Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-25T10:11:26.803Z Has data issue: false hasContentIssue false

Adjunctive fast repetitive transcranial magnetic stimulation in depression

Published online by Cambridge University Press:  02 January 2018

Ian M. Anderson*
Affiliation:
Neuroscience and Psychiatry Unit, University of Manchester
Nicola A. Delvai
Affiliation:
Neuroscience and Psychiatry Unit, University of Manchester
Bettadapura Ashim
Affiliation:
Merseycare NHS Trust
Sindhu Ashim
Affiliation:
The Spinney, Partnerships in Care, Atherton, Manchester
Cherry Lewin
Affiliation:
Bolton, Salford & Trafford Mental Health NHS Trust, UK
Vineet Singh
Affiliation:
Bolton, Salford & Trafford Mental Health NHS Trust, UK
Daniel Sturman
Affiliation:
Bolton, Salford & Trafford Mental Health NHS Trust, UK
Paul L. Strickland
Affiliation:
Bolton, Salford & Trafford Mental Health NHS Trust, UK
*
Dr Ian Anderson, Neuroscience and Psychiatry Unit, Room G907, Stopford Building, Oxford Road, Manchester M13 9PT, UK. Tel: +44 (0) 161 275 7428; fax: +44 (0) 161 275 7429; email: [email protected]
Rights & Permissions [Opens in a new window]

Summary

The place of repetitive transcranial magnetic stimulation (rTMS) in the treatment of depression remains unclear. In this sham-controlled study we determined the efficacy and acceptability of fast, left frontal rTMS given three times a week over 4–6 weeks to 29 patients with depression (79% treatment-resistant). The procedure was generally well tolerated and more effective than sham treatment (55 v. 7% responding, P<0.05), with improvement maintained to 12 weeks. This therapy could be a useful addition to available treatments but further research is needed to determine the optimum treatment parameters.

Type
Short Report
Copyright
Copyright © Royal College of Psychiatrists, 2007 

Approximately a third of people treated for depression fail to respond to initial treatment and in 10–15% of cases the disorder is refractory to multiple treatments (Reference Anderson, Nutt and DeakinAnderson et al, 2000). The usefulness of repetitive transcranial magnetic stimulation (rTMS) is not clear because optimal treatment parameters are unknown and studies have been small, of short duration and have used different methods (Reference Loo and MitchellLoo & Mitchell, 2005). We investigated the antidepressant efficacy of rTMS in a clinically practical protocol in patients with depression.

METHOD

We recruited out-patients aged over 17 years with a DSM–IV major depressive episode (American Psychiatric Association, 1994), diagnosed using the Mini International Neuropsychiatric Interview (Reference Lecrubier, Sheehan and WeillerLecrubier et al, 1997), who were poorly responsive to – or choosing not to take – antidepressant drugs. Exclusion criteria were safety considerations (e.g. suicidality, contraindications to TMS), organic brain disorder, non-affective psychosis or current alcohol/drug misuse or dependence (by DSM–IV criteria). The study was approved by the local research ethics committee and all participants gave written informed consent.

After determination of motor threshold, patients were randomised (sealed envelope) to active or sham treatment stratified by degree of treatment resistance (fewer than two v. two or more antidepressant trials equivalent to imipramine 150 mg). Treatment was thrice weekly for 4 weeks, extended for 2 more weeks in partial responders. Medication at entry continued unchanged through the trial. Assessments were made before and 2, 4, 6 and 12 weeks after the start of treatment with patients and assessors unaware of treatment allocation. Assessments were the Mongomery–Åsberg Depression Rating Scale (MADRS; Reference Montgomery and ÅsbergMontgomery & Åsberg, 1979), the Clinical Global Impression Severity and Improvement scales (CGI–S, CGI–I; Reference GuyGuy, 1976), the Global Assessment of Functioning (GAF; American Psychiatric Association, 1994), and the self-rated Hospital Anxiety and Depression scale (HAD; Reference Zigmond and SnaithZigmond & Snaith, 1983). Adverse effects were determined by open questions and a checklist.

Treatment using a Magstim Super Rapid (Magstim, Whitland, UK) was given using a figure-of-eight and matching sham coil. After determination of the motor threshold (the minimum setting to stimulate the right first abductor pollicis brevis muscle), treatment sessions consisted of 1000 stimulations at 10 Hz in 20 trains each separated by 30 s at 110% of motor threshold over the left dorsolateral prefrontal cortex (5 cm anterior to the motor threshold point).

The primary outcome measures were MADRS score and HAD depression scores at treatment end-point given at least one post-baseline assessment (last observation carried forward; LOCF). Secondary outcome measures were other rating scale scores and responder status at treatment end-point (LOCF), scores at 12 weeks (LOCF and completers) and treatment withdrawal. Response was defined as a reduction of at least 50% in MADRS score plus a CGI–I rating of much or very much improved. Partial response at 4 weeks was defined as 25–49% reduction in MADRS score from baseline. Statistical analysis using SPSS for Windows, release 11.5, was by univariate analysis of variance covaried for baseline values. Fisher's exact test was used for categorical data and the exact proportion test for treatment allocation guesses.

RESULTS

Thirteen patients (7 women; mean age 48 years, s.d.=8) received active treatment and 16 (9 women; mean age 46 years, s.d.=12) received sham treatment. There was no significant difference between groups in median duration of episode (active 14 months, range 3–60; sham 12 months, range 2–144); median number of treatment trials (active 3, range 0–7; sham 3, range 0–12); treatment resistance (active 85%; sham 75%); electroconvulsive treatment in episode (active 31%; sham 38%); and chronic (≥2 years) episode (active 46%; sham 38%). All but 3 patients were taking antidepressants (active 92%; sham 88%); venlafaxine 34%; selective serotonin reuptake inhibitors 24%; tricyclic antidepressants 14%; combinations were most often with lithium (31%), an atypical antipsychotic (34%) or two antidepressants (17%). More patients in the active group were receiving venlafaxine (62 v. 13%; P<0.05), with a trend for the opposite for selective serotonin reuptake inhibitors (8 v. 38%, P<0.1).

Three patients in the active group partially responded at 4 weeks and received a further 2 weeks’ treatment. Twenty-five cases were evaluable for efficacy; at treatment end-point the active group improved more than the sham group on primary outcomes (MADRS effect size 0.86, HAD depression effect size 0.92), GAF and in number of responders (Table 1). At 12 weeks significant benefit to the active treatment group on self-rated HAD depression remained.

Table 1 Effect of repetitive transcranial magnetic stimulation on efficacy outcome measures

Sham treatment Active treatment
Baseline (n=14) Treatment end-point, LOCF (n=14) 12 weeks Baseline (n=11) Treatment end-point, LOCF (n=11) 12 weeks
LOCF (n=14) Completers (n=13) LOCF (n=11) Completers (n=9)
Scores: mean (s.d.)
    MADRS 27.7 (7.1) 23.4 (9.8) 21.9 (9.7) 21.5 (9.7) 26.7 (3.6) 15 (9.7)* 14.0 (11.5) 16.0 (11.9)
    CGI-S 4.1 (0.7) 4.0 (0.8) 3.7 (1.2) 3.7 (1.2) 3.7 (0.6) 3.0 (1.0) 3.0 (1.3) 3.0 (1.3)
    HAD Depression 15.1 (3.0) 14.2 (4.2) 13.6 (3.7) 13.2 (3.6) 14.6 (3.3) 9.7 (5.5)* 8.3 (5.6)** 9.4 (5.4)*
    HAD Anxiety 14.1 (5.1) 11.9 (5.2) 10.1 (4.9) 10.1 (5.1) 13.8 (4.0) 9.9 (4.9) 9.1 (5.1) 9.2 (4.9)
    GAF 53.1 (9.3) 55.8 (8.0) 58.1 (13.0) 58.8 (13.3) 54.1 (10.6) 67.2 (11.2)** 65.6 (13.8) 65.8 (14.6)
Responders: n (%) 1 (7) 1 (7) 1 (8) 6 (55)* 5 (45) 3 (33)

Two patients per group withdrew before completing 2 weeks of treatment (active: scalp pain, unrelated finger infection; sham: self-harm, treatment too stressful). Two patients in the active group received 100% (reduced from 110%) motor threshold stimulation owing to initial scalp discomfort, but overall the treatment was well tolerated. Three participants did not return for assessment at 12 weeks. One patient in the active group was mildly hypomanic at 4 weeks. Four days after his last treatment he had a series of epileptic seizures leading to hospitalisation, but a primary cause was not identified.

Of 25 participants, 19 (76%, P<0.05) guessed their correct treatment allocation; 3 gave a reason related to the treatment itself and 18 of 25 cited degree of improvement.

DISCUSSION

In this small study, fast left frontal rTMS given three times a week for 4–6 weeks was effective in mainly treatment-resistant depression and tolerability was generally good. Hypomania following rTMS has been reported before (Reference Dolberg, Schreiber and GrunhausDolberg et al, 2001), is consistent with rTMS having antidepressant properties and indicates the need to screen for bipolarity. Seizures have occasionally occurred during fast rTMS stimulation (Reference WassermannWassermann, 1998); however, delayed seizure provocation has not been described, is mechanistically implausible and rTMS causation in this case was thought very unlikely.

Meta-analyses of the clinical efficacy of rTMS for depression have been conflicting (e.g Reference Holtzheimer, Russo and AveryHoltzheimer et al, 2001; Reference CouturierCouturier, 2005). Variations in treatment methodology and patient factors make interpretation of the literature problematic (Reference Loo and MitchellLoo & Mitchell, 2005). However, a number of recent studies of fast left frontal rTMS support the efficacy of higher dosages and a greater number of treatments (e.g. Reference Fitzgerald, Benitez and de CastellaFitzgerald et al, 2006).

Our study is limited by its small number of participants, relatively brief follow-up and uncontrolled concomitant medication. Nevertheless, taken together with other recent studies, our findings suggest that fast left frontal rTMS warrants further evaluation as a clinically available treatment. A clinically feasible protocol of three treatments per week appears effective, provided that sufficient stimulation strength and numbers of treatments are used.

Acknowledgements

We are grateful for the help of Lewis Harpin and the Wellcome Trust Clinical Research Facility, Manchester for funding from Bolton, Salford and Trafford Mental Health Trust and the University of Modena, Italy.

Footnotes

Declaration of interest

None.

References

American Psychiatric Association (1994) Diagnostic and Statistical Manual of Mental Disorders (4th edn) (DSM–IV). APA.Google Scholar
Anderson, I. M., Nutt, D. J. & Deakin, J. F. W. (2000) Evidence–based guidelines for treating depressive disorders with antidepressants: a revision of the 1993 British Association for Psychopharmacology guidelines. Journal of Psychopharmacology, 14, 320.Google Scholar
Couturier, J. L. (2005) Efficacy of rapid–rate repetitive transcranial magnetic stimulation in the treatment of depression: a systematic review and meta-analysis. Journal of Psychiatry and Neuroscience, 30, 8390.Google Scholar
Dolberg, O. T., Schreiber, S. & Grunhaus, L. (2001) Transcranial magnetic stimulation–induced switch into mania: a report of two cases. Biological Psychiatry, 49, 468470.Google Scholar
Fitzgerald, P. B., Benitez, J., de Castella, A., et al (2006) A randomized, controlled trial of sequential bilateral repetitive transcranial magnetic stimulation for treatment–resistant depression. American Journal of Psychiatry, 163, 8894.Google Scholar
Guy, W. (1976) ECDEU Assessment Manual for Psychopharmacology Revised DHEW Pub. (ADM). National Institute for Mental Health.Google Scholar
Holtzheimer, P. E., Russo, J. & Avery, D. H. (2001) A meta–analysis of repetitive transcranial magnetic stimulation in the treatment of depression. Psychopharmacology Bulletin, 35, 149169.Google ScholarPubMed
Lecrubier, Y., Sheehan, D., Weiller, E., et al (1997) The MINI International Neuropsychiatric Interview (M.I.N.I.) A short diagnostic structured interview: reliability and validity according to the CIDI. European Psychiatry, 12, 224231.CrossRefGoogle Scholar
Loo, C. K. & Mitchell, P. B. (2005) A review of the efficacy of transcranial magnetic stimulation (TMS) treatment for depression, and current and future strategies to optimize efficacy. Journal of Affective Disorders, 88, 255267.Google Scholar
Montgomery, S. A. & Åsberg, M. (1979) Anew depression scale designed to be sensitive to change. British Journal of Psychiatry, 134, 382389.CrossRefGoogle Scholar
Wassermann, E. M. (1998) Risk and safety of repetitive transcranial magnetic stimulation: report and suggested guidelines from the International Workshop on the Safety of Repetitive Transcranial Magnetic Stimulation, June 5–7, 1996. Electroencephalography and Clinical Neurophysiology, 108, 116.CrossRefGoogle ScholarPubMed
Zigmond, A. S. & Snaith, R. D. (1983) The Hospital Anxiety and Depression Scale. Acta Psychiatrica Scandinavica, 67, 361370.Google Scholar
Figure 0

Table 1 Effect of repetitive transcranial magnetic stimulation on efficacy outcome measures

Submit a response

eLetters

No eLetters have been published for this article.