Treating Traumatic Brain Injury With Transcranial Direct Current Stimulation

Not Applicable

Not yet recruiting

• Conditions: Traumatic Brain Injury

• Registration Number: NCT06989970
• Lead Sponsor: Johns Hopkins University

Brief Summary

Traumatic Brain Injury (TBI) often results in a wide array of cognitive impairments, which can significantly diminish quality of life for affected individuals. While traditional rehabilitation methods typically adopt a standardized approach, it's crucial to acknowledge the significant heterogeneity within the TBI patient population. Neglecting these variations reduces the likelihood of otherwise effective treatments being considered for widespread adoption. Emerging evidence highlights the potential of transcranial direct current stimulation (tDCS) as a promising adjunctive therapy. tDCS, a noninvasive and safe neuro-rehabilitative procedure, has shown efficacy when integrated with cognitive training across various neurological disorders, such as depression, post-stroke aphasia, and neurodegenerative conditions.

This study aims to investigate the effectiveness of tDCS paired with behavioral therapy, particularly cognitive training, in improving cognition and executive function in chronic TBI patients. Additionally, tDCs targets in the current study will be tailored to each individual patient, recognizing the patient's unique needs and circumstances

Detailed Description

Objective: This pilot study (targeting a sample of 10 TBI patients) aims to investigate whether combining cognitive training with anodal tDCS can enhance cognitive function more effectively compared to cognitive training alone in individuals with chronic TBI. The target for tDCS application will be the left dorsolateral prefrontal cortex (DLPFC), thought to be the area associated with executive impairment in TBI patients.

Study Design: Each participant will undergo an initial neuropsychological evaluation and Functional magnetic resonance imaging (fMRI). Following the preliminary evaluation, participants will undergo either tDCS or sham stimulation for 3 weeks, with follow-up assessments immediately after and 2 months later, to measure cognitive training progress. After the 2-month follow-up, participants will undergo another 3 weeks of cognitive training with either sham or tDCS, based on the participant's condition in phase 1. Post-training, there will be additional follow-ups immediately after and 2 months later.

Study Timeline

• Study First Submitted: 2025-04-30
• Status Verified: 2025-05
• Study First Submitted QC: 2025-05-19
• Last Update Submitted: 2025-05-19
• Study Start: 2025-05-20
• Study First Posted: 2025-05-25
• Last Update Posted: 2025-05-25
• Primary Completion: 2029-10-15
• Study Completion: 2029-10-15

Recruitment & Eligibility

• Status: NOT_YET_RECRUITING
• Sex: All
• Target Recruitment: 20

Inclusion Criteria

• Diagnosis of traumatic brain injury (TBI) at least 2 years prior to participation
• Right-handed
• English - speaking

Exclusion Criteria

• Uncorrected visual impairment
• Uncorrected hearing impairment
• Stroke or other premorbid neurological disorders affecting the brain
• Premorbid learning disorders

MRI Exclusion Criteria:

• severe claustrophobia
• Cardiac pacemakers, ferromagnetic implants, cochlear implants
• pregnant woman

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: CROSSOVER

Primary Outcome Measures

Name	Time	Method
Change in Selective attention and cognitive flexibility as assessed by the Attention Network Task (ANT)	Before intervention, immediately after intervention	This will be measured using the Attention Network Task (ANT). An efficiency score for executive attention is derived by comparing scores on trials with congruent flankers to trials with incongruent flankers. Subjects will tend to be slower and less accurate for incongruent trials, the size of the difference indicates the extent to which an individual can supress conflicting response tendencies. A larger difference between congruent and incongruent trials score indicates a lower executive efficiency (score range: 0-96)..
Change in attention and task switching as assessed by the N-Back score	Before intervention, immediately after intervention	The N-back task is a well-established task that assesses working memory and working memory capacity. Participants are presented with words in sequence and instructed to reply whether the current word matches the one presented 2 words ago (2-back). Scoring will be based on the total number of correct responses (hit rate) minus the number of incorrect responses (false alarm rate), where a greater score is better (score range: 0-80).
Change in Self-Ordered Pointing Task (SOPT)	Before intervention, immediately after intervention	The SOPT is a test used to assess executive functioning. In this task, participants are shown a series of pages, each displaying the same set of abstract images arranged in a random order. On each page, the participant must point to one image, ensuring not to select the same image more than once across the entire series. A correct response involves selecting a previously un-chosen image, while an error is recorded when a participant selects an image already chosen on a previous page. Performance will be measured by total number of errors measured out of the total number of possible responses, with a higher error count indicating greater impairment.

Secondary Outcome Measures

Name	Time	Method
Change in attention and task switching as assessed by the Trail Making Task	Before intervention, immediately after intervention	This will be measured using Trail Making Task and N-Back scores. The Trail Making Test is scored by time. Participants are allowed 0 - 300 seconds to complete the task. Less time needed to complete the task is indicative of better task-switching.
Change in Digit Span Forward	Before intervention, immediately after intervention	Digit span forward involves the recall of a series of single digits (sets of 1-8 digits) in the same order the digits were presented. Scoring is based on the number of digits or blocks shown in a trial (i.e. 1,7 is 2 digits). There are two trials for each span, if both trials are correct the score is a whole number (i.e. 2). If one trial is incorrect in a span, subtract 0.5 from that tier (i.e. 1.5). A higher number is considered better. (Score range for forward tasks: 0-9)
Change in Digit Span Backward	Before intervention, immediately after intervention	This will be measured using Digit Span Backward for verbal working memory and spatial span Backward for spatial working memory. The digit span backward is a well-established task that assesses rote immediate verbal memory and working memory. Participants are presented with a series of digits and are instructed to repeat the digits in the reverse order. Scoring is based on the number of digits shown in a trial (i.e. 1,7 is 2 digits). There are two trials for each span, if both trials are correct the score is a whole number (i.e. 2). If one trial is incorrect in a span, subtract 0.5 from that tier (i.e. 1.5). A higher number is considered better. (Score range for backwards tasks: 0-8)
Change in attention and inhibition as assessed by the Simon Task	Before intervention, immediately after intervention	This will be measured using Simon test scores. The Simon task assesses an individual's ability to flexibly shift the perceptual focus in response to changing demands, particularly the participant's capacity to inhibit a habitual response in favor of an unconventional one. Performance on the Simon task is typically scored based on measures such as reaction time and accuracy. Increased reaction times and higher error rates on incongruent trials are indicative of greater difficulty in inhibiting the interference caused by the word's meaning, reflecting decreased cognitive flexibility and inhibition abilities (accuracy score range: 0-120).
Change in Spatial Span Forward	Before intervention, immediately after intervention	Spatial span forward involves the recall of a series of of positions on a board (sets of 1-9) in the same order the digits were presented. Scoring is based on the number of blocks shown in a trial (i.e. 1,7 is 2 blocks). There are two trials for each span, if both trials are correct the score is a whole number (i.e. 2). If one trial is incorrect in a span, subtract 0.5 from that tier (i.e. 1.5). A higher number is considered better. (Score range for forward tasks: 0-9)
Change in Spatial Span Backward	Before intervention, immediately after intervention	This will be measured using Spatial Span Backward. Participants are presented with a series of block positions and are instructed to repeat the positions in the reverse order. Scoring is based on the number of blocks shown in a trial (i.e. 1,7 is 2 blocks). There are two trials for each span, if both trials are correct the score is a whole number (i.e. 2). If one trial is incorrect in a span, subtract 0.5 from that tier (i.e. 1.5). A higher number is considered better. (Score range for backwards tasks: 0-8)