Fanni Dzvonyar scite author profile

While research concerning brain structural biomarkers of major depressive disorder (MDD) is continuously progressing, our state of knowledge regarding biomarkers of specific clinical profiles of MDD is still limited. The aim of the present study was to investigate brain structural correlates of social anhedonia as a cardinal symptom of MDD. In a cross-sectional study, we investigated n = 166 patients with MDD and n = 166 matched healthy controls (HC) using structural magnetic resonance imaging (MRI). Social anhedonia was assessed using the Chapman Scales for Social Anhedonia (SAS). An anhedonia x group ANCOVA was performed in a region of interest approach of the dorsal and ventral striatum (bilateral caudate nucleus, putamen, nucleus accumbens respectively) as well as on whole-brain level. The analyses revealed a significant main effect for social anhedonia: higher SAS-scores were associated with reduced gray matter volume in the bilateral caudate nucleus in both the MDD-group (p FWE = 0.002) and the HC-group (p FWE = 0.032). The whole-brain analysis confirmed this association (left: p FWE = 0.036, right: p FWE = 0.047). There was no significant main effect of group and no significant anhedonia x group interaction effect. This is the first study providing evidence for volumetric aberrations in the reward system related to social anhedonia independently of diagnosis, depression severity, medication status, and former course of disease. These results support the hypothesis that social anhedonia has a brain biomarker serving as a possible endophenotype of depression and possibly providing an alternative approach for a more precise and effective treatment.

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Brain functional effects of electroconvulsive therapy during emotional processing in major depressive disorder

Enneking

Dzvonyar

Dück

et al. 2020

Brain Stimulation

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Background: In treatment-resistant major depressive disorder (MDD), electroconvulsive therapy (ECT) is a treatment with high efficacy. While knowledge regarding changes in brain structure following ECT is growing, the effects of ECT on brain function during emotional processing are largely unknown. Objective: We investigated the effects of ECT on the activity of the anterior cingulate cortex (ACC) and amygdala during negative emotional stimuli processing and its association with clinical response. Methods: In this non-randomized longitudinal study, patients with MDD (n ¼ 37) were assessed before and after treatment with ECT. Healthy controls (n ¼ 37) were matched regarding age and gender. Functional magnetic resonance imaging (fMRI) was obtained twice, at baseline and after six weeks using a supraliminal face-matching paradigm. In order to evaluate effects of clinical response, additional posthoc analyses were performed comparing responders to non-responders. Results: After ECT, patients with MDD showed a statistically significant increase in ACC activity during processing of negative emotional stimuli (p FWE ¼ .039). This effect was driven by responders (p FWE ¼ .023), while non-responders showed no increase. Responders also had lower pre-treatment ACC activity compared to non-responders (p FWE ¼ .025). No significant effects in the amygdala could be observed. Conclusions: ECT leads to brain functional changes in the ACC, a relevant region for emotional regulation during processing of negative stimuli. Furthermore, baseline ACC activity might serve as a biomarker for treatment response. Findings are in accordance with recent studies highlighting properties of pretreatment ACC to be associated with general antidepressive treatment response.

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Time heals all wounds? A 2-year longitudinal diffusion tensor imaging study in major depressive disorder

Repple

Zaremba

Meinert

et al. 2019

JPN

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Background: Cross-sectional studies have repeatedly shown impaired white matter integrity in patients with major depressive disorder. Longitudinal analyses are missing from the current research and are crucial to elucidating the impact of disease trajectories on white matter impairment in major depressive disorder. Methods: Fifty-nine patients with major depressive disorder receiving inpatient treatment, as well as 49 healthy controls, took part in a prospective study. Participants were scanned twice (baseline and follow-up), approximately 2.25 years apart, using diffusion tensor imaging. We analyzed diffusion metrics using tract-based spatial statistics. Results: At baseline, patients had higher mean diffusivity in a large bilateral frontal cluster comprising the body and genu of the corpus callosum, the anterior and superior corona radiata, and the superior longitudinal fasciculus. A significant group × time interaction revealed a decrease of mean diffusivity in patients with major depressive disorder over time, abolishing group differences at follow-up. This effect was observed irrespective of disease course in the follow-up period. Limitations: Analyzing the course of illness is challenging because of recollection biases in patients with major depressive disorder. Conclusion: This study reports follow-up diffusion tensor imaging data in patients with major depressive disorder after an acute depressive episode. We demonstrated impaired prefrontal white matter microstructure (higher mean diffusivity) at baseline in patients with major depressive disorder, which normalized at follow-up after 2 years, irrespective of disease course. This might have been due to a general treatment effect and might have reflected recovery of white matter integrity.

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Fanni Dzvonyar

Mediation of the influence of childhood maltreatment on depression relapse by cortical structure: a 2-year longitudinal observational study

Social anhedonia in major depressive disorder: a symptom-specific neuroimaging approach

Brain functional effects of electroconvulsive therapy during emotional processing in major depressive disorder

Time heals all wounds? A 2-year longitudinal diffusion tensor imaging study in major depressive disorder

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