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Reducing CYP450 drug interactions caused by antidepressants

Most psychiatrists are aware that some antidepressants can cause clinically significant drug interactions, especially through the cytochrome P450 (CYP450) hepatic enzyme system. Antidepressants’ potential for drug interactions is especially important for patients who take >1 other medication, including cardiovascular agents.1

Unfortunately, drug interactions can be difficult to remember and are commonly missed. One strategy to help remember a list of antidepressants with a relatively low potential for CYP450 drug interactions is to use the mnemonic Various Medicines Definitely Commingle Very Easily (VMDCVE) to recall venlafaxine, mirtazapine, desvenlafaxine,2 citalopram, vilazodone,3 and escitalopram. The order in which these medications are listed does not indicate a preference for any of the 6 antidepressants. Bupropion and duloxetine are not included in this list because they are moderately potent inhibitors of the 2D6 isoenzyme.4,5

A few caveats

There are some important caveats in using this mnemonic:

  • None of these antidepressants is completely devoid of effects on the CYP450 system. However, compared with the antidepressants included in this mnemonic, fluoxetine, paroxetine, fluvoxamine, duloxetine, bupropion, and nefazodone are more likely to have clinically significant effects on CYP450.4,5
  • Although sertraline has a lower potential for CYP450-mediated drug interactions at low doses, it is not included in this mnemonic because it may have greater effects on 2D6 inhibition in some patients, especially at higher doses, such as ≥150 mg/d.5 Also, sertraline may significantly increase lamotrigine levels through a different mechanism: inhibition of uridine 5’-diphosphate glucuronosyltransferase 1A4.4
  • Antidepressants also may be the substrates for CYP450 drug interactions caused by other medications.
  • This mnemonic refers only to CYP450-mediated drug interactions. Antidepressants included in this mnemonic may have a high potential for drug interactions mediated by displacement from carrier proteins— eg, with digoxin or warfarin.
  • Pharmacodynamic drug interactions also are possible—eg, serotonin syndrome as a result of combining a selective serotonin reuptake inhibitor with another serotonergic medication.

To remain vigilant for drug-drug interactions, routinely use a drug interaction software, in addition to this mnemonic.

Disclosure

Dr. Mago receives grant/research, support from Bristol-Myers Squibb, Eli Lilly and Company, and NARSAD.

References

1. Williams S, Wynn G, Cozza K, et al. Cardiovascular medications. Psychosomatics. 2007;48(6):537-547.

2. Nichols AI, Tourian KA, Tse SY, et al. Desvenlafaxine for major depressive disorder: incremental clinical benefits from a second-generation serotonin-norepinephrine reuptake inhibitor. Expert Opin Drug Metab Toxicol. 2010;6(12):1565-1574.

3. Laughren TP, Gobburu J, Temple RJ, et al. Vilazodone: clinical basis for the US Food and Drug Administration’s approval of a new antidepressant. J Clin Psychiatry. 2011;72(9):1166-1173.

4. Sandson NB, Armstrong SC, Cozza KL. An overview of psychotropic drug-drug interactions. Psychosomatics. 2005;46(5):464-494.

5. Spina E, Santoro V, D’Arrigo C. Clinically relevant pharmacokinetic drug interactions with second-generation antidepressants: an update. Clin Ther. 2008;30(7):1206-1227.

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Rajnish Mago, MD
Associate Professor of Psychiatry and Human Behavior, and Director, Mood Disorders, Program, Thomas Jefferson, University, Philadelphia, PA

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Associate Professor of Psychiatry and Human Behavior, and Director, Mood Disorders, Program, Thomas Jefferson, University, Philadelphia, PA

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Associate Professor of Psychiatry and Human Behavior, and Director, Mood Disorders, Program, Thomas Jefferson, University, Philadelphia, PA

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Most psychiatrists are aware that some antidepressants can cause clinically significant drug interactions, especially through the cytochrome P450 (CYP450) hepatic enzyme system. Antidepressants’ potential for drug interactions is especially important for patients who take >1 other medication, including cardiovascular agents.1

Unfortunately, drug interactions can be difficult to remember and are commonly missed. One strategy to help remember a list of antidepressants with a relatively low potential for CYP450 drug interactions is to use the mnemonic Various Medicines Definitely Commingle Very Easily (VMDCVE) to recall venlafaxine, mirtazapine, desvenlafaxine,2 citalopram, vilazodone,3 and escitalopram. The order in which these medications are listed does not indicate a preference for any of the 6 antidepressants. Bupropion and duloxetine are not included in this list because they are moderately potent inhibitors of the 2D6 isoenzyme.4,5

A few caveats

There are some important caveats in using this mnemonic:

  • None of these antidepressants is completely devoid of effects on the CYP450 system. However, compared with the antidepressants included in this mnemonic, fluoxetine, paroxetine, fluvoxamine, duloxetine, bupropion, and nefazodone are more likely to have clinically significant effects on CYP450.4,5
  • Although sertraline has a lower potential for CYP450-mediated drug interactions at low doses, it is not included in this mnemonic because it may have greater effects on 2D6 inhibition in some patients, especially at higher doses, such as ≥150 mg/d.5 Also, sertraline may significantly increase lamotrigine levels through a different mechanism: inhibition of uridine 5’-diphosphate glucuronosyltransferase 1A4.4
  • Antidepressants also may be the substrates for CYP450 drug interactions caused by other medications.
  • This mnemonic refers only to CYP450-mediated drug interactions. Antidepressants included in this mnemonic may have a high potential for drug interactions mediated by displacement from carrier proteins— eg, with digoxin or warfarin.
  • Pharmacodynamic drug interactions also are possible—eg, serotonin syndrome as a result of combining a selective serotonin reuptake inhibitor with another serotonergic medication.

To remain vigilant for drug-drug interactions, routinely use a drug interaction software, in addition to this mnemonic.

Disclosure

Dr. Mago receives grant/research, support from Bristol-Myers Squibb, Eli Lilly and Company, and NARSAD.

Most psychiatrists are aware that some antidepressants can cause clinically significant drug interactions, especially through the cytochrome P450 (CYP450) hepatic enzyme system. Antidepressants’ potential for drug interactions is especially important for patients who take >1 other medication, including cardiovascular agents.1

Unfortunately, drug interactions can be difficult to remember and are commonly missed. One strategy to help remember a list of antidepressants with a relatively low potential for CYP450 drug interactions is to use the mnemonic Various Medicines Definitely Commingle Very Easily (VMDCVE) to recall venlafaxine, mirtazapine, desvenlafaxine,2 citalopram, vilazodone,3 and escitalopram. The order in which these medications are listed does not indicate a preference for any of the 6 antidepressants. Bupropion and duloxetine are not included in this list because they are moderately potent inhibitors of the 2D6 isoenzyme.4,5

A few caveats

There are some important caveats in using this mnemonic:

  • None of these antidepressants is completely devoid of effects on the CYP450 system. However, compared with the antidepressants included in this mnemonic, fluoxetine, paroxetine, fluvoxamine, duloxetine, bupropion, and nefazodone are more likely to have clinically significant effects on CYP450.4,5
  • Although sertraline has a lower potential for CYP450-mediated drug interactions at low doses, it is not included in this mnemonic because it may have greater effects on 2D6 inhibition in some patients, especially at higher doses, such as ≥150 mg/d.5 Also, sertraline may significantly increase lamotrigine levels through a different mechanism: inhibition of uridine 5’-diphosphate glucuronosyltransferase 1A4.4
  • Antidepressants also may be the substrates for CYP450 drug interactions caused by other medications.
  • This mnemonic refers only to CYP450-mediated drug interactions. Antidepressants included in this mnemonic may have a high potential for drug interactions mediated by displacement from carrier proteins— eg, with digoxin or warfarin.
  • Pharmacodynamic drug interactions also are possible—eg, serotonin syndrome as a result of combining a selective serotonin reuptake inhibitor with another serotonergic medication.

To remain vigilant for drug-drug interactions, routinely use a drug interaction software, in addition to this mnemonic.

Disclosure

Dr. Mago receives grant/research, support from Bristol-Myers Squibb, Eli Lilly and Company, and NARSAD.

References

1. Williams S, Wynn G, Cozza K, et al. Cardiovascular medications. Psychosomatics. 2007;48(6):537-547.

2. Nichols AI, Tourian KA, Tse SY, et al. Desvenlafaxine for major depressive disorder: incremental clinical benefits from a second-generation serotonin-norepinephrine reuptake inhibitor. Expert Opin Drug Metab Toxicol. 2010;6(12):1565-1574.

3. Laughren TP, Gobburu J, Temple RJ, et al. Vilazodone: clinical basis for the US Food and Drug Administration’s approval of a new antidepressant. J Clin Psychiatry. 2011;72(9):1166-1173.

4. Sandson NB, Armstrong SC, Cozza KL. An overview of psychotropic drug-drug interactions. Psychosomatics. 2005;46(5):464-494.

5. Spina E, Santoro V, D’Arrigo C. Clinically relevant pharmacokinetic drug interactions with second-generation antidepressants: an update. Clin Ther. 2008;30(7):1206-1227.

References

1. Williams S, Wynn G, Cozza K, et al. Cardiovascular medications. Psychosomatics. 2007;48(6):537-547.

2. Nichols AI, Tourian KA, Tse SY, et al. Desvenlafaxine for major depressive disorder: incremental clinical benefits from a second-generation serotonin-norepinephrine reuptake inhibitor. Expert Opin Drug Metab Toxicol. 2010;6(12):1565-1574.

3. Laughren TP, Gobburu J, Temple RJ, et al. Vilazodone: clinical basis for the US Food and Drug Administration’s approval of a new antidepressant. J Clin Psychiatry. 2011;72(9):1166-1173.

4. Sandson NB, Armstrong SC, Cozza KL. An overview of psychotropic drug-drug interactions. Psychosomatics. 2005;46(5):464-494.

5. Spina E, Santoro V, D’Arrigo C. Clinically relevant pharmacokinetic drug interactions with second-generation antidepressants: an update. Clin Ther. 2008;30(7):1206-1227.

Issue
Current Psychiatry - 11(09)
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Current Psychiatry - 11(09)
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55-55
Page Number
55-55
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Reducing CYP450 drug interactions caused by antidepressants
Display Headline
Reducing CYP450 drug interactions caused by antidepressants
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CYP450; cytochrome P450; antidepressants; drug interactions; venlafaxine; mirtazapine; desventlafaxine; citalopram; vilazodone; escitalopram
Legacy Keywords
CYP450; cytochrome P450; antidepressants; drug interactions; venlafaxine; mirtazapine; desventlafaxine; citalopram; vilazodone; escitalopram
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