Predicting Effects and Risk of Relapse Into Depression - The Danish ECT/MRI Project

Brief Summary

Detailed Description

ECT has been the most effective treatment of depression for decades. Despite of this, neither the mechanism of action or side-effects are fully elucidated. The reason why some patients relapse shortly after remission is still not completely understood. Thus, there is a need to find predictors of the favourable clinical effect, relapse and side-effects. ECT is considered by professionals to be a safe procedure. However, this view is based on rather old and small studies. Additionally, many patients do not consent to this treatment because they fear a permanent loss of memory or that they will contract a brain damage after the completed ECT series. Therefore, it is very important to examine whether ECT might have negative effects on the structure or function of the brain, using state of the art Magnetic Resonance Imaging (MRI) techniques on a greater study population. The study consists of 60 inpatients, diagnosed with depression, admitted to one of the recruiting Mental Health Centres, and scheduled to ECT. The most modern MRI sequences examining brain structure and function are used at 3 time points: at baseline (just before ECT series), the second examination (just after ECT series) and the third (follow-up) examination (6 months after ECT series). Blood samples (measurements of Brain-Derived Neurotrophic Factor - BDNF, Vascular Endothelial Growth Factor - VEGF along with the marker of brain injury - S100B-protein) and the evaluation of clinical effect and side-effects to ECT are performed at the same time points. The study has 4 main hypotheses. The first hypothesis assumes that the immediate and sustained response to ECT can be predicted by combining neuroimaging findings and blood-samples results. The second hypothesis is based on the assumption that ECT modulates the microstructure and connectivity in the fronto-limbic pathways (FLPs) and that this modulation correlates with the clinical effect. Thus, the altered microstructure of the FLPs in depression is normalised by an ECT series. Furthermore, the depression-associated increased resting state connectivity in FLPs is normalised by ECT. The third hypothesis is that ECT will induce changes in blood-brain barrier (BBB) permeability, which will correlate with the severity of memory problems. The last hypothesis assumes that ECT does not cause any brain tissue damage (including brain atrophy and white matter lesions - WMLs).

Primary Outcomes

Secondary Outcomes

• The number of WMLs in the brain.(at 3 time points: at baseline (before ECT series), after an ECT series (+3 day), at follow-up (6 months after the ECT series))
• Changes in blood-brain barrier (BBB) permeability.(at 3 time points: at baseline (before ECT series), after an ECT series (+3 day), at follow-up (6 months after the ECT series))
• Changes in the level of fractional anisotropy (FA) in the brain.(at 3 time points: at baseline (before ECT series), after an ECT series (+3 day), at follow-up (6 months after the ECT series))
• Changes in the glucose metabolism in the brain.(at 3 time points: at baseline (before ECT series), after an ECT series (+3 day), at follow-up (6 months after the ECT series))
• Changes in S100B-protein concentration in the blood.(at 3 time points: at baseline (before ECT series), after an ECT series (+3 day), at follow-up (6 months after the ECT series))
• Changes in water diffusion in the brain.(at 3 time points: at baseline (before ECT series), after an ECT series (+3 day), at follow-up (6 months after the ECT series))
• Changes in the level of intrinsic connectivity pattern in fronto-limbic pathways in the brain.(at 3 time points: at baseline (before ECT series), after an ECT series (+3 day), at follow-up (6 months after the ECT series))