Mechanisms of Emotion Regulation Underlying Successful CBT in Depression

Combining Electrophysiological, Behavioral and Psychological Measures to Target Mechanisms of Emotion Processing and Regulation During Cognitive Behavior Therapy in Depression

Status

Completed

Phases

Unknown

Study type

Observational

Source

ClinicalTrials.gov

Registry ID

NCT04328103

Enrollment

Registered

2020-03-31

Start date

2020-11-25

Completion date

2023-06-02

Last updated

2024-05-16

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

Major Depressive Disorder

Keywords

Cognitive Behavioral Therapy (CBT), Motivated Attention, Psychological Mindedness, Mindfulness, Visual Half-Field paradigm, Dichotic Listenting, Emotion Recognition Task, Left Ear Advantage (LEA), Emotion Regulation, Event-Related Potential (ERP), Meta-Cognitive Processes

Brief summary

This research aims to elucidate mechanisms through which change occurs during cognitive behavior therapy (CBT) for depression. Assessing meta-cognitive processes of self-knowledge (top-down), electrophysiological and behavioral correlates of emotion processing (bottom-up), and their relation to treatment outcome will provide new insights into the mechanisms of emotion regulation deficits in depression. It will also contribute toward the clinical goal of identifying patients who may benefit most from CBT for unipolar depression.

Detailed description

This R21 application aims to clarify the neurobiological mechanisms by which change occurs during cognitive behavior therapy (CBT) for major depressive disorder (MDD). This hypothesis-driven study will explore the association between the psychological constructs of psychological mindedness (PM) and mindfulness (M) during the time course of CBT for MDD, and its relationship to electrophysiological and behavioral measures of automatic (i.e. stimulus-driven or bottom-up) emotion processing. This objective is motivated by the following rationale: PM and M represent different meta-cognitive processes of self-knowledge deemed critical for emotion regulation (ER) and CBT success. Event-related potentials (ERPs) to salient affective pictures reflect different stages of motivated attention. Using advanced analytic EEG techniques, we have linked these stages to the hierarchical activation of 'emotional' brain regions along the occipitotemporal ventral stream, ranging from preconscious stimulus categorization (right secondary visual cortex, right temporoparietal junction) to conscious appraisal (posterior cingulate cortex, ventromedial cortex). Importantly, blunted ERP responses to emotionally-arousing stimuli have been observed in clinical depression, and hypoactivation of right temporoparietal and dorsolateral prefrontal regions normalize after successful antidepressant or electroconvulsive treatment. A dichotic emotion recognition test, which provides an auditory measure of bottom-up emotion processing in form of a left ear (right hemisphere) advantage for recognizing the emotional intonation of speech patterns, has revealed behavioral deficits in MDD patients. Moreover, an increased right ear advantage for verbal stimuli (left hemisphere) is seen in CBT responders. Employing a sample of 60 MDD patients randomly assigned to CBT or nonspecific supportive therapy (placebo), we will obtain psychological, electrophysiological, behavioral and clinical outcome measures of response to 12 weeks of CBT in a pre-post treatment design to determine: (1) when and where in the brain automatic emotion processing is altered by CBT; (2) if changes in emotional responding are moderated or mediated by meta-cognitive processes of self-knowledge; and, (3) if these measures, alone or in combination, have promise as markers of CBT treatment response. Existing ERP and behavioral data for healthy adults (HC) obtained using the same experimental protocols will provide normative (yardstick) data. This study brings together experienced clinical psychologists and psychiatrists doing treatment and research in depression with investigators having expertise in affective neuroscience and electrophysiological studies in MDD. It will provide a critical new step for outlining the affective-cognitive and neurophysiological mechanisms of ER by which change through CBT occurs. Apart from their theoretical relevance, the findings of this project will also aid in developing novel and more targeted interventions and in identifying patients who may benefit most from CBT for unipolar depression.

Interventions

BEHAVIORALCognitive Behavior Therapy (CBT)

Following established procedures at the DES at NYSPI, 12 sessions of individual manual-driven CBT (Emery, 2000) will be conducted by highly trained master degree clinicians.

BEHAVIORALNonspecific Supportive Therapy (PBO)

As a non-CBT intervention that includes warmth, genuineness and empathy (Linde et al., 2011), nonspecific supportive therapy (PBO) will be administered in a parallel format to CBT, also consisting of 12 individual sessions.

Study design

Observational model

COHORT

Time perspective

CROSS_SECTIONAL

Eligibility

Sex/Gender

ALL

Age

18 Years to 65 Years

Healthy volunteers

Inclusion criteria

* aged 18-65 * right-handed * be able to speak English well enough to comprehend and comply with protocol requirements * recruited to achieve equal gender representation (i.e. about half male) in both treatment arms * medically healthy individuals will be included as MDD patients if they: 1. meet DSM-5 criteria for a current MDD episode based on a structured clinical interview (SCID); 2. score greater or equal to 13 on the Beck Depression Inventory (BDI-II) 3. score greater or equal to 14 on the Hamilton Rating Scale for Depression (HRSD)

Exclusion criteria

* Participants are excluded for any of the following reasons or DSM-5 criteria: 1. substance abuse or dependence (including alcohol) in last 6 months; 2. positive toxicology screen as determined by blood/urine testing (e.g. thyroid dysfunction, street drug use); 3. history of schizophrenia or other current psychotic disorder; 4. MDD with psychotic or catatonic features; 5. Bipolar I, II Affective Disorder; 6. Organic Mental Disease; 7. significant suicidal ideation with a plan and intent, also assessed using the Columbia-Suicide Severity Rating Scale (C-SSRS), that cannot be managed safely as an outpatient, or homicidal ideation (suicidality monitored throughout study); 8. a primary diagnosis of panic disorder, obsessive-compulsive disorder, psychogenic pain disorder, anorexia/bulimia, or any unstable medical condition; 9. any recent (less than or equal to 12 mos) history of CBT (as determined during an in-person interview); 10. prior seizure disorder, significant head trauma or other neurological disorders; 11. lack of capacity to give informed consent; 12. received psychotropic medication, over-the-counter antidepressant, or any non-CBT intervention (e.g. deep breathing, meditation/mindfulness, psychotherapy - except for minimal supportive nonspecific therapy PBO) for at least 1 month prior to recruitment (3 months for fluexetine); 13. hearing loss (\>30 dB in either ear) or hearing asymmetry (\>10 dB across ears) assessed via standard audiogram

Design outcomes

Primary

Measure	Time frame	Description
LEA ERT (post)	post-treatment, after about 12 weeks	LEA ERT (dichotic listing behavior, Emotional Recognition Task); measures extent of right hemisphere dominance or left ear advantage (LEA) for recognizing prosody during a dichotic emotional recognition task (Bruder et al 2016)
CP source (post)	post-treatment, after about 12 weeks	CP source (ERP, Emotional Hemifield Task); late (630 ms peak latency) emotional ERP LPP subcomponent derived from combined CSD-tPCA approach (Kayser et al 2016, 2017) reflecting bilateral generator sources within the temporal lobe, with a maximum activations in uncus and the inferior temporal area
LEA ERT (pre)	pre-treatment, at baseline	LEA ERT (dichotic listing behavior, Emotional Recognition Task); measures extent of right hemisphere dominance or left ear advantage (LEA) for recognizing prosody during a dichotic emotional recognition task (Bruder et al 2016)
HRSD slope	12 weeks or up to 12 weeks	17-item Hamilton Rating Scale for Depression (HRSD); standard clinical instrument (Hamilton, 1960) to assess symptom severity in major depressive disorder (MDD); interpretation: \< 7 = absence or remission of depression; 7-17 = mild depression; 18-24 = moderate depression; \> 25 = severe depression; HRSD rate of symptom change over time (slope); to obtain a continuous measure of treatment outcome, we will employ a mixed-effects model for all HRSD ratings to compute estimates of each patient's rate of symptom change over time (slope of HRSD scores; Petkova et al 2017)
BDI slope	12 weeks or up to 12 weeks	Beck Depression Inventory (BDI-II); standard clinical instrument (Beck 1966) to assess symptom severity in depression; interpretation: \< 14 = minimal range; 14-19 = mild depression; 20-28 = moderate depression; 29-63 = severe depression; BDI-II rate of symptom change over time (slope); To obtain a continuous measure of treatment outcome, we will employ a mixed-effects model for all BDI ratings to compute estimates of each patient's rate of symptom change over time (slope of BDI scores; Petkova et al 2017)
N2 sink (pre)	pre-treatment, at baseline	N2 sink (ERP, Emotional Hemifield Task); early (212 ms peak latency) emotional ERP LPP subcomponent derived from combined CSD-tPCA approach (Kayser et al 2016, 2017) reflecting asymmetrical neuronal sources involving striate and prestriate cortex in the occipital lobe, with a maximum activation in the right middle temporal gyrus
N2 sink (post)	post-treatment, after about 12 weeks	N2 sink (ERP, Emotional Hemifield Task); early (212 ms peak latency) emotional ERP LPP subcomponent derived from combined CSD-tPCA approach (Kayser et al 2016, 2017) reflecting asymmetrical neuronal sources involving striate and prestriate cortex in the occipital lobe, with a maximum activation in the right middle temporal gyrus
P3 source (pre)	pre-treatment, at baseline	P3 source (ERP, Emotional Hemifield Task); mid-latency (385 ms peak latency) emotional ERP LPP subcomponent derived from combined CSD-tPCA approach (Kayser et al 2016, 2017) reflecting neuronal sources involving medial parietal lobe, with a maximum activation in the posterior cingulate cortex
P3 source (post)	post-treatment, after about 12 weeks	P3 source (ERP, Emotional Hemifield Task); mid-latency (385 ms peak latency) emotional ERP LPP subcomponent derived from combined CSD-tPCA approach (Kayser et al 2016, 2017) reflecting neuronal sources involving medial parietal lobe, with a maximum activation in the posterior cingulate cortex
CP source (pre)	pre-treatment, at baseline	CP source (ERP, Emotional Hemifield Task); late (630 ms peak latency) emotional ERP LPP subcomponent derived from combined CSD-tPCA approach (Kayser et al 2016, 2017) reflecting bilateral generator sources within the temporal lobe, with a maximum activations in uncus and the inferior temporal area

Secondary

Measure	Time frame	Description
REA Fused Words (post)	post-treatment, after about 12 weeks	REA Fused Words (dichotic listing behavior); measures extent of left hemisphere dominance or right ear advantage (REA) for verbal processing (Bruder et al 1997, 2017)
REA Fused Words (pre)	pre-treatment, at baseline	REA Fused Words (dichotic listing behavior); measures extent of left hemisphere dominance or right ear advantage (REA) for verbal processing (Bruder et al 1997, 2017)

Countries

United States

Outcome results

None listed

Source: ClinicalTrials.gov · Data processed: Feb 4, 2026