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Trazodone extended release for major depressive disorder

Extended-release (ER) trazodone—FDA-approved in February 2010—improves symptoms of major depressive disorder (MDD) and allows once-daily dosing (Table 1). Trazodone immediate release (IR) was developed in 1960 and approved by the FDA for treatment of MDD in December 1981. Trazodone IR is now mainly prescribed off-label as a hypnotic at lower-than-antidepressant doses, such as 50 to 100 mg/d at bedtime. The dose needed to achieve antidepressant effect is believed to be ≥300 mg/d. Use of the IR formulation for treating depression has been limited by the need for 3-times-a-day dosing and daytime sedation associated with peaks in serum concentration.

Table 1

Trazodone extended release: Fast facts

 

Brand name: Oleptro
Class: Triazolopyridine-derived antidepressant
Indication: Major depressive disorder
Approval date: February 2, 2010
Availability date: August 10, 2010
Manufacturer: Labopharm, Inc.
Dosage forms: 150 mg and 300 mg bisectable tablets
Starting dose: 150 mg at bedtime
Target dose: 300 mg/d; maximum dose 375 mg/d

Clinical implications

Trazodone ER was designed to eliminate the peaks and troughs in serum concentration seen with trazodone IR. It was hypothesized that by reducing the maximum concentration (Cmax) peaks, trazodone ER would permit higher doses to be better tolerated and help patients to more easily reach target antidepressant doses (≥300 mg/d). Trazodone ER’s once-daily dosing also may increase patient adherence.

How it works

The exact mechanism of action through which trazodone treats depression is not completely understood, but is likely related to enhancing serotonergic activity in the CNS. Trazodone is a triazolopyridine antidepressant, inhibits the serotonin transporter, and is a 5-HT2A and 5-HT2C antagonist. This is why it is sometimes referred as a serotonin antagonist/reuptake inhibitor, but regulatory agencies do not accept this class name. Trazodone is an antagonist at both histamine (H1) and α1-adrenergic receptors, which may mediate trazodone’s sedating properties (H1) and hypotensive (α1-adrenergic) effects.

The ER formulation employs a cross-linked, high-amylose starch excipient that provides controlled release of trazodone over an extended period.

Pharmacokinetics

Trazodone ER has linear pharmacokinetics in doses from 75 to 375 mg. Trazodone ER, 300 mg/d, provides a steady-state exposure equivalent to 100 mg of trazodone IR given 3 times daily, while having a lower Cmax. A high-fat meal can increase Cmax of trazodone ER by 1.9-fold. Trazodone is extensively biotransformed in the liver via the cytochrome P450 (CYP) 3A4 pathway and its metabolites are eliminated within 72 hours. Elimination is predominantly renal, with 70% to 75% of an oral dose being recovered in the urine within 72 hours.1 This formulation maintains its controlled-release properties if bisected.

Because trazodone is a substrate of the CYP3A4 enzyme, its metabolism can be inhibited by CYP3A4 inhibitors. Exercise caution when coadministering medications that cause CYP3A4 inhibition with trazodone ER. The effect of short-term administration of ritonavir (4 doses of 200 mg) on the pharmacokinetics of a single dose of trazodone (50 mg) has been studied in 10 healthy subjects.2 The Cmax of trazodone increased by 34%, area under the curve increased 2.4-fold, half-life increased by 2.2-fold, and clearance decreased by 52%. There is no difference in the half-life between the IR and ER formulations because the ER formulation influences only the release kinetics of the drug, not the half-life of the medication.

Efficacy

 

Efficacy of trazodone for MDD initially was established in trials conducted with trazodone IR.3-10 The efficacy of the ER formulation was established in a multi-center randomized, double-blind, placebo-controlled trial with 412 patients (age 18 to 80). Patients who met DSM-IV criteria for MDD were randomly assigned to trazodone ER (n=206) or placebo (n=206) for 8 weeks.11 This study showed a statistically significant difference between trazodone ER and placebo after 8 weeks of treatment on the primary outcome measure, which was a change in score on the 17-item Hamilton Depression Rating scale (HAMD-17). HAM-D-17 scores decreased 11.4 points in the trazodone ER group and 9.3 points in the placebo group (P=.012 in the modified intent to treat [ITT] population; P=.009 in the completer analysis). This difference was seen from week 1 and throughout the study. Efficacy of trazodone ER was further supported by statistically significant differences between the drug and placebo in 7 of 13 secondary efficacy endpoints in both the modified ITT and per protocol (PP) populations (HAM-D-17 mood item, mean Montgomery-Åsberg Depression Rating Scale [MADRS] total score, mean Clinical Global Impressions Severity of Illness [CGI-S] score, percentage of HAM-D-17 responders, and 3 quality of sleep items [overall quality of sleep, trouble falling asleep, and awakening during the night]). Overall effect sizes for the HAM-D-17 were -0.26 (modified ITT-last observation carried forward [LOCF] dataset) and -0.33 (PP/observed cases [OC] dataset). The effect sizes in MADRS scores were -0.22 and -0.29 for the modified ITT-LOCF and the PP/OC analyses, respectively.12

 

 

Sleep measures. In the study sample >90% of patients had insomnia at baseline (defined as a score ≥2 in any HAM-D-17 sleep item or sum of all 3 sleep items of ≥4). Patients receiving trazodone ER had significant improvement in all 3 HAM-D-17 sleep items. Subjects reported improvement in the overall quality of sleep and awakening during the night after the first week of treatment. Investigators found no significant interaction between improvements in core symptoms of depression and baseline MADRS reduced sleep item or early changes in the HAM-D-17 sleep items. This suggests that the antidepressant effect of trazodone ER was independent of severity of sleep difficulties at baseline and of improvement in insomnia during the study.12

Researchers observed improvement in suicidal ideation on MADRS (item 10) and HAM-D-17 (item 3) after 8 weeks of treatment (effect size -0.2 favoring trazodone ER over placebo).12

In 2 European comparative, randomized, double-blind trials, trazodone prolonged release showed similar antidepressant efficacy as paroxetine4 and setraline5 as measured by HAM-D, MADRS, and CGI-S. This prolonged release formulation made in Europe is not the same technology as the ER formulation recently approved by the FDA.

Tolerability

 

In the pivotal registration study, trazodone ER was well tolerated at a mean dose of 310 mg/d.11 Twenty-five patients (12.4%) in the trazodone ER group discontinued the drug because of side effects. The most common side effects leading to discontinuation in the active treatment group were dizziness (n=7), sedation (n=5), and somnolence (n=3).11 The most frequent adverse events reported at any study time point were headache (33%), somnolence (31%), dry mouth (25%), dizziness (25%), nausea (21%), sedation (17%), and fatigue (15%) (Table 2).11 In general, these adverse events were mild to moderate and short-lived; most side effects resolved within the first 2 to 3 weeks of treatment with trazodone ER.11

Sexual side effects—delayed ejaculation, delayed time to orgasm, or orgasmic blockade—are common with many anti-depressants. In the pivotal registration study, the incidence of sexual side effects was low (4.9% with trazodone ER vs 2.5% with placebo).11 This is much lower than the rates typically found with selective serotonin reuptake inhibitors and serotonin-norepinephrine reuptake inhibitors, which range from 17% to 41%.13,14 This benefit is thought to be mediated through 5-HT2A and 5-HT2C antagonism. Priapism has been reported in trazodone IR at rates ranging from 1 in 1,000 to 1 in 10,000 and does not appear to be dose-related.15 The rate of priapism in persons using agents for erectile dysfunction ranges from .05% to 6%.15 No case of priapism was seen in the trazodone ER study; however, with its sample size of 412 patients this study was not powered to adequately detect this adverse event.11

There was no significant weight gain difference between the active drug and placebo groups over 8 weeks of treatment.

Safety. Trazodone ER should not be used within 14 days of taking a monoamine oxidase inhibitor.1 Trazodone carries a pregnancy category C, meaning that it should be used only if the potential benefit justifies potential risk to the fetus. In animal studies, trazodone has been shown to cause increased fetal resorption and congenital anomalities with doses up to 50 times the maximum human dose (375 mg/d). Trazo-done may be secreted in breast milk. The drug is best avoided in patients with recent myocardial infarction.

Table 2

Trazodone extended release treatment-emergent adverse events*

 

 Trazodone ER (n=202)Placebo (n=204)
Headache67 (33%)55 (27%)
Somnolence63 (31%)32 (16%)
Dry mouth51 (25%)26 (13%)
Dizziness50 (25%)25 (12%)
Nausea42 (21%)26 (13%)
Sedation34 (17%)7 (3%)
Fatigue30 (15%)17 (8%)
Diarrhea19 (9%)23 (11%)
Constipation16 (8%)4 (2%)
Back pain11 (5%)7 (3%)
Blurred vision11 (5%)0 (0%)
*Reported by ≥5% of patients
Source: Reference 11

Dosing

 

The recommended starting dose is 150 mg/d at bedtime. The dose may be increased by 75 mg/d every 3 days, but the maximum dose should not exceed 375 mg/d.1 Trazodone ER is available in 150 mg or 300 mg bisectable tablets. Breaking the tablets in half does not affect the controlled release, but they should not be chewed or crushed.

Related Resource

 

Drug Brand Names

 

  • Paroxetine • Paxil
  • Ritonavir • Norvir
  • Sertraline • Zoloft
  • Trazodone • Desyrel
  • Trazodone extended-release • Oleptro

Disclosures

Dr. Hidalgo receives grant/research support from AstraZeneca, CeNeRx Biopharma, Centers for Disease Control and Prevention, Dainippon Sumitomo Pharma America, Inc., Eli Lilly and Company, Forest Laboratories, Indevus Pharmaceuticals, Janssen Pharmaceuticals, Labopharm, Otsuka, Pfizer, Inc., Repligen Corp., Sanofi-Synthelabo, Sepracor, and the University of South Florida, and is consultant to the MAPI Institute.

 

 

Dr. Sheehan has received grant funding support from, been affiliated with, or received honoraria and travel expenses related to lectures/presentations or consultant activities from the following organizations: Abbott Laboratories,1,2,3 Ad Hoc Committee, Treatment Drug and Assessment Research Review,1 Alexza,1 Alza Pharmaceuticals, Palo Alto, CA,1 the American Medical Association,2 American Psychiatric Association Task Force on Benzodiazepine Dependency,1 American Psychiatric Association Task Force on Treatments of Psychiatric Disorders,1 American Psychiatric Association Working Group to Revise DSM III Anxiety Disorders Section,1 Anclote Foundation,2 Anxiety Disorders Resource Center,1 Anxiety Drug Efficacy Case, the FDA,1 Applied Health Outcomes/Xcenda,1 AstraZeneca,1,2,3 Avera Pharmaceuticals,1,2 Boehringer Ingelheim,3 Boots Pharmaceuticals,3 Bristol-Myers Squibb,1,2,3 Burroughs Wellcome,2,3 Cephalon,1 Charter Hospitals,3 Ciba Geigy,3 Committee (RRC) of the National Institute for Mental Health on Anxiety and Phobic Disorder Projects,1 Connecticut and Ohio Academies of Family Physicians,1 Cortex Pharmaceutical,1 Council on Anxiety Disorders,1 CPC Coliseum Medical Center,1 Cypress Bioscience,1 Dista Products Company,3 Division of Drugs and Technology, American Medical Association,1 Eisai,1,2 Eli Lilly and Company,2,3 Excerpta Medica Asia,3 Faxmed, Inc.,1 Forest Laboratories,1,2 Glaxo Pharmaceuticals,3 GlaxoSmithKline,1,2,3 Glaxo-Wellcome,2 Hospital Corporation of America,3 Humana,3 ICI,3 INC Research,1 International Clinical Research (ICR),2 International Society for CNS Drug Development (ISCDD),1 Janssen Pharmaceuticals,1,2,3 Jazz Pharmaceuticals,1,2 Kali-Duphar,2,3 Labopharm,1 Layton Bioscience,1 Lilly Research Laboratories,1 Lundbeck, Denmark,1 Marion Merrell Dow,3 McNeil Pharmaceuticals,3 Mead Johnson,2,3 Medical Outcome Systems,4 MediciNova,1,2 Merck Sharp & Dohme,2,3 National Anxiety Awareness Program,1 National Anxiety Foundation,1 National Depressive and Manic Depressive Association,1 National Institute on Drug Abuse,2 National Institute of Health,2 Neuronetics,1 Novartis Pharmaceuticals Corp.,2 Novo Nordisk,3 Organon,1,3 Orion Pharma,1 Parexel International Corporation,1 Parke-Davis,2,3 Pfizer, Inc.,1,2,3 Pharmacia,1 Pharmacia and Upjohn,1,3 Philadelphia College of Pharmacy and Science,1 Pierre Fabre, France,1 Quintiles,2 Rhone Laboratories,3 Rhone-Poulenc Rorer Pharmaceuticals,3 Roche,1 Roerig,3 Sandoz Pharmaceuticals,2,3 sanofi-aventis,1,2,3 Sanofi-Synthelabo Recherche,1,2 Schering Corporation,3 Sepracor,1 Shire Laboratories, Inc.,1 SmithKline Beecham,1,2,3 Solvay Pharmaceuticals,1,3 Takeda Pharmaceuticals,1 Tampa General Hospital,1 University of South Florida Psychiatry Center,2 University of South Florida College of Medicine, TAP Pharmaceuticals,2,3 Targacept,1 Tampa General Hospital-University Psychiatry Center,3 Tikvah Therapeutics,1 Titan Pharmaceuticals,1 United Bioscience,2 The Upjohn Company,1,2,3 U.S. Congress-House of Representatives Committee,1 University of South Florida Friends of Research in Psychiatry, Board of Trustees,1 Warner Chilcott,2,3 World Health Organization,1 Worldwide Clinical Trials,2 Wyeth-Ayerst,1,2,3 ZARS,1 and Zeneca Pharmaceuticals.1

1: Consultant; 2: Grant/Research Support; 3: Lectures/ Presentations; 4: Stock Holder

References

 

1. Oleptro [package insert]. Dublin, Ireland: Labopharm Europe Limited; 2010.

2. Greenblatt DJ, von Moltke LL, Harmatz JS, et al. Short-term exposure to low-dose ritonavir impairs clearance and enhances adverse effects of trazodone. J Clin Pharmacol. 2003;43(4):414-422.

3. Beasley CM, Jr, Dornseif BE, Pultz JA, et al. Fluoxetine versus trazodone: efficacy and activating-sedating effects. J Clin Psychiatry. 1991;52:294-299.

4. Kasper S, Olivieri L, Di Loreto G, et al. A comparative, randomized double blind study of trazodone prolonged-release and paroxetine in the treatment of patients with major depressive disorder. Curr Med Res Opin. 2005;21:1139-1146.

5. Munizza C, Olivieri L, Di Loreto G, et al. A comparative, randomized double blind study of trazodone prolonged-release and sertraline in the treatment of patients with major depressive disorder. Curr Med Res Opin. 2006;22:1703-1713.

6. Cunningham LA, Borison RL, Carman JS, et al. A comparison of venlafaxine, trazodone, and placebo in major depression. J Clin Pyschopharmacol. 1994;14:99-106.

7. Weisler RH, Johnston JA, Lineberry CG, et al. Comparison of bupropion and trazodone in the treatment of major depression. J Clin Psychopharmacol. 1994;14:170-179.

8. Feighner JP. Trazodone, a triazolopyridine derivative, in primary depressive disorder. J Clin Psychiatry. 1980;41:250-255.

9. Rickels K, Case WG. Trazodone in depressed outpatients. Am J Psychiatry. 1982;139:803-806.

10. Perry PJ, Garvey MJ, Kelly MW, et al. A comparative trial of fluoxetine versus trazodone in outpatients with major depression. J Clin Psychiatry. 1989;50:290-294.

11. Sheehan DV, Croft HA, Gossen ER, et al. Extended-release trazodone in major depressive disorder: a randomized, double-blind, placebo-controlled study. Psychiatry (Edgmont). 2009;6(5):20-33.

12. Sheehan DV, Rozova A, Gossen ER, et al. The efficacy and tolerability of once-daily controlled-release trazodone for depressed mood, anxiety, insomnia, and suicidality in major depressive disorder. Psychopharmacol Bull. 2009;42(4):5-22.

13. Hu XH, Bull SA, Hunkeler EM, et al. Incidence and duration of side effects and those rated as bothersome with selective serotonin reuptake inhibitor treatment for depression: patient report versus physician estimate. J Clin Psychiatry. 2004;65(7):959-965.

14. Landén M, Högberg P, Thase ME. Incidence of sexual side effects in refractory depression during treatment with citalopram or paroxetine. J Clin Psychiatry. 2005;66(1):100-106.

15. Thompson JW, Jr, Ware MR, Blashfield RK. Psychotropic medications and priapism: a comprehensive review. J Clin Psychiatry. 1990;51:430-433.

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Rosario B. Hidalgo, MD
Dr. Hidalgo is Assistant Professor of Psychiatry, Depression and Anxiety Disorders Research Institute.
David V. Sheehan, MD, MBA
Dr. Sheehan is Director, Depression and Anxiety Disorders Research Institute and Distinguished University Health Professor, University of South Florida College of Medicine, Tampa, FL.

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Rosario B. Hidalgo, MD
Dr. Hidalgo is Assistant Professor of Psychiatry, Depression and Anxiety Disorders Research Institute.
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Extended-release (ER) trazodone—FDA-approved in February 2010—improves symptoms of major depressive disorder (MDD) and allows once-daily dosing (Table 1). Trazodone immediate release (IR) was developed in 1960 and approved by the FDA for treatment of MDD in December 1981. Trazodone IR is now mainly prescribed off-label as a hypnotic at lower-than-antidepressant doses, such as 50 to 100 mg/d at bedtime. The dose needed to achieve antidepressant effect is believed to be ≥300 mg/d. Use of the IR formulation for treating depression has been limited by the need for 3-times-a-day dosing and daytime sedation associated with peaks in serum concentration.

Table 1

Trazodone extended release: Fast facts

 

Brand name: Oleptro
Class: Triazolopyridine-derived antidepressant
Indication: Major depressive disorder
Approval date: February 2, 2010
Availability date: August 10, 2010
Manufacturer: Labopharm, Inc.
Dosage forms: 150 mg and 300 mg bisectable tablets
Starting dose: 150 mg at bedtime
Target dose: 300 mg/d; maximum dose 375 mg/d

Clinical implications

Trazodone ER was designed to eliminate the peaks and troughs in serum concentration seen with trazodone IR. It was hypothesized that by reducing the maximum concentration (Cmax) peaks, trazodone ER would permit higher doses to be better tolerated and help patients to more easily reach target antidepressant doses (≥300 mg/d). Trazodone ER’s once-daily dosing also may increase patient adherence.

How it works

The exact mechanism of action through which trazodone treats depression is not completely understood, but is likely related to enhancing serotonergic activity in the CNS. Trazodone is a triazolopyridine antidepressant, inhibits the serotonin transporter, and is a 5-HT2A and 5-HT2C antagonist. This is why it is sometimes referred as a serotonin antagonist/reuptake inhibitor, but regulatory agencies do not accept this class name. Trazodone is an antagonist at both histamine (H1) and α1-adrenergic receptors, which may mediate trazodone’s sedating properties (H1) and hypotensive (α1-adrenergic) effects.

The ER formulation employs a cross-linked, high-amylose starch excipient that provides controlled release of trazodone over an extended period.

Pharmacokinetics

Trazodone ER has linear pharmacokinetics in doses from 75 to 375 mg. Trazodone ER, 300 mg/d, provides a steady-state exposure equivalent to 100 mg of trazodone IR given 3 times daily, while having a lower Cmax. A high-fat meal can increase Cmax of trazodone ER by 1.9-fold. Trazodone is extensively biotransformed in the liver via the cytochrome P450 (CYP) 3A4 pathway and its metabolites are eliminated within 72 hours. Elimination is predominantly renal, with 70% to 75% of an oral dose being recovered in the urine within 72 hours.1 This formulation maintains its controlled-release properties if bisected.

Because trazodone is a substrate of the CYP3A4 enzyme, its metabolism can be inhibited by CYP3A4 inhibitors. Exercise caution when coadministering medications that cause CYP3A4 inhibition with trazodone ER. The effect of short-term administration of ritonavir (4 doses of 200 mg) on the pharmacokinetics of a single dose of trazodone (50 mg) has been studied in 10 healthy subjects.2 The Cmax of trazodone increased by 34%, area under the curve increased 2.4-fold, half-life increased by 2.2-fold, and clearance decreased by 52%. There is no difference in the half-life between the IR and ER formulations because the ER formulation influences only the release kinetics of the drug, not the half-life of the medication.

Efficacy

 

Efficacy of trazodone for MDD initially was established in trials conducted with trazodone IR.3-10 The efficacy of the ER formulation was established in a multi-center randomized, double-blind, placebo-controlled trial with 412 patients (age 18 to 80). Patients who met DSM-IV criteria for MDD were randomly assigned to trazodone ER (n=206) or placebo (n=206) for 8 weeks.11 This study showed a statistically significant difference between trazodone ER and placebo after 8 weeks of treatment on the primary outcome measure, which was a change in score on the 17-item Hamilton Depression Rating scale (HAMD-17). HAM-D-17 scores decreased 11.4 points in the trazodone ER group and 9.3 points in the placebo group (P=.012 in the modified intent to treat [ITT] population; P=.009 in the completer analysis). This difference was seen from week 1 and throughout the study. Efficacy of trazodone ER was further supported by statistically significant differences between the drug and placebo in 7 of 13 secondary efficacy endpoints in both the modified ITT and per protocol (PP) populations (HAM-D-17 mood item, mean Montgomery-Åsberg Depression Rating Scale [MADRS] total score, mean Clinical Global Impressions Severity of Illness [CGI-S] score, percentage of HAM-D-17 responders, and 3 quality of sleep items [overall quality of sleep, trouble falling asleep, and awakening during the night]). Overall effect sizes for the HAM-D-17 were -0.26 (modified ITT-last observation carried forward [LOCF] dataset) and -0.33 (PP/observed cases [OC] dataset). The effect sizes in MADRS scores were -0.22 and -0.29 for the modified ITT-LOCF and the PP/OC analyses, respectively.12

 

 

Sleep measures. In the study sample >90% of patients had insomnia at baseline (defined as a score ≥2 in any HAM-D-17 sleep item or sum of all 3 sleep items of ≥4). Patients receiving trazodone ER had significant improvement in all 3 HAM-D-17 sleep items. Subjects reported improvement in the overall quality of sleep and awakening during the night after the first week of treatment. Investigators found no significant interaction between improvements in core symptoms of depression and baseline MADRS reduced sleep item or early changes in the HAM-D-17 sleep items. This suggests that the antidepressant effect of trazodone ER was independent of severity of sleep difficulties at baseline and of improvement in insomnia during the study.12

Researchers observed improvement in suicidal ideation on MADRS (item 10) and HAM-D-17 (item 3) after 8 weeks of treatment (effect size -0.2 favoring trazodone ER over placebo).12

In 2 European comparative, randomized, double-blind trials, trazodone prolonged release showed similar antidepressant efficacy as paroxetine4 and setraline5 as measured by HAM-D, MADRS, and CGI-S. This prolonged release formulation made in Europe is not the same technology as the ER formulation recently approved by the FDA.

Tolerability

 

In the pivotal registration study, trazodone ER was well tolerated at a mean dose of 310 mg/d.11 Twenty-five patients (12.4%) in the trazodone ER group discontinued the drug because of side effects. The most common side effects leading to discontinuation in the active treatment group were dizziness (n=7), sedation (n=5), and somnolence (n=3).11 The most frequent adverse events reported at any study time point were headache (33%), somnolence (31%), dry mouth (25%), dizziness (25%), nausea (21%), sedation (17%), and fatigue (15%) (Table 2).11 In general, these adverse events were mild to moderate and short-lived; most side effects resolved within the first 2 to 3 weeks of treatment with trazodone ER.11

Sexual side effects—delayed ejaculation, delayed time to orgasm, or orgasmic blockade—are common with many anti-depressants. In the pivotal registration study, the incidence of sexual side effects was low (4.9% with trazodone ER vs 2.5% with placebo).11 This is much lower than the rates typically found with selective serotonin reuptake inhibitors and serotonin-norepinephrine reuptake inhibitors, which range from 17% to 41%.13,14 This benefit is thought to be mediated through 5-HT2A and 5-HT2C antagonism. Priapism has been reported in trazodone IR at rates ranging from 1 in 1,000 to 1 in 10,000 and does not appear to be dose-related.15 The rate of priapism in persons using agents for erectile dysfunction ranges from .05% to 6%.15 No case of priapism was seen in the trazodone ER study; however, with its sample size of 412 patients this study was not powered to adequately detect this adverse event.11

There was no significant weight gain difference between the active drug and placebo groups over 8 weeks of treatment.

Safety. Trazodone ER should not be used within 14 days of taking a monoamine oxidase inhibitor.1 Trazodone carries a pregnancy category C, meaning that it should be used only if the potential benefit justifies potential risk to the fetus. In animal studies, trazodone has been shown to cause increased fetal resorption and congenital anomalities with doses up to 50 times the maximum human dose (375 mg/d). Trazo-done may be secreted in breast milk. The drug is best avoided in patients with recent myocardial infarction.

Table 2

Trazodone extended release treatment-emergent adverse events*

 

 Trazodone ER (n=202)Placebo (n=204)
Headache67 (33%)55 (27%)
Somnolence63 (31%)32 (16%)
Dry mouth51 (25%)26 (13%)
Dizziness50 (25%)25 (12%)
Nausea42 (21%)26 (13%)
Sedation34 (17%)7 (3%)
Fatigue30 (15%)17 (8%)
Diarrhea19 (9%)23 (11%)
Constipation16 (8%)4 (2%)
Back pain11 (5%)7 (3%)
Blurred vision11 (5%)0 (0%)
*Reported by ≥5% of patients
Source: Reference 11

Dosing

 

The recommended starting dose is 150 mg/d at bedtime. The dose may be increased by 75 mg/d every 3 days, but the maximum dose should not exceed 375 mg/d.1 Trazodone ER is available in 150 mg or 300 mg bisectable tablets. Breaking the tablets in half does not affect the controlled release, but they should not be chewed or crushed.

Related Resource

 

Drug Brand Names

 

  • Paroxetine • Paxil
  • Ritonavir • Norvir
  • Sertraline • Zoloft
  • Trazodone • Desyrel
  • Trazodone extended-release • Oleptro

Disclosures

Dr. Hidalgo receives grant/research support from AstraZeneca, CeNeRx Biopharma, Centers for Disease Control and Prevention, Dainippon Sumitomo Pharma America, Inc., Eli Lilly and Company, Forest Laboratories, Indevus Pharmaceuticals, Janssen Pharmaceuticals, Labopharm, Otsuka, Pfizer, Inc., Repligen Corp., Sanofi-Synthelabo, Sepracor, and the University of South Florida, and is consultant to the MAPI Institute.

 

 

Dr. Sheehan has received grant funding support from, been affiliated with, or received honoraria and travel expenses related to lectures/presentations or consultant activities from the following organizations: Abbott Laboratories,1,2,3 Ad Hoc Committee, Treatment Drug and Assessment Research Review,1 Alexza,1 Alza Pharmaceuticals, Palo Alto, CA,1 the American Medical Association,2 American Psychiatric Association Task Force on Benzodiazepine Dependency,1 American Psychiatric Association Task Force on Treatments of Psychiatric Disorders,1 American Psychiatric Association Working Group to Revise DSM III Anxiety Disorders Section,1 Anclote Foundation,2 Anxiety Disorders Resource Center,1 Anxiety Drug Efficacy Case, the FDA,1 Applied Health Outcomes/Xcenda,1 AstraZeneca,1,2,3 Avera Pharmaceuticals,1,2 Boehringer Ingelheim,3 Boots Pharmaceuticals,3 Bristol-Myers Squibb,1,2,3 Burroughs Wellcome,2,3 Cephalon,1 Charter Hospitals,3 Ciba Geigy,3 Committee (RRC) of the National Institute for Mental Health on Anxiety and Phobic Disorder Projects,1 Connecticut and Ohio Academies of Family Physicians,1 Cortex Pharmaceutical,1 Council on Anxiety Disorders,1 CPC Coliseum Medical Center,1 Cypress Bioscience,1 Dista Products Company,3 Division of Drugs and Technology, American Medical Association,1 Eisai,1,2 Eli Lilly and Company,2,3 Excerpta Medica Asia,3 Faxmed, Inc.,1 Forest Laboratories,1,2 Glaxo Pharmaceuticals,3 GlaxoSmithKline,1,2,3 Glaxo-Wellcome,2 Hospital Corporation of America,3 Humana,3 ICI,3 INC Research,1 International Clinical Research (ICR),2 International Society for CNS Drug Development (ISCDD),1 Janssen Pharmaceuticals,1,2,3 Jazz Pharmaceuticals,1,2 Kali-Duphar,2,3 Labopharm,1 Layton Bioscience,1 Lilly Research Laboratories,1 Lundbeck, Denmark,1 Marion Merrell Dow,3 McNeil Pharmaceuticals,3 Mead Johnson,2,3 Medical Outcome Systems,4 MediciNova,1,2 Merck Sharp & Dohme,2,3 National Anxiety Awareness Program,1 National Anxiety Foundation,1 National Depressive and Manic Depressive Association,1 National Institute on Drug Abuse,2 National Institute of Health,2 Neuronetics,1 Novartis Pharmaceuticals Corp.,2 Novo Nordisk,3 Organon,1,3 Orion Pharma,1 Parexel International Corporation,1 Parke-Davis,2,3 Pfizer, Inc.,1,2,3 Pharmacia,1 Pharmacia and Upjohn,1,3 Philadelphia College of Pharmacy and Science,1 Pierre Fabre, France,1 Quintiles,2 Rhone Laboratories,3 Rhone-Poulenc Rorer Pharmaceuticals,3 Roche,1 Roerig,3 Sandoz Pharmaceuticals,2,3 sanofi-aventis,1,2,3 Sanofi-Synthelabo Recherche,1,2 Schering Corporation,3 Sepracor,1 Shire Laboratories, Inc.,1 SmithKline Beecham,1,2,3 Solvay Pharmaceuticals,1,3 Takeda Pharmaceuticals,1 Tampa General Hospital,1 University of South Florida Psychiatry Center,2 University of South Florida College of Medicine, TAP Pharmaceuticals,2,3 Targacept,1 Tampa General Hospital-University Psychiatry Center,3 Tikvah Therapeutics,1 Titan Pharmaceuticals,1 United Bioscience,2 The Upjohn Company,1,2,3 U.S. Congress-House of Representatives Committee,1 University of South Florida Friends of Research in Psychiatry, Board of Trustees,1 Warner Chilcott,2,3 World Health Organization,1 Worldwide Clinical Trials,2 Wyeth-Ayerst,1,2,3 ZARS,1 and Zeneca Pharmaceuticals.1

1: Consultant; 2: Grant/Research Support; 3: Lectures/ Presentations; 4: Stock Holder

Extended-release (ER) trazodone—FDA-approved in February 2010—improves symptoms of major depressive disorder (MDD) and allows once-daily dosing (Table 1). Trazodone immediate release (IR) was developed in 1960 and approved by the FDA for treatment of MDD in December 1981. Trazodone IR is now mainly prescribed off-label as a hypnotic at lower-than-antidepressant doses, such as 50 to 100 mg/d at bedtime. The dose needed to achieve antidepressant effect is believed to be ≥300 mg/d. Use of the IR formulation for treating depression has been limited by the need for 3-times-a-day dosing and daytime sedation associated with peaks in serum concentration.

Table 1

Trazodone extended release: Fast facts

 

Brand name: Oleptro
Class: Triazolopyridine-derived antidepressant
Indication: Major depressive disorder
Approval date: February 2, 2010
Availability date: August 10, 2010
Manufacturer: Labopharm, Inc.
Dosage forms: 150 mg and 300 mg bisectable tablets
Starting dose: 150 mg at bedtime
Target dose: 300 mg/d; maximum dose 375 mg/d

Clinical implications

Trazodone ER was designed to eliminate the peaks and troughs in serum concentration seen with trazodone IR. It was hypothesized that by reducing the maximum concentration (Cmax) peaks, trazodone ER would permit higher doses to be better tolerated and help patients to more easily reach target antidepressant doses (≥300 mg/d). Trazodone ER’s once-daily dosing also may increase patient adherence.

How it works

The exact mechanism of action through which trazodone treats depression is not completely understood, but is likely related to enhancing serotonergic activity in the CNS. Trazodone is a triazolopyridine antidepressant, inhibits the serotonin transporter, and is a 5-HT2A and 5-HT2C antagonist. This is why it is sometimes referred as a serotonin antagonist/reuptake inhibitor, but regulatory agencies do not accept this class name. Trazodone is an antagonist at both histamine (H1) and α1-adrenergic receptors, which may mediate trazodone’s sedating properties (H1) and hypotensive (α1-adrenergic) effects.

The ER formulation employs a cross-linked, high-amylose starch excipient that provides controlled release of trazodone over an extended period.

Pharmacokinetics

Trazodone ER has linear pharmacokinetics in doses from 75 to 375 mg. Trazodone ER, 300 mg/d, provides a steady-state exposure equivalent to 100 mg of trazodone IR given 3 times daily, while having a lower Cmax. A high-fat meal can increase Cmax of trazodone ER by 1.9-fold. Trazodone is extensively biotransformed in the liver via the cytochrome P450 (CYP) 3A4 pathway and its metabolites are eliminated within 72 hours. Elimination is predominantly renal, with 70% to 75% of an oral dose being recovered in the urine within 72 hours.1 This formulation maintains its controlled-release properties if bisected.

Because trazodone is a substrate of the CYP3A4 enzyme, its metabolism can be inhibited by CYP3A4 inhibitors. Exercise caution when coadministering medications that cause CYP3A4 inhibition with trazodone ER. The effect of short-term administration of ritonavir (4 doses of 200 mg) on the pharmacokinetics of a single dose of trazodone (50 mg) has been studied in 10 healthy subjects.2 The Cmax of trazodone increased by 34%, area under the curve increased 2.4-fold, half-life increased by 2.2-fold, and clearance decreased by 52%. There is no difference in the half-life between the IR and ER formulations because the ER formulation influences only the release kinetics of the drug, not the half-life of the medication.

Efficacy

 

Efficacy of trazodone for MDD initially was established in trials conducted with trazodone IR.3-10 The efficacy of the ER formulation was established in a multi-center randomized, double-blind, placebo-controlled trial with 412 patients (age 18 to 80). Patients who met DSM-IV criteria for MDD were randomly assigned to trazodone ER (n=206) or placebo (n=206) for 8 weeks.11 This study showed a statistically significant difference between trazodone ER and placebo after 8 weeks of treatment on the primary outcome measure, which was a change in score on the 17-item Hamilton Depression Rating scale (HAMD-17). HAM-D-17 scores decreased 11.4 points in the trazodone ER group and 9.3 points in the placebo group (P=.012 in the modified intent to treat [ITT] population; P=.009 in the completer analysis). This difference was seen from week 1 and throughout the study. Efficacy of trazodone ER was further supported by statistically significant differences between the drug and placebo in 7 of 13 secondary efficacy endpoints in both the modified ITT and per protocol (PP) populations (HAM-D-17 mood item, mean Montgomery-Åsberg Depression Rating Scale [MADRS] total score, mean Clinical Global Impressions Severity of Illness [CGI-S] score, percentage of HAM-D-17 responders, and 3 quality of sleep items [overall quality of sleep, trouble falling asleep, and awakening during the night]). Overall effect sizes for the HAM-D-17 were -0.26 (modified ITT-last observation carried forward [LOCF] dataset) and -0.33 (PP/observed cases [OC] dataset). The effect sizes in MADRS scores were -0.22 and -0.29 for the modified ITT-LOCF and the PP/OC analyses, respectively.12

 

 

Sleep measures. In the study sample >90% of patients had insomnia at baseline (defined as a score ≥2 in any HAM-D-17 sleep item or sum of all 3 sleep items of ≥4). Patients receiving trazodone ER had significant improvement in all 3 HAM-D-17 sleep items. Subjects reported improvement in the overall quality of sleep and awakening during the night after the first week of treatment. Investigators found no significant interaction between improvements in core symptoms of depression and baseline MADRS reduced sleep item or early changes in the HAM-D-17 sleep items. This suggests that the antidepressant effect of trazodone ER was independent of severity of sleep difficulties at baseline and of improvement in insomnia during the study.12

Researchers observed improvement in suicidal ideation on MADRS (item 10) and HAM-D-17 (item 3) after 8 weeks of treatment (effect size -0.2 favoring trazodone ER over placebo).12

In 2 European comparative, randomized, double-blind trials, trazodone prolonged release showed similar antidepressant efficacy as paroxetine4 and setraline5 as measured by HAM-D, MADRS, and CGI-S. This prolonged release formulation made in Europe is not the same technology as the ER formulation recently approved by the FDA.

Tolerability

 

In the pivotal registration study, trazodone ER was well tolerated at a mean dose of 310 mg/d.11 Twenty-five patients (12.4%) in the trazodone ER group discontinued the drug because of side effects. The most common side effects leading to discontinuation in the active treatment group were dizziness (n=7), sedation (n=5), and somnolence (n=3).11 The most frequent adverse events reported at any study time point were headache (33%), somnolence (31%), dry mouth (25%), dizziness (25%), nausea (21%), sedation (17%), and fatigue (15%) (Table 2).11 In general, these adverse events were mild to moderate and short-lived; most side effects resolved within the first 2 to 3 weeks of treatment with trazodone ER.11

Sexual side effects—delayed ejaculation, delayed time to orgasm, or orgasmic blockade—are common with many anti-depressants. In the pivotal registration study, the incidence of sexual side effects was low (4.9% with trazodone ER vs 2.5% with placebo).11 This is much lower than the rates typically found with selective serotonin reuptake inhibitors and serotonin-norepinephrine reuptake inhibitors, which range from 17% to 41%.13,14 This benefit is thought to be mediated through 5-HT2A and 5-HT2C antagonism. Priapism has been reported in trazodone IR at rates ranging from 1 in 1,000 to 1 in 10,000 and does not appear to be dose-related.15 The rate of priapism in persons using agents for erectile dysfunction ranges from .05% to 6%.15 No case of priapism was seen in the trazodone ER study; however, with its sample size of 412 patients this study was not powered to adequately detect this adverse event.11

There was no significant weight gain difference between the active drug and placebo groups over 8 weeks of treatment.

Safety. Trazodone ER should not be used within 14 days of taking a monoamine oxidase inhibitor.1 Trazodone carries a pregnancy category C, meaning that it should be used only if the potential benefit justifies potential risk to the fetus. In animal studies, trazodone has been shown to cause increased fetal resorption and congenital anomalities with doses up to 50 times the maximum human dose (375 mg/d). Trazo-done may be secreted in breast milk. The drug is best avoided in patients with recent myocardial infarction.

Table 2

Trazodone extended release treatment-emergent adverse events*

 

 Trazodone ER (n=202)Placebo (n=204)
Headache67 (33%)55 (27%)
Somnolence63 (31%)32 (16%)
Dry mouth51 (25%)26 (13%)
Dizziness50 (25%)25 (12%)
Nausea42 (21%)26 (13%)
Sedation34 (17%)7 (3%)
Fatigue30 (15%)17 (8%)
Diarrhea19 (9%)23 (11%)
Constipation16 (8%)4 (2%)
Back pain11 (5%)7 (3%)
Blurred vision11 (5%)0 (0%)
*Reported by ≥5% of patients
Source: Reference 11

Dosing

 

The recommended starting dose is 150 mg/d at bedtime. The dose may be increased by 75 mg/d every 3 days, but the maximum dose should not exceed 375 mg/d.1 Trazodone ER is available in 150 mg or 300 mg bisectable tablets. Breaking the tablets in half does not affect the controlled release, but they should not be chewed or crushed.

Related Resource

 

Drug Brand Names

 

  • Paroxetine • Paxil
  • Ritonavir • Norvir
  • Sertraline • Zoloft
  • Trazodone • Desyrel
  • Trazodone extended-release • Oleptro

Disclosures

Dr. Hidalgo receives grant/research support from AstraZeneca, CeNeRx Biopharma, Centers for Disease Control and Prevention, Dainippon Sumitomo Pharma America, Inc., Eli Lilly and Company, Forest Laboratories, Indevus Pharmaceuticals, Janssen Pharmaceuticals, Labopharm, Otsuka, Pfizer, Inc., Repligen Corp., Sanofi-Synthelabo, Sepracor, and the University of South Florida, and is consultant to the MAPI Institute.

 

 

Dr. Sheehan has received grant funding support from, been affiliated with, or received honoraria and travel expenses related to lectures/presentations or consultant activities from the following organizations: Abbott Laboratories,1,2,3 Ad Hoc Committee, Treatment Drug and Assessment Research Review,1 Alexza,1 Alza Pharmaceuticals, Palo Alto, CA,1 the American Medical Association,2 American Psychiatric Association Task Force on Benzodiazepine Dependency,1 American Psychiatric Association Task Force on Treatments of Psychiatric Disorders,1 American Psychiatric Association Working Group to Revise DSM III Anxiety Disorders Section,1 Anclote Foundation,2 Anxiety Disorders Resource Center,1 Anxiety Drug Efficacy Case, the FDA,1 Applied Health Outcomes/Xcenda,1 AstraZeneca,1,2,3 Avera Pharmaceuticals,1,2 Boehringer Ingelheim,3 Boots Pharmaceuticals,3 Bristol-Myers Squibb,1,2,3 Burroughs Wellcome,2,3 Cephalon,1 Charter Hospitals,3 Ciba Geigy,3 Committee (RRC) of the National Institute for Mental Health on Anxiety and Phobic Disorder Projects,1 Connecticut and Ohio Academies of Family Physicians,1 Cortex Pharmaceutical,1 Council on Anxiety Disorders,1 CPC Coliseum Medical Center,1 Cypress Bioscience,1 Dista Products Company,3 Division of Drugs and Technology, American Medical Association,1 Eisai,1,2 Eli Lilly and Company,2,3 Excerpta Medica Asia,3 Faxmed, Inc.,1 Forest Laboratories,1,2 Glaxo Pharmaceuticals,3 GlaxoSmithKline,1,2,3 Glaxo-Wellcome,2 Hospital Corporation of America,3 Humana,3 ICI,3 INC Research,1 International Clinical Research (ICR),2 International Society for CNS Drug Development (ISCDD),1 Janssen Pharmaceuticals,1,2,3 Jazz Pharmaceuticals,1,2 Kali-Duphar,2,3 Labopharm,1 Layton Bioscience,1 Lilly Research Laboratories,1 Lundbeck, Denmark,1 Marion Merrell Dow,3 McNeil Pharmaceuticals,3 Mead Johnson,2,3 Medical Outcome Systems,4 MediciNova,1,2 Merck Sharp & Dohme,2,3 National Anxiety Awareness Program,1 National Anxiety Foundation,1 National Depressive and Manic Depressive Association,1 National Institute on Drug Abuse,2 National Institute of Health,2 Neuronetics,1 Novartis Pharmaceuticals Corp.,2 Novo Nordisk,3 Organon,1,3 Orion Pharma,1 Parexel International Corporation,1 Parke-Davis,2,3 Pfizer, Inc.,1,2,3 Pharmacia,1 Pharmacia and Upjohn,1,3 Philadelphia College of Pharmacy and Science,1 Pierre Fabre, France,1 Quintiles,2 Rhone Laboratories,3 Rhone-Poulenc Rorer Pharmaceuticals,3 Roche,1 Roerig,3 Sandoz Pharmaceuticals,2,3 sanofi-aventis,1,2,3 Sanofi-Synthelabo Recherche,1,2 Schering Corporation,3 Sepracor,1 Shire Laboratories, Inc.,1 SmithKline Beecham,1,2,3 Solvay Pharmaceuticals,1,3 Takeda Pharmaceuticals,1 Tampa General Hospital,1 University of South Florida Psychiatry Center,2 University of South Florida College of Medicine, TAP Pharmaceuticals,2,3 Targacept,1 Tampa General Hospital-University Psychiatry Center,3 Tikvah Therapeutics,1 Titan Pharmaceuticals,1 United Bioscience,2 The Upjohn Company,1,2,3 U.S. Congress-House of Representatives Committee,1 University of South Florida Friends of Research in Psychiatry, Board of Trustees,1 Warner Chilcott,2,3 World Health Organization,1 Worldwide Clinical Trials,2 Wyeth-Ayerst,1,2,3 ZARS,1 and Zeneca Pharmaceuticals.1

1: Consultant; 2: Grant/Research Support; 3: Lectures/ Presentations; 4: Stock Holder

References

 

1. Oleptro [package insert]. Dublin, Ireland: Labopharm Europe Limited; 2010.

2. Greenblatt DJ, von Moltke LL, Harmatz JS, et al. Short-term exposure to low-dose ritonavir impairs clearance and enhances adverse effects of trazodone. J Clin Pharmacol. 2003;43(4):414-422.

3. Beasley CM, Jr, Dornseif BE, Pultz JA, et al. Fluoxetine versus trazodone: efficacy and activating-sedating effects. J Clin Psychiatry. 1991;52:294-299.

4. Kasper S, Olivieri L, Di Loreto G, et al. A comparative, randomized double blind study of trazodone prolonged-release and paroxetine in the treatment of patients with major depressive disorder. Curr Med Res Opin. 2005;21:1139-1146.

5. Munizza C, Olivieri L, Di Loreto G, et al. A comparative, randomized double blind study of trazodone prolonged-release and sertraline in the treatment of patients with major depressive disorder. Curr Med Res Opin. 2006;22:1703-1713.

6. Cunningham LA, Borison RL, Carman JS, et al. A comparison of venlafaxine, trazodone, and placebo in major depression. J Clin Pyschopharmacol. 1994;14:99-106.

7. Weisler RH, Johnston JA, Lineberry CG, et al. Comparison of bupropion and trazodone in the treatment of major depression. J Clin Psychopharmacol. 1994;14:170-179.

8. Feighner JP. Trazodone, a triazolopyridine derivative, in primary depressive disorder. J Clin Psychiatry. 1980;41:250-255.

9. Rickels K, Case WG. Trazodone in depressed outpatients. Am J Psychiatry. 1982;139:803-806.

10. Perry PJ, Garvey MJ, Kelly MW, et al. A comparative trial of fluoxetine versus trazodone in outpatients with major depression. J Clin Psychiatry. 1989;50:290-294.

11. Sheehan DV, Croft HA, Gossen ER, et al. Extended-release trazodone in major depressive disorder: a randomized, double-blind, placebo-controlled study. Psychiatry (Edgmont). 2009;6(5):20-33.

12. Sheehan DV, Rozova A, Gossen ER, et al. The efficacy and tolerability of once-daily controlled-release trazodone for depressed mood, anxiety, insomnia, and suicidality in major depressive disorder. Psychopharmacol Bull. 2009;42(4):5-22.

13. Hu XH, Bull SA, Hunkeler EM, et al. Incidence and duration of side effects and those rated as bothersome with selective serotonin reuptake inhibitor treatment for depression: patient report versus physician estimate. J Clin Psychiatry. 2004;65(7):959-965.

14. Landén M, Högberg P, Thase ME. Incidence of sexual side effects in refractory depression during treatment with citalopram or paroxetine. J Clin Psychiatry. 2005;66(1):100-106.

15. Thompson JW, Jr, Ware MR, Blashfield RK. Psychotropic medications and priapism: a comprehensive review. J Clin Psychiatry. 1990;51:430-433.

References

 

1. Oleptro [package insert]. Dublin, Ireland: Labopharm Europe Limited; 2010.

2. Greenblatt DJ, von Moltke LL, Harmatz JS, et al. Short-term exposure to low-dose ritonavir impairs clearance and enhances adverse effects of trazodone. J Clin Pharmacol. 2003;43(4):414-422.

3. Beasley CM, Jr, Dornseif BE, Pultz JA, et al. Fluoxetine versus trazodone: efficacy and activating-sedating effects. J Clin Psychiatry. 1991;52:294-299.

4. Kasper S, Olivieri L, Di Loreto G, et al. A comparative, randomized double blind study of trazodone prolonged-release and paroxetine in the treatment of patients with major depressive disorder. Curr Med Res Opin. 2005;21:1139-1146.

5. Munizza C, Olivieri L, Di Loreto G, et al. A comparative, randomized double blind study of trazodone prolonged-release and sertraline in the treatment of patients with major depressive disorder. Curr Med Res Opin. 2006;22:1703-1713.

6. Cunningham LA, Borison RL, Carman JS, et al. A comparison of venlafaxine, trazodone, and placebo in major depression. J Clin Pyschopharmacol. 1994;14:99-106.

7. Weisler RH, Johnston JA, Lineberry CG, et al. Comparison of bupropion and trazodone in the treatment of major depression. J Clin Psychopharmacol. 1994;14:170-179.

8. Feighner JP. Trazodone, a triazolopyridine derivative, in primary depressive disorder. J Clin Psychiatry. 1980;41:250-255.

9. Rickels K, Case WG. Trazodone in depressed outpatients. Am J Psychiatry. 1982;139:803-806.

10. Perry PJ, Garvey MJ, Kelly MW, et al. A comparative trial of fluoxetine versus trazodone in outpatients with major depression. J Clin Psychiatry. 1989;50:290-294.

11. Sheehan DV, Croft HA, Gossen ER, et al. Extended-release trazodone in major depressive disorder: a randomized, double-blind, placebo-controlled study. Psychiatry (Edgmont). 2009;6(5):20-33.

12. Sheehan DV, Rozova A, Gossen ER, et al. The efficacy and tolerability of once-daily controlled-release trazodone for depressed mood, anxiety, insomnia, and suicidality in major depressive disorder. Psychopharmacol Bull. 2009;42(4):5-22.

13. Hu XH, Bull SA, Hunkeler EM, et al. Incidence and duration of side effects and those rated as bothersome with selective serotonin reuptake inhibitor treatment for depression: patient report versus physician estimate. J Clin Psychiatry. 2004;65(7):959-965.

14. Landén M, Högberg P, Thase ME. Incidence of sexual side effects in refractory depression during treatment with citalopram or paroxetine. J Clin Psychiatry. 2005;66(1):100-106.

15. Thompson JW, Jr, Ware MR, Blashfield RK. Psychotropic medications and priapism: a comprehensive review. J Clin Psychiatry. 1990;51:430-433.

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