Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-25T05:51:12.041Z Has data issue: false hasContentIssue false

A double-blind comparison of tianeptine, imipramine and placebo in the treatment of major depressive episodes

Published online by Cambridge University Press:  16 April 2020

GB Cassano
Affiliation:
Institute of Psychiatry, University of Pisa, via Roma 67,1-56100 Pisa, Italy
G Heinze
Affiliation:
Instituto Mexicano de Psiquiatria, Call Mexico-Xochimilco no 101, San Lorenzo Huipulco Delegacion Tlapan, 14370Mexico City, Mexico
H Lôo
Affiliation:
SHU, Hôpital Sainte-Anne, 1 rue Cabanis, 75014Paris, France
J Mendlewicz
Affiliation:
Sleep Laboratory, Department of Psychiatry, University Clinics of Brussels, Erasme Hospital, Route de Lennik 808, 1070Brussels, Belgium
M Paes de Sousa
Affiliation:
Department of Psychiatry, Hospital de Santa Maria, Av Egas Moniz, 1600 Lisbon, Portugal
Get access

Summary

In the course of the international development of tianeptine (T), depressed patients were recruited by 18 centres from Belgium, Italy, Mexico, Portugal, Spain and Switzerland in a double-blind parallel group study versus placebo (P) and imipramine (I). Efficacy and safety of tianeptine were evaluated in 187 depressed inpatients (56% female, 44% male), who fulfilled criteria for either major depression, single episode (24.6%) or recurrent (66.8%), or depressed bipolar disorder (8.6%). After a seven-day run-in placebo pre-inclusion period, patients were treated in double-blind conditions with tianeptine (37.5 mg/d) or imipramine (150 mg/d) or placebo for 14 days, including an increasing daily dose period of three days. After the fourteenth day and until the end of the sixth week of treatment, a flexible dosage was introduced in accordance with the therapeutic efficacy and/or the potential adverse events (T: 25–50 mg/d; I: 100–200 mg/d; P; 2–4 capsules). Discontinuation of treatment occurred in 57 patients (30.5%) with more inefficacy on placebo and tianeptine (P: 16/23; T: 11/17; I: 7/17), and more side-effects on imipramine (P: 1/23; T: 1/17; I: 7/17). Final MÅDRS scores in intention-to-treat analysis were 22.3 ± 1.5, 17.3 ± 1.6 and 18.4 ± 1.5 for placebo, tianeptine and imipramine, respectively. Statistical analysis demonstrated the antidepressive efficacy of tianeptine and imipramine versus placebo (P = 0.012 and P = 0.034, respectively), and no difference between tianeptine and imipramine. In patients treated for 42 days (n = 129) the MÅDRS scores dropped from 62.3% on tianeptine, 54.2% on imipramine and 48.5% on placebo. These results confirmed the efficacy of tianeptine (37.5 mg/d) in the treatment of major depression and depressed bipolar disorder when compared to placebo. No difference was found between tianeptine and imipramine (150 mg/d) for the efficacy and between tianeptine and placebo for all safety criteria. The following adverse events were significantly more frequent with imipramine than with tianeptine or placebo: dry mouth (P < 0.001), constipation (P = 0.007), and hot flushes (P = 0.011). No difference in adverse events was found between tianeptine and placebo. While the usual cardiovascular signs of tricyclic antidepressants were observed in the imipramine group, no difference between tianeptine and placebo was shown in respect to heart rate or blood pressure (supine or standing). The assessment of haematological, renal, metabolic and hepatic parameters confirmed the safety of tianeptine.

Type
Original article
Copyright
Copyright © Elsevier, Paris 1996

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

American Psychiatric Association Diagnostic and Statistical Manual of Mental Disorders DSM-III-R 3rd ed,revised. Washington: APA, 1987Google Scholar
Angst, JBech, PBoyer, P, et al. Consensus conference on the methodology of clinical trials of antidepressants: report of the Consensus Committee Zurich March 1989CrossRefGoogle Scholar
Bobon, DPLe système AMDP Bruxelles: Mardaga P, 1982Google Scholar
Chamba, GLemoine, PFlachaire, E, et al.Increased serotonin platelet uptake after tianeptine administration in depressed patients Biol Psychiatry 1991 30 609617CrossRefGoogle ScholarPubMed
Chapuy, PCuny, GDelomier, YGalley, PMichel, JPPareaud, MMarey, CLa dépression du sujet âgé, Intérêt de la tianeptine chez 140 patients traités pendant un an Presse Méd Paris 1991; 20: 18441852Google Scholar
Daniel, WWApplied Nonparametric Statistics Boston: Houghton Mifflin Company, 1978Google Scholar
Davis, JMAntidepressant drugs In: Kaplan, HISadock, BJ eds. Comprehensive Textbook of Psychiatry/IV Baltimore, London, Los Angeles, Sidney: Williams and Wilkins, 1985; 15131537Google Scholar
Department of Health and Human Services — Public Health Service Food and Drug Administration Memorandum from P Leber (Director of Division of Neuropharmacological Drug Products) to Clinical Reviewers and Supervisors - November 5, 1985Google Scholar
Derogatis, CRLipman, RSRickels, K, et al.The Hopkins Symptom Check-List (HSCL): a self-report symptom inventory Behav Sci 1974 19 115CrossRefGoogle Scholar
Gillings, DKoch, GThe application of the principle of intention-to-treat to the analysis of clinical trials Drug Inf J 1991; 25: 411424CrossRefGoogle Scholar
Guelfi, JDEfficacy of tianeptine in comparative trials versus reference antidepressants: an overview Br J Psychiatry 1992 160suppl 1 7275CrossRefGoogle Scholar
Guelfi, JDDreyfus, JFLavoisy, JA controlled study of viloxazine 300 mg sustained release capsules in depressed patients Drug Invest 1992; 4: 8388CrossRefGoogle Scholar
Guelfi, JDDulcire, CLe Moine, PTafani, AClinical safety and efficacy of tianeptine in 1858 depressed patients treated in general practice Neuropsychobiology 1992; 25: 140148CrossRefGoogle ScholarPubMed
Guelfi, JDPichot, PDreyfus, JFEfficacy of tianeptine in anxiousdepressed patients: results of a controlled multicenter trial versus amitriptyline Neuropsychobiology 1989; 22: 4148CrossRefGoogle ScholarPubMed
Guy, WECDEU (Early Clinical Drug Evaluation Unit) In: National Institute for Mental Health eds. Assessment Manual for Psychopharmacology Washington, DC: National Institute for Mental Health, 1976Google Scholar
Hamilton, MThe assessment of anxiety states by rating Br J Psychology 1959; 32: 5055CrossRefGoogle ScholarPubMed
Invernizzi, GAguglia, EBertolino, A, et al.The efficacy and safety of tianeptine in the treatment of depressive disorder: results of a controlled double-blind multicentre study vs amitriptyline Neuropsychobiology 1994 30 8593CrossRefGoogle ScholarPubMed
Kato, GWeitsch, AFNeurochemical profile of tianeptine a new antidepressant drug Clin Neuropharmacol 1988 11suppl 2 S43S50Google ScholarPubMed
Kelly, JPLeonard, BEThe effect of tianeptine on the olfactory bulbectomize (OB) rat model of depression Psychopharmacology 1990; 101:suppl S28Google Scholar
Labrid, CMocaër, EKamoun, ANeurochemical and pharmacological properties of tianeptine, a novel antidepressant Br J Psychiatry 1992 160suppl 15 5660CrossRefGoogle Scholar
Labrid, CMoleyre, JPoignant, JCMalen, CMocaër, EKamoun, AStructure-activity relationships of tricyclic antidepressants, with special reference to tianeptine Clin Neuropharmacol 1988 11suppl 2 S21S31Google ScholarPubMed
Lôo, HDavy, JPZarifian, ELes antidépresseursPsychiatrie Encycl Méd Chir 37860 B70 Paris: Elsevier, 1987; 127Google Scholar
Lôo, HGanry, HMarey, C, et al.Acceptabilité de la tianeptine chez 170 patients déprimés traités un an Encéphale 16 1990 445452Google Scholar
Lôo, HMalka, RDefrance, R, et al.Tianeptine and amitriptyline: controlled double-blind trial in depressed alcoholic patients Neuropsychobiology 1988 19 7985CrossRefGoogle ScholarPubMed
Mendlewicz, JThe social burden of depressive disorders Neuropsychobiology 1989; 22: 178180CrossRefGoogle ScholarPubMed
Mennini, TGarattini, SEffect of long-term treatment with antidepressants on 3H-serotonin uptake and 3H-imipramine binding in rat brain J Recept Res 1987; 7: 14Google Scholar
Mocaër, ERettori, MCKamoun, APharmacological antidepressive effects and tianeptine-induced 5-HT uptake increase Clin Neuropharmacol 1988 11suppl 2 S32S42Google ScholarPubMed
Montgomery, SAClinically relevant effect sizes in depression European Neuropsychopharmacology 1994 4 (special issue)CrossRefGoogle Scholar
Montgomery, SAAsberg, MA new depression scale designed to be sensitive to change Br J Psychiatry 1979; 134: 382389CrossRefGoogle ScholarPubMed
Olié, JPPoirier, AFLôo, HLes maladies dépressives Paris: Flammarion, 1995Google Scholar
Ostaptzeff, GEtude contrôlée à double-insu versus imipramine de l’efficacité de la tianeptine dans des états dépressifs non psychotiques Biol Psychiatry 1981; 5: 597600Google Scholar
Pocock, JSClinical Trials. A Practical Approach New York: Wiley and sons, 1983Google Scholar
Poignant, JCEtude pharmacologique d'un nouvel antidépresseur: la tianeptine Biological Psychiatry 1981; 5: 573578Google Scholar
Renaud, BMocaër, EWeitsch, AFKato, GMennini, TGarattini, SStimulation of serotonin uptake induced by a new antidepressant Pharmacopsychiatry 1988; 21: 66Google Scholar
The rules governing medicinal products in the European Community guidelines for antidepressant medicinal products January 1989Google Scholar
Thiébot, MHMartin, PPuech, AJAnimal behavioural studies in the evaluation of antidepressant drugs Br J Psychiatry 1992 160suppl 15 4450CrossRefGoogle Scholar
Weiss, CGorceix, AKindynis, SDimitriu, MEtude contrôlée à double-insu versus nomifensine de l’activité et du délai d’action d’un nouvel antidépresseur la tianeptine Biol Psychiatry 1981; 5: 593596Google Scholar
Whitton, PSSarna, GSCurzon, GEffects of tianeptine on stress-induced behavioural deficits and 5-HT dependent behaviour Psychopharmacology 1991 104 8185CrossRefGoogle ScholarPubMed
Winer, BJ2nd edition Statistical Principles in Experimental Design New York: McGraw-Hill, 1971Google Scholar
Submit a response

Comments

No Comments have been published for this article.