Modulating Prospective Memory in Older Adults With Non-invasive Brain Stimulation

Not Applicable

Completed

• Conditions: Healthy Aging
• Interventions: Device: Non-invasive brain stimulation; Device: Sham stimulation

• Registration Number: NCT04882527
• Lead Sponsor: University of Bern

Brief Summary

Prospective memory is the ability to remember to carry out intentions with a certain delay (e.g. remember to buy stamps when passing a postal office). Prospective memory tasks require a large degree of self-initiated retrieval and in the absence of a prompt to recall, people must 'remember to remember' by their own volition. Thus, prospective memory is a challenge - especially in old age with increasing health-related prospective memory demands.

Previous studies reported links between neural activity in specific brain regions and prospective memory performance. Yet, the mere occurrence of a change in brain activity in concomitance with performance of a behavioral task is not sufficient to confirm a causal relationship between the two phenomena. Therefore, this study aims to apply non-invasive brain stimulation to facilitate or inhibit activity in different brain regions presumed to be functionally associated with prospective memory. Additional to the prospective memory tasks, the investigators will implement control tasks (i.e., attention) to assess whether stimulation will specifically enhance prospective memory performance or whether other cognitive functions will be modulated additionally.

It is hypothesized that stimulation will lead to changes in prospective memory functioning. Further, the investigators expect that facilitation of attentional processes might be linked to prospective memory improvements.

Detailed Description

This study aims to modulate neural activity in the left and right inferior frontal lobe as well as in the right superior parietal lobe via high-definition transcranial direct current stimulation (HD-tDCS) in older adults. There is evidence from functional magnetic resonance imaging (fMRI) studies that these areas are involved in prospective memory performance in younger and older adults but a causal relation between activity in these areas and responses in prospective memory tasks has not been established so far.

A double blind, sham-controlled, parallel group design will be applied. Healthy older adults (n=105) will participate in two separate sessions: During the first baseline session, no stimulation is applied. For the second session, participants will then be randomly assigned to one of seven experimental groups (cathodal vs. anodal right inferior frontal lobe (rIFL); cathodal vs. anodal left inferior frontal lobe (lIFL); cathodal vs. anodal right superior parietal lobe (rSPL); or sham). Real stimulation will be applied during 20 minutes with one Milliamp (mA). In case of sham stimulation (i.e., control intervention), the electrode positions and the attachment procedures correspond to those of real tDCS but the electrical current will only be ramped up to one mA and switched off completely after 30 s of stimulation.

The primary objective of this study is the modulation of prospective memory performance in a computer-based task via tDCS. Further, this study aims to clarify the role of attentional control for prospective memory performance, as both processes seem to recruit similar neural structures. Additionally, naturalistic and self-rated prospective memory performance will be assessed.

It is hypothesized that stimulation of the right inferior frontal lobe will lead to changes in prospective memory performance and attentional processes. Whether cathodal or anodal stimulation will enhance performance is not clear yet, since previous fMRI studies were inconsistent about activity changes in older adults. Further, the investigators expect that anodal stimulation of the left inferior frontal cortex may lead to faster responses to prospective memory stimuli, whereas cathodal stimulation of the same area may lead to prolonged reaction times. It is hypothesized that attentional control will not be affected by stimulation of the left inferior frontal lobe. Finally, the investigators expect that anodal stimulation of the right superior parietal cortex will lead to better prospective memory and attentional control performance, whereas cathodal stimulation will have detrimental effects on both functions.

Study Timeline

• Study First Submitted: 2021-05-06
• Study First Submitted QC: 2021-05-06
• Study First Posted: 2021-05-12
• Study Start: 2021-06-28
• Primary Completion: 2023-10-31
• Study Completion: 2023-10-31
• Status Verified: 2023-12
• Last Update Submitted: 2023-12-11
• Last Update Posted: 2023-12-12

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 106

Inclusion Criteria

• No cognitive impairments
• Fluent in German
• Right-handed
• Normal or corrected-to-normal vision
• Non-smokers
• Written informed consent

Exclusion Criteria

• Current/lifetime severe psychiatric or neurological disorder
• Metal implants in the head area
• Psychotropic medication
• Dermatosis
• Current/lifetime alcohol abuse
• Magnetisable implants

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
anodal stimulation of the rSPL	Non-invasive brain stimulation	Anodal stimulation over the right superior parietal lobe
cathodal stimulation of the lIFL	Non-invasive brain stimulation	Cathodal stimulation over the left inferior frontal lobe
cathodal stimulation of the rSPL	Non-invasive brain stimulation	Cathodal stimulation over the right superior parietal lobe
anodal stimulation of the rIFL	Non-invasive brain stimulation	Anodal stimulation over the right inferior frontal lobe
cathodal stimulation of the rIFL	Non-invasive brain stimulation	Cathodal stimulation over the right inferior frontal lobe
anodal stimulation of the lIFL	Non-invasive brain stimulation	Anodal stimulation over the left inferior frontal lobe
sham stimulation	Sham stimulation	Sham stimulation over either of the three real stimulation areas

Primary Outcome Measures

Name	Time	Method
Prospective memory reaction time	During both sessions (for stimulation session: during intervention), fixed to 14 minutes	Assessed with a computer task. Reaction times of answers given to prospective memory stimuli.; Change from baseline to intervention session, difference between intervention groups.
Flexibility reaction-time	During both sessions (for stimulation session: directly after intervention), 3 minutes	Assessed with a computer task (TAP - Test of Attentional Performance). Mean/ median of reactions times of correct responses.; Change from baseline to intervention session, difference between intervention groups.
Divided attention reaction time	During both sessions (for stimulation session: directly after stimulation), 3 minutes 30 seconds	Assessed with a computer-based task (Test of Attentional Performance). Median reaction time of correct answers.; Change from baseline to intervention session, difference between intervention groups.
Prospective memory performance	During both sessions (for stimulation session: during intervention), fixed to 14 minutes	Assessed with a computer task. Number of correct answers given to prospective memory stimuli.; Change from baseline to intervention session, difference between intervention groups.
Executive controlling functioning	During both sessions (for stimulation session: during intervention), task fixed to 6 minutes	Assessed with a computer task (ANT - Attentional Network Task). Interference between answers given to congruent and incongruent stimuli.; Change from baseline to intervention session, difference between intervention groups.
Inhibition errors	During both sessions (for stimulation session: directly after intervention), 2 minutes	Assessed with a computer task (Test of Attentional Performance). Sum of incorrect responses to no-go stimuli.; Change from baseline to intervention session, difference between intervention groups.
Flexibility performance	During both sessions (for stimulation session: directly after intervention), 3 minutes	Assessed with a computer task (TAP- Test of Attentional Performance). Number of correct answers.; Change from baseline to intervention session, difference between intervention groups.
Inhibition reaction time	During both sessions (for stimulation session: directly after intervention), 2 minutes	Assessed with a go/no-go computer task (TAP -Test of Attentional Performance). Mean/ median of reactions times to correct responses.; Change from baseline to intervention session, difference between intervention groups.
Divided attention misses	During both sessions (for stimulation session: directly after intervention), 3 minutes 30 seconds	Assessed with a computer task (TAP - Test of Attentional Performance). Sum of missed target stimuli.; Change from baseline to intervention session, difference between intervention groups.

Secondary Outcome Measures

Name	Time	Method
Orienting network functioning	During both sessions (for stimulation session: during intervention), task fixed to 6 minutes	Assessed with a computer task (ANT - Attentional Network Task). Contrasting reaction times of answers given to stimuli with reliable spatial cues to those without spatial cues.; Change from baseline to intervention session, difference between intervention groups.
Alerting network functioning	During both sessions (for stimulation session: during intervention), task fixed to 6 minutes	Assessed with a computer task (ANT - Attentional Network Task). Contrasting reaction times of answers given to stimuli with alerting cues to those without alerting cues.; Change from baseline to intervention session, difference between intervention groups.
Ongoing-task performance	During both sessions (for stimulation session: during intervention), fixed to 14 minutes	Assessed with a computer task. Number of correctly answered ongoing task stimuli in the course of the prospective memory task.; Change from baseline to intervention session, difference between intervention groups.
Ongoing-task reaction time	During both sessions (for stimulation session: during intervention), fixed to 14 minutes	Assessed with a computer task. Mean/median response time of correct ongoing task answers in the course of the prospective memory task.; Change from baseline to intervention session, difference between intervention groups.
Ongoing-task intra-individual coefficient of variation	During both sessions (for stimulation session: during intervention), fixed to 14 minutes	Assessed with a computer task. Variability of response times (i.e., within-person fluctuation in response latency) to ongoing task stimuli in the course of the prospective memory task.; Change from baseline to intervention session, difference between intervention groups.

Trial Locations

Locations (1)

Universitätsklinik für Alterspsychiatrie und Psychotherapie; 🇨🇭 Bern, Switzerland