Pilot Study of an Intervention Involving Cognitive Training and tDCS in Morbidly Obese Subjects

Phase 2

Completed

• Conditions: Obesity (BMI > 35) and Diabetes Mellitus; Obesity (BMI > 35) and Dyslipemia; Obesity, Morbid; Obesity (BMI > 35) and High Blood Pressure
• Interventions: Other: Cognitive Training; Device: transcranial Direct-Current Stimulation (tDCS)

• Registration Number: NCT03943979
• Lead Sponsor: Parc de Salut Mar

Brief Summary

The study aims to: 1) investigate the effects of cognitive training (CT) and combined CT and transcranial direct current stimulation (tDCS) on food intake and 2) to further understand its neuropsychological and neurophysiological basis (i.e. EEG) as well as its impact in endocannabinoids (EC) in a sample of morbidly obese patients seeking for a gastric bypass surgery

Detailed Description

The study will explore the impact of a 4-day intervention with either CT (Active control condition) or CT+tDCS (Active condition) stimulation on food intake in a sample of morbidly obese patients, as measured by dietary assessments the week before, during and the week after the intervention. Additionally, to further understand the neuropsychological and neurophysiological basis of its impact, measures of executive function and attention performance and EEG recordings, respectively, will be collected. Furthermore, we will explore the effect of the intervention on endocannabinoids previously related to eating behaviour.

The Active Control condition will receive sham stimulation together with CT, through a computerized cognitive training platform (Guttmann NeuropersonalTrainer), including different tasks with designed to train executive functions and attention. Each session will last approximately 30-40 min.

The Active condition will receive tDCS stimulation (20 min, multichannel with an excitatory target over the r-dlPFC) together with CT (same as for the Active Control condition).

Participants will undergo a basal (the week before intervention) and a post treatment assessments (the day after finishing the intervention) that will include medical history, blood testing, anthropometric measures, a cognitive assessment battery and a 4-day dietary assessment.

Study Timeline

• Study Start: 2016-02-25
• Primary Completion: 2017-05-26
• Study Completion: 2017-06-01
• Study First Submitted: 2018-06-14
• Status Verified: 2019-05
• Study First Submitted QC: 2019-05-08
• Last Update Submitted: 2019-05-08
• Study First Posted: 2019-05-09
• Last Update Posted: 2019-05-09

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 18

Inclusion Criteria

• Subjects of both gender, aged between 18 and 60 years-old
• Having a BMI > 40 kg/m2 or having a BMI>35 and suffering from diabetes mellitus, HBP or LDP.
• Obesity conventional treatment failure
• Wish of bariatric surgery
• Accepting the study and signing the Informed Consent

Exclusion Criteria

• Do not meet inclusion criteria
• Being left-handed
• Using a pacemaker or deep cerebral stimulation device
• Having a psychiatric disease or serious disease
• Neurologic condition or learning issue or mental backwardness that could affect cognitive function
• Use of psycho-stimulating medicines and/or drugs, abuse or dependance to a psychoactive substance (or during the last 6 months)
• Dependance to alcohol or/and drugs (excepted from nicotina)
• In treatment with benzodiazepines, antipsychotics, tricyclic antidepressants or topiramate, started in the last month
• History of psychiatric disorders treated with lithio carbonate.
• Cutaneous lesion on the area of using of electrodes
• Contact allergy to material used in the used devices.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Active group	Cognitive Training	This group will receive both CT and tDCS, each day, for four days.
Active group	transcranial Direct-Current Stimulation (tDCS)	This group will receive both CT and tDCS, each day, for four days.
Active Control group	Cognitive Training	This group will receive CT and sham tDCS each day, for four days.

Primary Outcome Measures

Name	Time	Method
Change in food intake	4 consecutive days during the week before starting the treatment; 4 consecutive days during the week of treatment;	Changes in food consumption (medium kcal intake ) from baseline to the end of the treatment measured by 4-day food registers during the week before starting the treatment and during the 4 days of treatment. The dietary records were checked by a nutritionist and analyzed through the software PCN Pro 1.0.
Stability of changes in food intake	4 consecutive days during the week before starting the treatment and 4 consecutive days during the week after finishing the treatment	Changes in food consumption (medium kcal intake ) from baseline to the follow-up assessment measured by 4-day food registers during the week before starting the treatment and the week after finishing the treatment. The dietary records were checked by a nutritionist and analyzed through the software PCN Pro 1.0.

Secondary Outcome Measures

Name	Time	Method
Change in neuropsychological test: Iowa Gambling Task (IGT, Bechara et al., 1994, 2002)	One day during the week before starting the training (pre-treatment) and the 1 day after finishing the treatment (post-treatment)	Executive functions: decision-making, risky behaviour.
Change in neuropsychological test: Spatial Span (SSP; CANTAB Cambridge Cognition)	One day during the week before starting the training (pre-treatment) and the 1 day after finishing the treatment (post-treatment)	Executive functions: working memory
Change in hormonal measurements : Leptin and adiponectin plasmatic/serum concentrations	One day during the week before starting the training (pre-treatment) and the 1 day after finishing the treatment (post-treatment)	Measurement of change in hormones regulating the appetite and energic homeostasis of secretion in fatty tissues.
Change in neuropsychological test: Stroop Colours and Words test (SCWT, Golden C.J., 1978; Stroop, 1935)	One day during the week before starting the training (pre-treatment) and the 1 day after finishing the treatment (post-treatment)	Executive functions: inhibition
Change in Body Mass Index (BMI)	One day during the week before starting the training (pre-treatment) and the 1 day after finishing the treatment (post-treatment)	Change in BMI. BMI calculation: body weight divided by the square of the body height (expressed in units of kg/m2). Weight and height measures were taken by a nurse.
Change in electroencephalogram (EEG) power and coherence	Every training session (4 consecutive days), 3 minutes before starting the training session and 3 minutes after finishing the training.	EEG was recorded before and after tCS/sham using a Starstim device (Neuroelectrics), same electrode positions as for the stimulation with a sampling frequency of 500 S/s . Electrode impedance: below 10kΩ; electrical reference placed at the right earlobe. EEG data was analyzed offline by means of customized Matlab code (MathWorks Inc. Natick, MA, USA). Data was split into 1s non-overlapping epochs (epochs with amplitudes \>50 μV were rejected). EEG-metrics extracted: EEG-power and coherence. To compute EEG power, the power spectral density (PSD) was estimated for each epoch. Band Power was computed for the bands θ=\[4,8 Hz\], α=\[8,13 Hz\] β=\[13,25 Hz\], γ=\[30, 45 Hz\] and broadband=\[4-45Hz\] by integrating the PSD within the band frequency limits. Functional connectivity was estimated by means of coherence by the Welch method averaged over all electrodes. Frontal asymmetry (FA) computed as follows: log(avg(AF4 F4 F8 FC6))-log(avg(AF3 F3 F7 FC5); FA\<0 reflects dominance of left-hemisphere
Change in endocannabinoids (and related compounds) plasmatic concentrations.	One day during the week before starting the training (pre-treatment) and the 1 day after finishing the treatment (post-treatment)	Change in endocannabinoids and related compounds (acylglycerols and fatty acid N-acylethanolamides) as measured in plasmatic concentrations and quantified by LC/MS-MS by a previously validated method (Pastor et al. 2014).
Change in neuropsychological test: Intra-extra dimension (IED-CANTAB Cambridge Cognition)	One day during the week before starting the training (pre-treatment) and the 1 day after finishing the treatment (post-treatment)	Executive functions: flexibility
Change in neuropsychological test: Stockings of Cambridge (SOC; CANTAB Cambridge Cognition)	One day during the week before starting the training (pre-treatment) and the 1 day after finishing the treatment (post-treatment)	Executive functions: planning
Change in neuropsychological test: Conners Continuous Performance Test (CPT, Conners & MHS Staff, 2000)	One day during the week before starting the training (pre-treatment) and the 1 day after finishing the treatment (post-treatment)	Executive functions: Attention
Change in neuropsychological test: Simple Reaction Time (SRT; CANTAB Cambridge Cognition)	One day during the week before starting the training (pre-treatment) and the 1 day after finishing the treatment (post-treatment)	Executive functions: Attention
Change in neuropsychological test:Symbol digit modalities test (SDMT; Smith A. 1982).	One day during the week before starting the training (pre-treatment) and the 1 day after finishing the treatment (post-treatment)	Executive functions: Attention and Processing speed