomipramine and nortriptyline, and the serotonin and norepinephrine reuptake inhibitor (SNRi) venlafaxine. Given that most antidepressants are effective in the elderly, the choice of drug is based on its side-effect profile and its potential to interact with other medications. 

Also note that the development of the serotonin syndrome has been attributed to the sequential use of an SSRI (fluoxetine, paroxetine, or sertraline) and venlafaxine. It has also occurred with concurrent use of venlafaxine and mirtazapine or trazodone. The manufacturers of venlafaxine caution its use with other drugs that affect serotonergic transmission, such as the SSRIs because of the potential risks of the serotonin syndrome. For more about the serotonin syndrome see Additive or synergistic interactions , (p.9). 

Changing a patient from one MAOI to another, or to a TCA, requires a "wash-out" period of at least 2 weeks to avoid the possibility of a drug interaction. There is evidence to suggest that a combination of an MAOI with clomipramine is more likely to produce serious adverse effects than occurs with other TCAs. Regarding the newer non-tricyclic antidepressants, it is recommended that a "wash-out" period of at least 5 weeks be given before a patient on fluoxetine is given an MAOI this is due to the very long half-life of the main fluoxetine metabolite norfluoxetine. 

Like fluoxetine, erythromycin and other macrolides inhibit the CYP-3A isoenzyme and increase the levels and effects of the triazolobenzodiazepines (Shader and Greenblatt, 1995 Chouinard et ah, 1999). Midazolam should be avoided or the dosage dropped by 50% in patients receiving erythromycin (Olkkola et ah, 1993). Ketoconazole and itraconazole may also interact with triazolam and midazolam, and combinations of these drugs should be avoided (Varhe et ah, 1994 Chouinard et ah, 1999). 

A growing number of drugs are used that affect the many neurotransmitters in the brain benzodiazepines and others act on GABAergic transmission antidepressants, such as monoamine oxidase inhibitors and tricyclic antidepressants, are thought to increase the concentration of transmitter amines in the brain and so elevate mood—these will also act at peripheral nerve terminals, so interactions with them are a combination of peripheral and central actions. Levodopa (L-dopa) increases central as well as peripheral dopamine, and the newer class of psychoactive drugs, the selective serotonin reuptake inhibitors (SSRIs) of which the ubiquitous fluoxetine (Prozac) is best known, act in a similar way on serotonergic pathways. 

The most common interactions with SSRIs are pharmacokinetic interactions. For example, paroxetine and fluoxetine are potent CYP2D6 inhibitors (Table 30-4). Thus, administration with 2D6 substrates such as TCAs can lead to dramatic and sometimes unpredictable elevations in the tricyclic drug concentration. The result may be toxicity from the TCA. Similarly, fluvoxamine, a CYP3A4 inhibitor, may elevate the levels of concurrently administered substrates for this enzyme such as diltiazem and induce bradycardia or hypotension. Other SSRIs, such as citalopram and escitalopram, are relatively free of pharmacokinetic interactions. The most serious interaction with the SSRIs are pharmacodynamic interactions with MAOIs that produce a serotonin syndrome (see below). 

Other reports of psychotic reactions and a manic syndrome associated with amfebutamone have appeared (SEDA-16, 10) (SEDA-17, 21). In two of these cases a possible drug interaction with fluoxetine, with inhibition of the metabolism of amfebutamone, could not be excluded. 

The manufacturers of duloxetine contraindicate the concurrent use of MAOIs because of the theoretical risk of the serotonin syndrome. Similarly they recommend caution with other serotonergic drugs, including the SSRIs, venlafaxine, and tryptophan. Fluvoxamine should not be used with duloxetine, because it markedly increases duloxetine levels. Low-dose paroxetine caused a modest increase in the duloxetine ATJC, and fluoxetine is predicted to interact similarly. 

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