New Treatment Perspectives in Eating Disorders: the Efficacy of Non-invasive Brain-directed Treatment

Not Applicable

• Conditions: Eating Disorders; Anorexia Nervosa; Binge Eating Disorder
• Interventions: Device: AN Active tDCS; Device: AN Sham tDCS; Device: BED Sham tDCS; Device: BED Active tDCS

• Registration Number: NCT02382497
• Lead Sponsor: Mariella Enoc

Brief Summary

The present study grounds on the possible role of hemispheric lateralization in Eating disorders (ED): specifically, hyperactivity of the right frontal regions in Anorexia Nervosa (AN), and hypoactivity of the right frontal regions in Binge Eating Disorder (BED) and food craving behaviors.

Therefore, the investigators hypothesized that active excitatory tDCS over left prefrontal cortex (PFC) (Anode left/cathode right) may aid in altering/resetting inter-hemispheric balance in AN patients, re-establish control over eating behaviors. On the contrary, active excitatory tDCS over right PFC (Anode right/cathode left) may aid in altering/resetting inter-hemispheric balance in BED patients and people with frequent food cravings, decreasing cravings/appetite binge eating behaviors.

Detailed Description

The study design is randomized stratified, double blind, add-on, placebo-controlled.

A group of children and adolescents with AN will be selected and randomly assigned to two different conditions: treatment "as usual" plus experimental treatment (active tDCS); treatment "as usual" plus placebo treatment (sham tDCS).

Similarly, a group of children and adolescents with Over-weight/Obesity (OW/OB) and BED will be selected and assigned with randomized stratified sampling to the following conditions: treatment "as usual" plus experimental treatment (active tDCS); treatment "as usual" plus placebo treatment (sham tDCS).

In this project, the investigators will work to understand whether a brain-based treatment, with the use of tDCS, can improve the outcome of patients with eating disorders.

The investigators will test whether tDCS treatment produces improvements in under-eating and over-eating diseases, such us AN and OW/OB with BED and food craving.

Our overarching goal is to provide a scientific foundation for devising new rehabilitation strategies in ED.

Study Timeline

• Study Start: 2014-07
• Study First Submitted: 2015-02-27
• Study First Submitted QC: 2015-03-03
• Study First Posted: 2015-03-06
• Status Verified: 2021-11
• Last Update Submitted: 2021-11-12
• Last Update Posted: 2021-11-19
• Primary Completion: 2023-07
• Study Completion: 2023-07

Recruitment & Eligibility

• Status: UNKNOWN
• Sex: All
• Target Recruitment: 160

Inclusion Criteria

• Under-weight (BMI less than 5th percentile)1 with Clinical diagnosis of AN as described in the 5th edition of the Diagnostic and Statistical Manual of Mental Disorders (DSM-5)
• Over-weight/Obesity (OW/OB) (BMI above the 85th percentile)1 with diagnosis of BED, or with food craving behaviors
• Ability to give informed consent under parents' surveillance and guidance

Exclusion Criteria

• Having a comorbidity with an important medical condition;
• Having neurological diseases
• Having Epilepsy o family history of epilepsy
• Pregnant or planning to become pregnant;
• Suicide risk;
• Receiving counseling or psychological therapies during the study;
• Receiving a treatment for an eating disorder in the previous three months before the baseline screening visit.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
AN Active tDCS	AN Active tDCS	Treatment "as usual" plus experimental treatment
AN Sham tDCS	AN Sham tDCS	Treatment "as usual" plus placebo treatment
BED Sham tDCS	BED Sham tDCS	Treatment "as usual" plus placebo treatment
BED Active tDCS	BED Active tDCS	Treatment "as usual" plus experimental treatment

Primary Outcome Measures

Name	Time	Method
The primary end-point of the study is the mean change in the Overcontrol composite score of Eating Disorder Inventory - Three (EDI-3) questionnaire, using an approach based on the magnitudes of change.	6 weeks	the mean change in the Overcontrol composite score of the EDI-3 questionnaire gives a measure of the basic characteristics of the eating disorders and is a prognostic measure of outcome of eating disorders. Indeed, patterns of treatment response revealed significantly changes in terms of reduced eating disorder symptoms and fewer psychological problems.

Secondary Outcome Measures

Name	Time	Method
The proportion of patients in the two arms with improvement in the total scores of other psychopathological measures as the Yale-Brown-Cornell Eating Disorder Scale (YBC-EDS) questionnaire	6 weeks
The proportion of patients in the two arms with improvement in the total scores of other psychopathological measures as the BINGE EATING SCALE (BES) questionnaire	6 weeks
The proportion of patients in the two arms with improvement in the neuropsychological measure of executive control and reward sensitivity by the 'Bechara Iowa Gambling' Task	6 weeks
The proportion of patients in the two arms with improvement in the neuropsychological measure of the ability to stop by THE STOP-SIGNAL REACTION-TIME (SSRT) task.	6 weeks
The proportion of patients in the two arms with improvement in the neuropsychological measure of visual attention and task switching by the TRAIL MAKING TEST	6 weeks
The proportion of patients in the two arms with normalization of different physiological measures specifically the BMI index	12 months follow up
The proportion of patients in the two arms with normalization of different physiological measures specifically the values of bloody pressure	12 months follow up
The proportion of patients in the two arms with normalization of different physiological measures specifically the values of cardiac frequency	12 months follow up
The proportion of patients in the two arms with normalization of different physiological measures specifically the values of body composition	12 months follow up
In the AN group, significant changes in intra-cortical inhibitory/excitatory motor circuits using paired pulse TMS, measured as SICI/ICF: the ratio between MEPs amplitude (mV) conditioning stimulus and MEPs amplitude test stimulus alone for each ISI.	6 weeks
In the AN group, significant changes in sensory-motor integration using paired pulse TMS, measured as SICI/ICF: the ratio between MEPs amplitude (mV) conditioning stimulus (electrical stimulation) and MEP amplitude test stimulus alone for each ISI.	6 weeks
In the AN group, significant changes in cortical oscillatory patterns (synchronization and desynchronization) in theta, alpha and beta frequencies (Hz) over motor and premotor cortex, using TMS-EEG co-registration.	6 weeks
In the AN group, normalization of endogenous stress response, measured with CAR.	6 months follow up
In the AN group, significant changes in cortical connectivity, through the analysis of the waveform, latency and cortical distribution of TMS-evoked potentials (TEPs) in micronV, using TMS-EEG co-registration.	6 weeks
In the AN group, significant changes in cortical reactivity in terms of TMS-evoked potentials (TEPs) amplitude for time domain (micronV) and frequency bands for spatial domain (Hz), using TMS-EEG co-registration.	6 weeks
In the AN group, significant changes in Cortical Plasticity evoked by repetitive TMS in terms of different MEP amplitude (mV) recorded at different time-points after repetitive TMS perturbations.	6 weeks

Trial Locations

Locations (1)

Bambino Gesù Hospital and Research Institute; 🇮🇹 Rome, Italy