Selective biases in attention can be modified by a simple computerized technique: The Attention Bias Modification Task (ABM) pioneered by MacLeod et al. Cognitive biases may be one reason depression recurs, and altering these biases should reduce risk of recurrence. Recently, evidence has supported this hypothesis . The mechanisms by which ABM works are not well understood. More research is needed to explore how altering an implicit attentional bias can lead to changes in subjective mood. One possible explanation is that positive attentional biases are an important component of explicit methods of emotion regulation. The ability to effectively regulate one's emotions is a fundamental component of mental health and this ability is impaired in depression. It has also been shown that recovered depressed people spontaneously show a more dysfunctional pattern of emotion regulation as compared to never depressed controls. Supporting this, growing evidence implicates dysregulation of a medial/orbitofrontal circuit in mood disorders. This circuit includes the orbitofrontal cortex and anterior cingulate cortex, the ventral striatum, the ventral pallidum and medial thalamus. Components of this circuit are reciprocally connected with the amygdala, which is implicated in emotional processing in the healthy brain and dysregulated in depression. Negative emotion processing biases depend on both enhanced "bottom-up" responses to emotionally salient stimuli and reduces "top-down" cognitive control mechanisms, required to suppress responses to emotionally salient but task irrelevant information. Cognitive reappraisal and distancing are common strategies to down- or upregulate emotional responses. Reappraisal is an emotion regulation strategy that involves reinterpretation and changing the way one thinks about an event or stimulus with the goal of changing its affective impact. Distancing is a type of reappraisal that involves creating mental space between oneself and the emotional event in order to see things from a different, less self-focused perspective. It has been shown that distancing is a strategy that people can improve at over time compared to reinterpretation. The neural systems which support the explicit regulation of emotion have previously been characterized and include both lateral- and prefrontal cortex. This frontal activity is predicted to downregulate limbic circuitry involving the amygdala during passive viewing of emotional salient stimuli.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
TRIPLE
Enrollment
134
Computerized
Computerized
University of Oslo, Department of Psychology
Oslo, Norway
BOLD response in prefrontal cortical regions
Stronger fMRI BOLD response in prefrontal cortical regions in ABMT compared to neutral AMB placebo condition.
Time frame: Two weeks after after ABM-training
BOLD response within the amygdala
Lower ABM fMRI BOLD response within the amygdala in ABMT compared to neutral ABM placebo condition.
Time frame: Two weeks after ABM-training
DTI
Increased neural integrity as measured by fractional anisotropy values in the uncinate fasciculi (UF) in the active AMBT compared to neutral ABM placebo condition.
Time frame: Two weeks after ABM-training
RSFC
Increased integrity within the attentional networks at rest as measured by independent component analysis (ICA) in ABMT compared to neutral ABM training.
Time frame: Two weeks after ABM-training
5-HTTLPR + A>G polymorphic variation divided by the triallelic functional "high expressive" versus "low expressive" genotype will moderate the impact from ABMT as measured by whole brain BOLD responses.
The low expressive variant will be associated with more frontal BOLD activation and lower amygdala activation after ABMT
Time frame: Two weeks after ABM-training
BDNF
Brain Derived Neurotropic Factor (BDNF) val66met polymorphic variation linked to Brain Derived Neurotropic Factor (BDNF) variation will differentiate between ABMT and neutral AMB placebo as measured by fMRI whole brain BOLD responses.
Time frame: Two week after ABM-training
Serotonergic cumulative genetic score and fMRI
A serotonergic cumulative Genetic score, including (5-HHTLPR, HTR1A 8rs6295) and HTR 2A (rs 6311) polymorphisms will moderate the effects of ABM on fMRI BOLD signal compared to a neutral placebo condition.
Time frame: Two weeks after ABM-training
Serotonergic cumulative genetic score and morphompetry
A serotonergic cumulative Genetic score, including (5-HHTLPR, HTR1A 8rs6295) and HTR 2A (rs 6311) polymorphisms will moderate the effects of ABM on structural MRI as measured by total grey matter volume compared to a neutral placebo condition.
Time frame: Two weeks after ABM-training
Serotonergic cumulative genetic score and fMRI and DTI
A serotonergic cumulative Genetic score, including (5-HHTLPR, HTR1A 8rs6295) and HTR 2A (rs 6311) polymorphisms will moderate the effects of ABM on DTI MRI as measured by fractional anisotropy compared to a neutral placebo condition.
Time frame: Two weeks after ABM-training
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