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Letter to the Editor

Brief Eclectic Psychotherapy for PTSD: A Randomized Controlled Trial

Ulrich Schnyder, MD; Julia Müller, PhD; Andreas Maercker, PhD, MD; and Lutz Wittmann, PhD

Published: April 15, 2011

Brief Eclectic Psychotherapy for PTSD: A Randomized Controlled Trial

To the Editor: Trauma-focused cognitive-behavioral therapy (CBT) and eye movement desensitization and reprocessing are empirically supported treatments for posttraumatic stress disorder (PTSD).1 However, dropout rates from CBT studies are usually around 20%; up to 58% of patients who completed CBT are still diagnosed with PTSD at posttreatment assessment. Furthermore, only 32%-66% of patients achieve good end-state functioning. Therefore, there is a need for further development in the field.2 Brief eclectic psychotherapy (BEP), a fully manualized, 16-session multimodal treatment approach, differs from trauma-focused CBT in that (1) the aim of exposure is catharsis rather than habituation/extinction; (2) the use of mementos and a farewell ritual, usually applied in grief work, is added; and (3) psychodynamic elements such as reflecting on the connection between early life experiences and the processing of adult trauma, or the implicit use of transference phenomena, are introduced in the domain of meaning and integration. BEP has proved to be effective in reducing PTSD symptoms in police officers3 and survivors of interpersonal violence, accidents, and disasters.4 In a single photon emission computed tomography study, BEP was shown to modulate the functioning of specific PTSD-related sites in the prefrontal cortex,5 while magnetic resonance imaging scans did not detect any treatment-related changes in hippocampal volumes.6 BEP responders showed reduced heart rate responsivity to trauma scripts7 and an increase in cortisol and dehydroepiandrosterone levels.8 These promising results deserve augmentation by an independent research group. Therefore, we conducted a randomized, controlled trial of BEP vs a "minimal attention" control group in a sample of patients suffering from chronic PTSD who had experienced a variety of traumatic events.

 

Method. This study was approved by the Ethics Committee of the Canton of Zurich. All participants gave written informed consent prior to enrollment. Inclusion criteria were a clear memory of an "index" traumatic event that had occurred no less than 6 months prior to entering the trial; current PTSD or subsyndromal PTSD; symptom severity of 50 on the Clinician-Administered PTSD Scale (CAPS)9; agreement to not receive other psychotherapy for PTSD during the trial; if taking psychoactive medication, a stable regimen for at least 2 months prior to entering the trial; age between 18 and 70 years; and sufficient proficiency in German to participate in BEP. Exclusion criteria were psychotic, bipolar, substance-related, or severe personality disorders; current severe depressive disorder; severe cognitive impairment or a history of organic mental disorder; ongoing threat of traumatic exposure; prominent current suicidal or homicidal ideation; and asylum-seeking status.

From April 2004 to April 2007, forty-five patients underwent the clinical screening interview; of these, 2 were not referred to baseline assessment. Thus, 43 patients were assessed at baseline. Of these, 6 did not fulfill diagnostic criteria or had a CAPS total score of < 50 and 7 were excluded for various other reasons such as insufficient proficiency in German, high-risk pregnancy, ongoing trauma-focused psychotherapy, or refusal to undergo randomization. In the end, 30 patients who fulfilled all inclusion criteria and were free from exclusion criteria were randomly assigned to either 16 sessions of BEP (N = 16) or a minimal attention control condition (N = 14). Patients allocated to the control condition were informed that they could begin BEP after a waiting period of 4 months, received a monthly phone call from the study coordinator, and kept a diary for 3 weeks to self-monitor their symptoms. In addition, patients in the control condition were informed that they could call the study coordinator whenever they felt they urgently needed therapeutic assistance. Thus, 4 patients (28.6%) received 1 additional appointment each during the waiting time to ensure sufficient stability.

Assessments were conducted by independent evaluators who were blind to the patients’ group status. We used the Childhood Trauma Questionnaire (CTQ),10 the Posttraumatic Diagnostic Scale (PDS),11 the Structured Clinical Interview for DSM-IV (SCID I and SCID II),12,13 the CAPS,9 the Hospital Anxiety and Depression Scale (HADS),14 and the Posttraumatic Growth Inventory (PGI).15 Interrater reliability for diagnostic interviews was satisfactory (CAPS: κ = .89; SCID: overall reliability = 95.5%). Measurements took place at baseline (T0), posttreatment/post-minimal attention period (T1), and 6 months posttreatment (T2, BEP group only). After each T1 assessment, assessors were asked to guess the respective patient’s treatment status. Results confirmed that the blinding was successful (χ21 = 0.33, NS). Participants received a compensation of CHF 100 for each completed assessment.

The standard duration of each BEP session was 50 minutes. A session-by-session manual is available, comprising the following 5 components: (1) psychoeducation, (2) imaginal exposure of 20-30 minutes in sessions 2-6, (3) mementos and writing assignments, (4) the domain of meaning and integration, and (5) a farewell ritual. Study therapists were trained by Berthold Gersons, who originally developed the BEP protocol.3 Weekly supervision was provided by the first author. All therapy sessions were videotaped. Treatment adherence monitors’ interrater reliability was satisfactory, with a mean κ of .85 (SD = .26). Videotapes of all treatment sessions were rated subsequently, yielding a mean treatment adherence of 81.1% (SD = 9.1%).

To compare the 2 groups at baseline assessment, we used descriptive statistics, t tests, and χ2/Fisher exact test. The comparison groups did not differ on any of the baseline sociodemographic and psychometric measures, except for lifetime traumatic events (BEP: mean = 1.6, SD = 1.3; control group: mean = 3.7, SD = 2.6; t18.4 = 2.78, (unequal variances), P < .05, Cohen d = 0.8). Patients in the BEP group also showed somewhat more depressive symptoms (t28 = 1.73, P < .10, Cohen d = 0.6, see Table 1). We felt that this second difference, although only approaching statistical significance, was also clinically relevant. Therefore, to test the impact of BEP on our primary and secondary outcome measures, analyses of covariance (ANCOVAs) were performed in order to control for lifetime traumatic events, baseline depression, and the respective outcome variable’s baseline score. To test stability of treatment effects, the experimental group’s scores at T1 (posttreatment) and T2 (6 month follow-up) were compared for differences by paired t tests. Intention-to-treat analyses were performed throughout, using the last-observation-carried-forward procedure.

Table 1

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Results. Patients were a mean of 39.5 (SD = 16.9) years old. Sixteen patients (53.3%) were male, 11 were not Swiss citizens (36.7%), and 10 (33.3%) were unfit for work. Patients reported a high childhood trauma load (CTQ total score of 45.4, SD = 20.1) and lifetime exposure to a mean of 2.6 (SD = 2.2) types of trauma as measured by the PDS. Index traumatic events had occurred 5.4 years (median 1.9; SD = 9.9) prior to study entry and included serious accidents (13), violent sexual or nonsexual assaults (9), non-combat-related war exposure (2), natural disasters (1), childhood trauma (1), and other traumatic events (4). Twenty patients (66.7%) suffered from a current comorbid Axis I disorder, and 8 (26.7%) had a personality disorder. Twelve patients (40.0%) were currently taking psychotropic medication (mostly antidepressants), including 5 (16.7%) patients taking analgesic medication.

Longitudinal data of our primary and secondary outcome measures are shown in Table 1. ANCOVAs (Table 2) controlling for the respective outcome variable’s baseline score, baseline depression, and lifetime traumatic events revealed significant group effects for all outcome variables: patients who had received BEP experienced significantly greater improvements in CAPS, HADS anxiety, and HADS depression scores and stronger posttraumatic growth than the control group. Between-groups effect sizes (partial η2) indicated large treatment effects on all outcome measures.

Table 2

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The BEP group showed significant decreases in mean CAPS total scores at posttreatment (t15 = 3.15, P < .01; effect size: Cohen d = 1.5) and follow-up (t15 = 4.00, P = .001; effect size: Cohen d = 1.8). In the control group, the mean CAPS total score did not significantly change (t13 = 1.88, P = .08; effect size: Cohen d = 0.7). To facilitate clinical interpretation of the results, we defined 3 additional levels of improvement regarding PTSD: treatment response (decline in CAPS total score of at least 18 points, ie, 1 SD of baseline mean score), loss of diagnosis (no longer meeting symptom criteria and CAPS total score < 50), and complete remission (CAPS total score < 20). At posttreatment, 5 patients in the BEP group (31.3%) qualified as treatment responders, 2 (12.5%) had lost their PTSD diagnosis, and a further 2 (12.5%) were fully remitted. At follow-up 6 patients (37.5%) qualified as treatment responders and 3 (18.8%) were fully remitted. In the waitlist group 4 patients (28.6%) qualified as treatment responders, but none lost their PTSD diagnosis or achieved complete remission.

In the BEP group, we found decreased levels of anxiety (t15 = 2.27, P < .05; effect size: Cohen d = 0.8) and depression (t15 = 2.58, P < .05; effect size: Cohen d = 1.0) at posttreatment. At follow-up, treatment gains remained largely stable (anxiety: t15 = 2.27, P < .05; effect size: Cohen d = 0.9; depression: t15 = 2.57, P < .05; effect size: Cohen d = 1.0). By contrast, in the waitlist group, anxiety and depression remained unchanged (anxiety: t13 = 0.45, NS; effect size: Cohen d = 0.2; depression: t13 = −1.21, NS; effect size: Cohen d = −0.5).

Posttraumatic growth in the BEP group, as measured with the PGI, had increased at posttreatment (t15 = 2.23, P < .05; effect size: Cohen d = 0.8). However, about half of this treatment gain was lost at follow-up, so that the effect was no longer significant 6 months posttreatment (t15 = 1.15, NS; effect size: Cohen d = 0.5). PGI scores in the control group remained unchanged (t12 = -0.38, NS; effect size: Cohen d = −0.2).

 

This is the first randomized controlled trial of BEP conducted by a research group independent of Gersons’ group who initially presented promising findings regarding the efficacy of BEP in patients suffering from chronic PTSD.3,4 Our study confirmed that BEP can effectively reduce PTSD symptom severity. While the rate of diagnostic change was rather low, and CAPS total scores for the BEP group were still quite high at posttreatment and follow-up, the overall response rate was in line with the majority of successful psychotherapy outcome studies of PTSD.16 Furthermore, BEP produced greater improvements in comorbid anxiety and depression and stronger posttraumatic growth as compared to the "minimal attention" control condition.

The strengths of this study included the rigorous application of standards for well-controlled psychotherapy outcome trials1 and the extensive measures we took to optimize its clinical relevance. Index traumas included a wide variety of events, ranging from childhood abuse to war-related trauma. Also, we allowed psychiatric comorbidity, simultaneous psychotherapy for other problems, and psychoactive medication if patients were on a stable regimen.

A number of limitations should be mentioned. Our sample size was rather small, although statistical power was sufficient to test our main hypotheses. Moreover, we didn’ t compare BEP to an empirically supported therapy for PTSD. We felt that the results of Gersons’ group should be replicated by an independent research group in a small study first, using a waitlist comparison group. Only if a study such as this provides positive results (which we are presenting here) should an active-active comparison study, requiring a much larger sample size to achieve adequate statistical power, be conducted. Also, related to the second limitation, BEP patients received more therapist attention than the waitlist group. The BEP group’s superior improvement might thus be attributable at least in part to an attention-placebo effect.

Posttraumatic growth significantly increased from baseline after 16 treatment sessions. Given the strong focus on finding meaning and integrating the traumatic event into the broader context of life experiences in the BEP protocol, this finding is hardly surprising.17 However, we had not expected that the treatment gains in posttraumatic growth would not be maintained at 6 month follow-up. This is most likely due to the interaction of a small sample size with intention-to-treat analysis.

In summary, BEP proved effective to improve PTSD symptom severity as well as comorbid depression and anxiety. In addition, BEP appeared to stimulate posttraumatic growth. In a next step, an active-active comparison study should be conducted, comparing BEP to one of the well-established, empirically supported psychotherapies for PTSD.

References

1. Foa EB, Keane TM, Friedman MJ, et al. Effective Treatments for PTSD. Practice Guidelines From the International Society for Traumatic Stress Studies. 2nd ed. New York, NY: Guilford; 2009.

2. Schnyder U. Why new psychotherapies for posttraumatic stress disorder? Psychother Psychosom. 2005;74(4):199-201. PubMed doi:10.1159/000085142

3. Gersons BPR, Carlier IVE, Lamberts RD, et al. Randomized clinical trial of brief eclectic psychotherapy for police officers with posttraumatic stress disorder. J Trauma Stress. 2000;13(2):333-347. PubMed doi:10.1023/A:1007793803627

4. Lindauer RJL, Gersons BPR, van Meijel EPM, et al. Effects of brief eclectic psychotherapy in patients with posttraumatic stress disorder: randomized clinical trial. J Trauma Stress. 2005;18(3):205-212. PubMed doi:10.1002/jts.20029

5. Lindauer RJL, Booij J, Habraken JBA, et al. Effects of psychotherapy on regional cerebral blood flow during trauma imagery in patients with post-traumatic stress disorder: a randomized clinical trial. Psychol Med. 2008;38(4):543-554. PubMed doi:10.1017/S0033291707001432

6. Lindauer RJL, Vlieger EJ, Jalink M, et al. Effects of psychotherapy on hippocampal volume in out-patients with post-traumatic stress disorder: a MRI investigation. Psychol Med. 2005;35(10):1421-1431. PubMed doi:10.1017/S0033291705005246

7. Lindauer RT, van Meijel EP, Jalink M, et al. Heart rate responsivity to script-driven imagery in posttraumatic stress disorder: specificity of response and effects of psychotherapy. Psychosom Med. 2006;68(1):33-40. PubMed doi:10.1097/01.psy.0000188566.35902.e7

8. Olff M, de Vries GJ, Güzelcan Y, et al. Changes in cortisol and DHEA plasma levels after psychotherapy for PTSD. Psychoneuroendocrinology. 2007;32(6):619-626. PubMed doi:10.1016/j.psyneuen.2007.04.001

9. Blake DD, Weathers FW, Nagy LM, et al. Clinician-Administered PTSD Scale for DSM-IV, Revised July 98. Boston, MA: National Center for Posttraumatic Stress Disorder; 1998.

10. Bernstein DP, Stein JA, Newcomb MD, et al. Development and validation of a brief screening version of the Childhood Trauma Questionnaire. Child Abuse Negl. 2003;27(2):169-190. PubMed doi:10.1016/S0145-2134(02)00541-0

11. Foa EB, Cashman L, Jaycox L, et al. The validation of a self-report measure of posttraumatic stress disorder: the Posttraumatic Diagnostic Scale. Psychol Assess. 1997;9(4):445-451. doi:10.1037/1040-3590.9.4.445

12. First MB, Gibbon M, Spitzer RL, et al. User’s Guide for the Structured Clinical Interview for DSM-IV Axis 1 Disorders—Research Version. Washington, DC: American Psychiatric Press; 1996.

13. First MB, Spitzer RL, Gibbon M, et al. User’s Guide for the Structured Clinical Interview for DSM-IV Personality Disorders (SCID-II). Washington, DC: American Psychiatric Press; 1996.

14. Zigmond AS, Snaith RP. The Hospital Anxiety and Depression Scale. Acta Psychiatr Scand. 1983;67(6):361-370. PubMed doi:10.1111/j.1600-0447.1983.tb09716.x

15. Maercker A, Langner R. Persönliche Reifung (personal growth) durch Belastungen und Traumata: Validierung zweier deutschsprachiger Fragebogenversionen. Diagnostica. 2001;47(3):153-162. doi:10.1026/0012-1924.47.3.153

16. Bradley R, Greene J, Russ E, et al. A multidimensional meta-analysis of psychotherapy for PTSD. Am J Psychiatry. 2005;162(2):214-227. PubMed doi:10.1176/appi.ajp.162.2.214

17. Tedeschi RG, Calhoun LG. Posttraumatic growth: conceptual foundations and empirical evidence. Psychol Inq. 2004;15(1):1-18. doi:10.1207/s15327965pli1501_01

Ulrich Schnyder, MD

[email protected]

Julia Müller, PhD

Andreas Maercker, PhD, MD

Lutz Wittmann, PhD

Author affiliations: Department of Psychiatry and Psychotherapy, University Hospital Zurich (Drs Schnyder, Müller, and Wittmann); and Department of Psychology: Psychopathology and Clinical Intervention, University of Zurich (Dr Maercker), Zurich, Switzerland. Potential conflicts of interest: The authors report no potential conflicts of interest relevant to the subject of this letter. Funding/support: This study was supported by the Swiss National Science Foundation (3200B0-102204.03), Olga Mayenfisch Foundation, Hermann Klaus Foundation, and the Zurich University Jubiläumsspende. Previous presentation: Presented at the 3rd National Conference on Psychotherapy; May 1-2, 2010; Jakarta, Indonesia; and the 20th IFP World Congress of Psychotherapy; June 16-19, 2010; Lucerne, Switzerland. Trial registration: clinicaltrials.gov Identifier: NCT00329992.

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