FMRI-neurofeedback in Depression

Study Description

Brief Summary

Previous studies with fMRI-neurofeedback in depression have demonstrated a good safety profile and considerable symptom reduction. The goal of this clinical trial is to compare fMRI-neurofeedback plus standard care with standard care in patients with depression.

Participants will either receive standard care, or standard care plus a fMRI neurofeedback training, consisting of 5 neurofeedback training sessions. Symptom severity will be assessed before, immediately after and 6 months after the intervention.

Detailed Description

Rationale: Previous studies with fMRI-neurofeedback in depression have demonstrated a good safety profile and considerable symptom reduction but a comparison between standard care and standard care plus fMRI-neurofeedback has not yet been carried out.

Objective: To assess the efficacy of fMRI-neurofeedback plus standard care in comparison with standard care in patients with depression.

Study design: Single-blind RCT. Patients will be randomly allocated to fMRI-neurofeedback plus standard care or standard care. Assessments will be conducted by assessors who are blinded to group allocation.

Patients will be randomised to the two groups using a block randomisation procedure (10 participants per block). Depression severity at baseline (IDS scores) will be used as minimisation variable to ensure equal severity in both groups. The study team will receive a code for group allocation. The study team and patient will be aware of the group allocation (by the nature of the study design), but assessors performing baseline, post-intervention and follow-up assessments will be blinded. During interim analyses, the analysts will remain blinded to the conditions.

If the stopping criterion is reached before the maximal N, any patients already randomised will complete the study and their data will be included in the secondary analyses.

Study population: Currently symptomatic adult patients with depression.

Sample size calculation: A Sequential Bayes Factor (SBF) sampling plan will be used. SBF allows accumulating evidence for (or against) an effect until a certain threshold, i.e. a Bayes Factor (BF), or max N is reached. This is one main advantage compared to frequentist statistics (which is biased against the null hypothesis). Moreover, type-I and type-II error rates do not exist, allowing for flexible stopping rules. This property renders SBF a more resource efficient (in particular for small to medium effect sizes) compared to (traditional frequentist) fixed-N sampling plans (Schönbrodt & Wagenmakers, 2018). Since type-II errors do not exist in Bayesian statistics, there is no concept of statistical power as in traditional frequentist statistics. However, sensitivity analyses can be carried out a priori to help determining the sample size required to reach a pre-declared level of evidence (given an assumed effect size and a specific prior distribution) that serves as a stopping criterion, For the current sampling plan a BF >= 6 (for either the alternative or the null hypothesis) will be used as a stopping criterion, a value that is in line with recent recommendations (Schönbrodt & Wagenmakers, 2018). The analysis is carried out with an informed prior t-distribution (t(μ = 0.35, df = 3, r = 0.102)), which reflects a moderate effect size that the investigators would expect given the current design and is in line with suggested informed prior distributions in Psychology (Schönbrodt & Wagenmakers, 2018). The first interim analysis will be carried out with a minimum N=26 patients per group who have completed the primary endpoint. This minimum N is in line with recommendations for SBF sampling plans (Schönbrodt & Wagenmakers, 2018). If a BF of 6 for either the alternative or the null is hypothesis is not met, sequential sampling will be carried out with interim tests for every new patient who completes the primary endpoint until either the BF stopping criterion is met or a maximum N=38 is reached (max N). An effect size of Cohen's d = 0.6 was set as the smallest effect size of interest given the restricted resources and previously reported effect sizes reported by pre-registered randomised clinical trials of emotion self-regulation based fMRI neurofeedback (Mehler et al., 2018; Young et al., 2017). An N max of 38 per group yields 80% sensitivity to detect an effect size of 0.6 under flexible stopping as suggested by simulations (Monte Carlo with 10,000 iterations). Hence, such design is more resource efficient compared to a traditional frequentist fixed-N design (which requires N=45 to reach 80% sensitivity to detect an effect size Cohen's d = 0.6). Further, the false negative rate (i.e. the probability to accumulate erroneously sufficient evidence against the effect and stop the trial early) is only 0.1%, the false positive rate is 12%. The investigators accept this higher false positive rate (compared to the nominal 5%) given that the technology is safe to use. If the BF reaches a value BF>=3 (but smaller than 6) for either the alter-native or null hypothesis, the investigators will revaluate available resources for a potential third sampling phase with N max of 60 per group. The sampling plan thus follows recent recommendations of best practice (Algermissen & Mehler, 2018; Ros, 2020).

Intervention: FMRI-neurofeedback will be administered in 5 sessions of about 1 hour each, each including a visual stimulation protocol for the localisation of areas responsive to positive emotions and appr. 30 minutes of upregulation training of these areas by means of neurofeedback, using real-time fMRI signals.

Main study parameters/endpoints:

Primary outcome: symptom severity (measured by the clinician-administered Inventory of Depressive Symptomatology) after the intervention.

Secondary outcomes: measures of depression, anxiety and general mental health (Beck Depression Inventory, Self-Efficacy Scale, Hospital Anxiety and Depression Scale, Quality Of Life scale and EuroQol research foundation questionnaire), predictive value of several trait measures (moderator analysis), changes in brain activation patterns measured by fMRI for the neurofeedback group.

In the analysis, outcomes will be controlled for the measurements at baseline.

Study Design

Outcome Measures

Primary Outcome Measures

1. Post-intervention score for the 30 item Inventory of Depressive Symptomatology (IDS) [End of intervention: appr. 2 months after baseline]

   30 item clinician rated depression scale (Rush et al., 1986; Rush, Gullion, Basco, Jarrett, & Trivedi, 1996)

Secondary Outcome Measures

1. Six month follow-up score for the 30 item Inventory of Depressive Symptomatology (IDS) [6-month follow-up]

   30 item clinician rated depression scale (Rush et al., 1986; Rush, Gullion, Basco, Jarrett, & Trivedi, 1996)

2. Post-intervention score for the Beck Depression Inventory (BDI) [End of intervention: appr. 2 months after baseline]

   Self-rated depression scale (Beck, Steer, & Brown, 1996)

3. Six month follow-up score for the Beck Depression Inventory (BDI) [6-month follow-up]

   Self-rated depression scale (Beck, Steer, & Brown, 1996)

4. Post-intervention score for the Hospital Anxiety and Depression Scale (HADS) [End of intervention: appr. 2 months after baseline]

   Self-rated depression and anxiety scale (Zigmond & Snaith, 1983)

5. Six month follow-up score for the Hospital Anxiety and Depression Scale (HADS) [6-month follow-up]

   Self-rated depression and anxiety scale (Zigmond & Snaith, 1983)

6. Post-intervention score for the Quality Of Life scale (QOLS) [End of intervention: appr. 2 months after baseline]

   Self-rated quality of life scale

7. Six month follow-up score for the Quality Of Life scale (QOLS) [6-month follow-up]

   Self-rated quality of life scale

8. Post-intervention score for the EuroQol research foundation questionnaire (EQ-5D-5L) [End of intervention: appr. 2 months after baseline]

   Self-rated scale of five dimensions of health (Brooks & Group, 1996)

9. Six month follow-up score for the EuroQol research foundation questionnaire (EQ-5D-5L) [6-month follow-up]

   Self-rated scale of five dimensions of health (Brooks & Group, 1996)

10. Experience sampling of mood states, somatic symptoms and activities using the PsyMate application [1 week after baseline, 1 week before the end of intervention measurement]

    One week after baseline and one week before the end of intervention measurement partic-ipants will undergo an experience sampling procedure. Experience sampling will be acquired through the PsyMate application (https://www.psymate.eu) on patients' own or provided smartphones. Participants will thereby digitally complete a brief questionnaire including current affect (positive affect and negative affect items) as well as current context and activ-ities ("daily life activities", "persons present", "physical activity", and "events")

11. Post-intervention score for the Self Efficacy Scale (SES) [End of intervention: appr. 2 months after baseline]

    Self-rated scale assessing self efficacy (Sherer et al., 1982)

12. Six month follow-up score for the Self Efficacy Scale (SES) [6-month follow-up]

    Self-rated scale assessing self efficacy (Sherer et al., 1982)

Other Outcome Measures

1. Ability to self-regulate the target region-of-interest during neurofeedback training [Each scanning session (appr. 2 months: session 1: week 1; session 2: week 2; session 3: week 3; session 4: week 4; session 5: week 8)]

   Determine whether participants are able to modulate their BOLD activity in keeping with the neurofeedback

2. Changes in functional parameters (as measured by fMRI) of emotion networks over the course of the intervention [Each scanning session (appr. 2 months: session 1: week 1; session 2: week 2; session 3: week 3; session 4: week 4; session 5: week 8)]

   Analysis of fMRI data

3. Brain network activity during neurofeedback training (fMRI analysis) [Each scanning session (appr. 2 months: session 1: week 1; session 2: week 2; session 3: week 3; session 4: week 4; session 5: week 8)]

   Determining changes in brain networks (e.g. default mode network)

4. Changes in Profile of Mood States (POMS) after neurofeedback sessions [Before and after each scanning session (appr. 2 months: session 1: week 1; session 2: week 2; session 3: week 3; session 4: week 4; session 5: week 8)]

   Measure to address any imminent changes in mood state

Eligibility Criteria

Criteria

Inclusion Criteria:

• Diagnosis of a depressive disorder (ICD-10: F32 or F33)

• Has been on stable antidepressant medication (single or combination treatment) for at least 4 weeks

• Current depression (QIDS >= 17)

• If required to meet recruitment targets the minimum entry score will be reduced QIDS

= 13 (i.e. still corresponding to a moderate level of depression)

Exclusion Criteria:

• Exclusion criteria for MRI (e.g. cardiac pacemaker, certain metallic implants)

• History of psychotic disorder bipolar disorder, or psychotic depression

• Current use of illegal drugs (any in the last four weeks)

• Current excessive alcohol consumption that interferes with daily functioning

• History of neurological disease that could influence the fMRI signal and/or the anatomical alignment (e.g. territorial stroke, multiple sclerosis, brain tumour)

Contacts and Locations

Locations

Sponsors and Collaborators

• Maastricht University

Investigators

• Principal Investigator: David E Linden, Prof., Professor of Translational Neuroscience

Study Documents (Full-Text)

More Information

Publications