CompletedNot Applicable

Effects of Subconcussive Head Impacts on Neural Integrity and Function in ADHD

United States69 participantsStarted 2021-03-15

Plain-language summary

The purpose of this study is to examine the acute neural responses to subconcussive head impacts in individuals with Attention-deficit/hyperactivity disorder (ADHD). The study is designed to identify the effects of 10 controlled soccer headings in college-aged soccer players diagnosed with ADHD and without ADHD, through the use of neural-injury blood biomarkers, functional and diffusion MRI, and ocular-motor function across three acute timepoints. The central hypothesis is that neuronal structural, physiological, and functional impairments from subconcussive head impacts will be amplified by ADHD. The neural-injury blood biomarkers neurofilament light (NF-L), glial fibrillary acidic protein (GFAP), ubiquitin C-terminal hydrolase-L1 (UCHL-1), and Tau will be measured in plasma, with the hypothesis that 10 soccer headings will significantly increase plasma NF-L levels in both groups at 24h post-heading compared to baseline, but this increase will be higher in the ADHD group; plasma UCH-L1, GFAP, and Tau levels will increase significantly after 10 headings in the ADHD group at 2h and 24h post-heading, but levels in the non-ADHD group will remain consistent throughout the time points. It is also hypothesized that repetitive subconcussive head impacts will impair neurocognitive function, as measured by regional changes in fMRI activation during working memory and attention-based tasks, in the ADHD group. Ten headings will significantly alter fMRI activation in the ADHD group from baseline. This impairment will not be observed in the non-ADHD group, rather the non-ADHD group will show consistent fMRI activation even after 10 headings. White matter microstructure will be measured by diffusion imaging metrics, with the hypothesis that 10 soccer headings will significantly disrupt microstructure in the ADHD group compared to baseline, but not in the non-ADHD group. The study will also assess neuro-ophthalmologic function as measured by the King-Devick test (KDT) and oculomotor function as measured by the near-point-of-convergence (NPC) in response to subconcussive head impacts. The hypothesis is that NPC performance will be significantly impaired and persist for longer than 24 hours in both groups, but this impairment will be greater in the ADHD group, and that the learning curve and expected improvement of KDT will be significantly blunted in both groups, with a display of worsening in the ADHD group.

Who can participate

Age range

18 Years – 26 Years

Sex

ALL

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AI-rewrites the medical criteria so a patient or caregiver can understand them. Always confirm with the trial site.

Inclusion criteria

. Aged between 18 and 26 years at the start of the study
. Providing documentation of ADHD being clinically diagnosed by a psychologist, psychiatrist, or a neurologist 3) Taking their prescribed ADHD medication \>5 days a week
. Aged between 18 and 26 years at the start of the study
. Absence of prior or current clinical diagnoses of ADHD
. Absence of prior or current history of taking ADHD medication 4) Currently playing soccer (i.e., intercollegiate, intramural, club) 5) At least 5 years of soccer heading experience

Exclusion criteria

Questions worth asking your doctor

Bring these to your next appointment. They're a starting point for a shared conversation — not a sign you qualify or a recommendation to enrol.

1Since this study specifically looked at soccer heading in people with ADHD, what do the findings suggest about whether my child's ADHD might make their brain more vulnerable to the repeated sub-concussive impacts that happen during normal play?
2This trial measured blood biomarkers and brain imaging changes at 2 hours and 24 hours after heading — do the results show any meaningful short-term changes in brain structure or function that you think are relevant to my situation?
3The study is now completed — have any results been published yet, and if so, what did they find about how ADHD affects recovery from repeated head impacts compared to people without ADHD?
4Given that this research focused on axonal microstructure changes after heading, should I be asking about limiting heading in practice or games for someone with ADHD while we wait for clearer guidance from studies like this one?
5Are there standard-of-care recommendations or alternative precautions I should consider right now, rather than waiting for the full implications of this research to be translated into sports guidelines?

Generated to help you prepare — always confirm anything about your own eligibility and care with the study team and your doctor.

Questions for the trial coordinator

The trial coordinator is the person who runs the study day to day. These cover the practical side — logistics, costs, and what taking part would actually mean for your life. The study team confirms whether you meet the criteria; these are questions to ask, not a sign you qualify.

1What does taking part actually involve week to week — how many visits, where, and how long does each one take?
2What costs are covered by the study, and what might I have to pay for myself, including travel, parking, or time off work?
3What happens during screening, and what happens if the study team confirms I don't meet the criteria after those tests?
4Who pays for the scans, blood work, and other tests the trial requires — the study, my insurance, or me?
5How will being in the trial affect my regular care, and will my own doctor stay informed and involved?
6Can I leave the trial at any point if I change my mind, and what would happen to my care if I do?

A starting point for the conversation — always confirm anything about your own eligibility, costs, and care with the study team and your doctor.

What they're measuring

Acute change in brain-derived blood biomarkers from pre to 2 hour post-heading

Timeframe: Blood samples will be collected at pre- and 2 hour post-heading

Acute change in brain-derived blood biomarkers from pre to 24 hour post-heading

Timeframe: Blood samples will be collected at pre- and 24 hour post-heading

Acute change in regional fMRI activation during memory and attention tasks from pre to 2 hour post-heading

Timeframe: fMRI procedures will be performed at pre and 2 hour post-heading

Acute change in regional fMRI activation during memory and attention tasks from pre to 24 hour post-heading

Timeframe: fMRI procedures will be performed at pre and 2 hour post-heading

Acute change in axonal microstructure from pre to 2 hour post-heading.

Timeframe: MRI procedures will be performed at pre and 2 hour post-heading

Acute change in axonal microstructure from pre to 24 hour post-heading.

Timeframe: MRI procedures will be performed at pre and 24 hour post-heading

Trial details

NCT IDNCT04880304

SponsorIndiana University

Sponsor typeOTHER

Study typeINTERVENTIONAL

Primary completion2022-03-15

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