Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011570 (depression)
 172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The selective serotonin reuptake inhibitors (SSRIs) have become the most prescribed antidepressants in many countries. Although the SSRIs share a common mechanism of action, they differ substantially in their chemical structure, metabolism, and pharmacokinetics. Perhaps the most important difference between the SSRIs is their potential to cause drug-drug interactions through inhibition of cytochrome-P450 (CYP) isoforms. This paper provides an update on both the in vitro and in vivo evidence with respect to CYP-mediated drug-drug interactions with this class of antidepressants. The available evidence clearly indicates that the individual SSRIs display a distinct profile of cytochrome P450 inhibition. Fluvoxamine is a potent CYP1A2 and CYP2C19 inhibitor, and a moderate CYP2C9, CYP2D6, and CYP3A4 inhibitor. Fluoxetine and paroxetine are potent CYP2D6 inhibitors, whereas fluoxetine's main metabolite, norfluoxetine, has a moderate inhibitory effect on CYP3A4. Sertraline is a moderate CYP2D6 inhibitor; citalopram appears to have little effect on the major CYP isoforms. Fluoxetine deserves special attention as inhibitory effects on CYP-activity can persist for several weeks after fluoxetine discontinuation because of the long half-life of fluoxetine and its metabolite norfluoxetine. Drug combinations with SSRIs should be assessed on an individual basis. Knowledge regarding the CYP-isoforms involved in the metabolism of the co-administered drug may help clinicians to anticipate and avoid potentially dangerous drug-drug interactions. Anticipated interactions can usually be managed by appropriate dose adjustment and titration of the object drug. In some cases, therapeutic drug monitoring can be useful. Equally well, an SSRI with limited interaction potential may be selected to treat depression in patients that receive other medications.
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PMID:Selective serotonin reuptake inhibitors and cytochrome P-450 mediated drug-drug interactions: an update. 1187 75

Citalopram is a chiral antidepressant drug. Its eutomer, S-citalopram (escitalopram), has recently been introduced as an antidepressant. In an open pilot study, four outpatients and two inpatients with a major depressive episode (ICD-10), and who were nonresponders to a 4-week pretreatment with 40-60 mg/day citalopram, were comedicated for another 4-week period with carbamazepine (200-400 mg/day). Some of the patients suffered also from comorbidities: Phobic anxiety disorder with panic attacks (n=2), generalised anxiety disorder, alcohol abuse, dependent personality disorder, hypertension (n=1). After a 4-week augmentation therapy with carbamazepine, a significant (P<0.03) decrease of the plasma concentrations of S-citalopram and R-citalopram, by 27 and 31%, respectively, was observed. Apparently, the probable induction of CYP3A4 by carbamazepine results in a nonstereoselective increase in N-demethylation of citalopram. Moreover, there was a significant (P<0.03) decrease of the ratio S/R-citalopram propionic acid derivative, the formation of it being partly regulated by MAO-A and MAO-B. Already, within 1 week after addition of carbamazepine, there was a slight but significant (P<0.03) decrease of the MADRS depression scores, from 27.0+/-7.7 (mean+/-S.D.) to 23.3+/-6.6, and the final score on day 56 was 18.8+/-10.9. The treatment was generally well tolerated. There was no evidence of occurrence of a serotonin syndrome. After augmentation with carbamazepine, treatment related adverse events were: Nausea in one case, diarrhea in one case, and rash in two cases. In conclusion, the results of this pilot study suggest that carbamazepine augmentation of a citalopram treatment in previous nonresponders to citalopram may be clinically useful, but that in addition carbamazepine can lead to a decrease of the plasma concentrations of the active enantiomer escitalopram.
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PMID:Carbamazepine augmentation in depressive patients non-responding to citalopram: a pharmacokinetic and clinical pilot study. 1200 77

Pharmacological treatment of depression in old age is associated with an increased risk of adverse pharmacokinetic and pharmacodynamic drug interactions. Elderly patients may have multiple disease states and, therefore, may require a variety of other drugs. In addition to polypharmacy, other factors such as age-related physiological changes, diseases, genetic constitution and diet may alter drug response and, therefore, predispose elderly patients to adverse effects and drug interactions. Antidepressant drugs currently available differ in their potential for drug interactions. In general, older compounds, such as tricyclic antidepressants (TCAs) and monoamine oxidase inhibitors (MAOIs), have a higher potential for interactions than newer compounds, such as selective serotonin reuptake inhibitors (SSRIs) and other relatively novel agents with a more specific mechanism of action. In particular, TCAs and MAOIs are associated with clinically significant pharmacodynamic interactions with many medications frequently prescribed to elderly patients. Moreover, TCAs may be susceptible to pharmacokinetic interactions when given in combination with inhibitors or inducers of the cytochrome P450 (CYP) isoenzymes involved in their metabolism. Because of a more selective mechanism of action, newer antidepressants have a low potential for pharmacodynamic drug interactions. However, the possibility of the serotonin syndrome should be taken into account when drugs affecting serotonergic transmission, such as SSRIs, venlafaxine or nefazodone, are coadministered with other serotonergic agents. Newer agents have a differential potential for pharmacokinetic interactions because of their selective effects on CYP isoenzymes. Within the group of SSRIs, fluoxetine and paroxetine are potent inhibitors of CYP2D6, while fluvoxamine predominantly affects CYP1A2 and CYP2C19 activity. Therefore, these agents should be closely monitored or avoided in elderly patients treated with substrates of these isoforms, especially those with a narrow therapeutic index. On the other hand, citalopram and sertraline have a low inhibitory activity on different drug metabolising enzymes and appear particularly suitable in an elderly population. Among other newer antidepressants, nefazodone is a potent inhibitor of CYP3A4 and its combination with substrates of this isoform should be avoided.
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PMID:Clinically significant drug interactions with antidepressants in the elderly. 1203 80

The effect of fluoxetine on the steady-state plasma concentrations of risperidone and its active metabolite 9-hydroxyrisperidone (9-OH-risperidone) was evaluated in 10 patients with schizophrenia or schizoaffective disorder. Patients stabilized on risperidone (4-6 mg/day) received additional fluoxetine (20 mg/day) to treat concomitant depression. One patient dropped out after 1 week due to the occurrence of akathisia associated with markedly increased plasma risperidone concentrations. In the other subjects, mean plasma concentrations of risperidone increased during fluoxetine administration from 12 +/- 9 ng/mL at baseline to 56 +/- 31 at week 4 (p < 0.001), while the levels of 9-OH-risperidone were not significantly affected. After 4 weeks of combined treatment, the levels of the active moiety (sum of the concentrations of risperidone and 9-OH-risperidone) increased by 75% (range, 9-204%, p < 0.01) compared with baseline. The mean plasma risperidone/9-OH-risperidone ratio also increased significantly. During the second week of adjunctive therapy, two patients developed Parkinsonian symptoms, which were controlled with anticholinergic medication. These findings indicate that fluoxetine, a potent inhibitor of the cytochrome P450 enzyme CYP2D6 and a less potent inhibitor of CYP3A4, reduces the clearance of risperidone by inhibiting its 9-hydroxylation or alternative metabolic pathways. This interaction may lead to toxic plasma risperidone concentrations. In addition to careful clinical observation, monitoring plasma risperidone levels may be of value in patients given adjunctive therapy with fluoxetine.
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PMID:Inhibition of risperidone metabolism by fluoxetine in patients with schizophrenia: a clinically relevant pharmacokinetic drug interaction. 1217 43

Tramadol (CAS 36282-47-0) plays an important role in the management of pain. With its dual mechanism of action (opioid agonist; weak noradrenaline and serotonin reuptake inhibitor) tramadol provides a kind of combined/adjuvant pain therapy. Besides its proven clinical efficacy tramadol is a safe drug as respiratory depression, cardiovascular side effects, drug abuse and dependence are of minor clinical relevance, unlike some other opioids. Following oral administration the bioavailability of tramadol is high (70-90%) and with new slow release preparations twice daily administration enables effective pain control. Tramadol is characterised by low plasma protein binding (20%) and quite extensive tissue distribution (apparent volume of distribution about 3 l/kg). Elimination is primarily by the hepatic route (metabolism by CYP2D6 to an active metabolite and by CYP3A4 and CYP2B6) and partly by the renal route (up to 30% of dose). Elimination half-lives of the active agents range between 4.5 and 9.5 h and total plasma clearance of tramadol is moderately high (600 ml/min). The interaction potential of tramadol is neglectable, as it does not affect the disposition of other drugs. It should be taken into account that inducers (e.g. carbamazepine) or inhibitors (e.g. quinidine for CY2D6) of drug metabolism might modify the elimination of tramadol. Likewise, if kidney (creatinine clearance below 30 ml/min) or hepatic function is severely impaired, some dosage reduction (approximately by 50%) or extension of the dosage interval should be considered. In conclusion, tramadol is an effective and safe analgesic with a very low interaction potential. Therefore it represents a drug of first choice if moderate to severe pain states have to be treated in pediatric, adult and elderly patients including those with poor cardiopulmonary function.
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PMID:Tramadol--the impact of its pharmacokinetic and pharmacodynamic properties on the clinical management of pain. 1465 Mar 59

(1) St John's wort has been widely used for centuries as a herbal remedy. Dozens of trials, of variable quality, have examined the therapeutic value of St John's wort. Published meta-analyses show that St John's wort extracts are more effective than placebo in patients with mild and moderate depression. (2) Trials show that St John's wort is about as effective as tricyclic and serotonin reuptake inhibitor antidepressants. (3) There is insufficient evidence to determine the efficacy of St John's wort in patients with more severe depression. (4) Few, mostly minor adverse effects have been reported, but there may be a small risk of serotonin syndrome and cutaneous photosensitisation. (5) Some components of St John's wort interfere with CYP3A4, one of the main cytochrome P450 isoenzymes. CYP3A4 is involved in the metabolism of many commonly used drugs. St John's wort reduces the efficacy of several drug groups including: immunosuppressants (risk of graft rejection), oral contraceptives (risk of pregnancy), oral anticoagulants (risk of thrombosis), and HIV protease inhibitors. It can also reduce the bioavailability of digoxin. (6) In practice, St John's wort is an inappropriate treatment for severe depression. It is, however, an acceptable option for short-term management of transient depressed mood when there is no risk of drug interactions and when the patient is properly informed of this risk. (7) In short, the risk-benefit balance of St John's wort is no better than that of standard antidepressants, mainly because of the risk of drug interactions.
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PMID:St John's wort and depression: slight efficacy at best, many drug interactions. 1549 2

Recently, interactions of herbal medicines with synthetic drugs came into focus of particular interest. In the past 3 years, more than 50 papers were published regarding interactions between St. John's wort (Hypericum perforatum L.; SJW) and prescription drugs. Co-medication with SJW resulted in decreased plasma concentrations of a number of drugs including amitriptyline, cyclosporine, digoxin, indinavir, irinotecan, warfarin, phenprocoumon, alprazolam, dextrometorphane, simvastatin, and oral contraceptives. Sufficient evidence from interaction studies and case reports indicate that SJW is a potent inducer of cytochrome P450 enzymes (particularly CYP3A4) and/or P-glycoprotein. Recent studies could show that the degree of enzyme induction by SJW correlates strongly with the amount of hyperforin found in the product. Products that do not contain substantial amounts of hyperforin (<1%) have not been shown to produce clinically relevant enzyme induction. On the other hand, some evidence suggests that hyperforin may also contribute to the antidepressant activity of SJW. However, clinical studies using SJW preparations with a low hyperforin amount (<1%) clearly demonstrated the superiority of this plant extract over placebo and its equivalence to imipramine and fluoxetine in the treatment of mild to moderate forms of depression. In the present paper clinical significant SJW interactions are critically evaluated against the background of hyperforin.
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PMID:Hyperforin in St. John's wort drug interactions. 1647 70

Based on a medicinal-chemistry-guided approach, three novel series of druglike cycloalkyl-annelated pyrazoles were synthesized and display high affinity (pKi>8) for the sigma1 receptor. Structure-affinity relationships were established, and the different scaffolds were optimized with respect to sigma1 binding and selectivity versus the sigma2 receptor and the hERG channel, resulting in selective compounds that have Ki values (for sigma1) in the subnanomolar range. Selected compounds were screened for cytochrome P450 inhibition (CYP1A2, CYP2A6, CYP2B6, CYP2C8, CYP2C9, CYP2C19, CYP2D6, CYP2E1, CYP3A4), metabolic stability (rat and human liver microsomes), and cell-membrane permeability (Caco-2). They showed favorable in vitro ADME properties as well as favorable calculated druglike and experimental physicochemical properties. Furthermore, compounds 7 f and 17 a, for example, displayed high selectivity (affinity) for the sigma1 receptor against a wide range of other receptors (>60). With these valuable tool compounds in hand, we are further exploring the role of the sigma1 receptor in relevant animal models corresponding to such medicinal indications as drug abuse, pain, depression, anxiety, and psychosis.
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PMID:A medicinal-chemistry-guided approach to selective and druglike sigma 1 ligands. 1689 45

Escitalopram is the (S)-enantiomer of the racemic selective serotonin reuptake inhibitor antidepressant citalopram. Clinical studies have shown that escitalopram is effective and well tolerated in the treatment of depression and anxiety disorders. Following oral administration, escitalopram is rapidly absorbed and reaches maximum plasma concentrations in approximately 3-4 hours after either single- or multiple-dose administration. The absorption of escitalopram is not affected by food. The elimination half-life of escitalopram is about 27-33 hours and is consistent with once-daily administration. Steady-state concentrations are achieved within 7-10 days of administration. Escitalopram has low protein binding (56%) and is not likely to cause interactions with highly protein-bound drugs. It is widely distributed throughout tissues, with an apparent volume of distribution during the terminal phase after oral administration (V(z)/F) of about 1100L. Unmetabolised escitalopram is the major compound in plasma. S-demethylcitalopram (S-DCT), the principal metabolite, is present at approximately one-third the level of escitalopram; however, S-DCT is a weak inhibitor of serotonin reuptake and does not contribute appreciably to the therapeutic activity of escitalopram. The didemethyl metabolite of escitalopram (S-DDCT) is typically present at or below quantifiable concentrations. Escitalopram and S-DCT exhibit linear and dose-proportional pharmacokinetics following single or multiple doses in the 10-30 mg/day dose range. Adolescents, elderly individuals and patients with hepatic impairment do not have clinically relevant differences in pharmacokinetics compared with healthy young adults, implying that adjustment of the dosage is not necessary in these patient groups. Escitalopram is metabolised by the cytochrome P450 (CYP) isoenzymes CYP2C19, CYP2D6 and CYP3A4. However, ritonavir, a potent inhibitor of CYP3A4, does not affect the pharmacokinetics of escitalopram. Coadministration of escitalopram 20mg following steady-state administration of cimetidine or omeprazole led to a 72% and 51% increase, respectively, in escitalopram exposure compared with administration alone. These changes were not considered clinically relevant. In vitro studies have shown that escitalopram has negligible inhibitory effects on CYP isoenzymes and P-glycoprotein, suggesting that escitalopram is unlikely to cause clinically significant drug-drug interactions. The favourable pharmacokinetic profile of escitalopram suggests clinical utility in a broad range of patients.
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PMID:The clinical pharmacokinetics of escitalopram. 1737 80

It is imperative that primary care clinicians have a thorough understanding of insomnia, because they are often the first point of contact for patients who seek assistance when they have difficulty sleeping. Insomnia may appear with different presentations: sleep onset, sleep maintenances, sleep offset, nonrestorative sleep, or a combination of these symptoms. Untreated symptoms result in clinically significant distress or impairment in social, occupational, or other important areas of following-day functionality. Physicians, pharmacists, and other clinicians should be aware of the conditions that contribute to, are antecedent to, and associated with insomnia. These pathophysiological conditions include advanced age; female gender; respiratory, gastrointestinal, vascular, and rheumatologic pain syndromes; and other conditions such as depression and/or anxiety. Additional health factors contributing to insomnia include chronic pain, stressors, grief reaction, pharmacotherapeutic side effects, lifestyle contributors such as social/recreational drugs, phytopharmaceuticals, and ethanol use. The pharmacotherapy focus in this article is a modified-release formulation of the BZ1 (omega1) receptor agonist zolpidem, zolpidem extended-release. Pharmacokinetic, pharmacodynamic, and safety studies that compare 12.5 mg zolpidem extended-release (Ambien CRtrade markCIV) and 10 mg original zolpidem were initially conducted in healthy volunteers to assess the potential for an improved clinical profile. Zolpidem extended-release (12.5 mg and 6.25 mg extended-release dosage forms) is indicated for the treatment of insomnia characterized by difficulties with sleep onset and/or sleep maintenance. Zolpidem extended-release is devoid of any short-term use limitation and can be prescribed for the duration of medical necessity. The modified-release zolpidem is a two-layer tablet with a biphasic release profile, releasing the first layer immediately, whereas the second layer is released at a slower rate. Plasma concentrations are maintained for a longer period of time versus the immediate-release zolpidem formulation. Pharmacokinetic analysis has also demonstrated that the time to maximum concentration (tmax) and terminal elimination half-life (t1/2) of 12.5 mg zolpidem extended-release are similar to those of 10 mg zolpidem indicating a similar rapid onset of action and an elimination profile that reduced the risk of next-day decrements in performance. Zolpidem's CYP 450 hepatic metabolism uses as a substrate CYP3A4 (major) and 1A2, 2C9, 2C19, and 2D6 as minor pathways. Zolpidem extended-release dosage forms diminish sleep latency, number of awakenings, and wakefulness after sleep onset and augments total time asleep.
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PMID:Zolpidem extended-release: a single insomnia treatment option for sleep induction and sleep maintenance symptoms. 1751 7


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