Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT06454591 |
| Other study ID # |
6041393 |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
August 2024 |
| Est. completion date |
June 2026 |
Study information
| Verified date |
June 2024 |
| Source |
Queen's University |
| Contact |
Douglas J Cook, MD, PhD |
| Phone |
1-613-549-6666 |
| Email |
dj.cook[@]queensu.ca |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
Our project aims to develop a rapidly acquired and communicated MRI assessment and report
that incorporates functional and structural imaging to convey information about functional
neurological insults following traumatic brain injury (TBI) that are not typically visible on
clinical imaging. Within this framework, there are two sub-studies. The first is a
prospective study of patients with TBI who will have an MRI in the sub-acute period after
their injury, followed by clinical assessments up to 90 days post-injury. A model will be
developed to link MRI biomarkers to persistent symptoms of TBI. The second sub-study will use
a focus group methodology to develop the report content and format with input from several
groups of stakeholders.
Description:
Traumatic brain injury (TBI) can range from mild (mTBI) to moderate and severe (msTBI), and
69 million individuals worldwide sustain a TBI annually. There are many unanswered questions
related to the diagnosis of TBI, the prediction of recovery, and the selection of effective
treatments. For a subset of patients with TBI, persistent symptoms (PS) can substantially
reduce quality of life. Particularly for mTBI, these impairments occur frequently without
evidence of structural damage to the brain on MRI or CT. The lack of objective evidence of
damage can limit a patient's access to clinical resources, insurance coverage and
compensation related to their injury.
Furthermore, clinicians often have difficulty predicting TBI patients' course and extent of
recovery. Preliminary evidence suggests that combining several novel types of MRI techniques
may enable the detection of changes in individuals with TBI and provide information about
patient recovery. Therefore, our proposed research project will assess individuals with TBI
using novel MRI and a battery of assessments that examine how they function (functional
assessments) in the acute stages after injury with a complete reassessment of function three
months after injury. These procedures will be performed in 200 patients. Overall, this
project will incorporate TBI survivors, family members/caregivers, clinicians, and members of
the legal/insurance community to address four goals:
1. To develop reports for survivors and their supporters to communicate MRI and functional
assessment findings. This report will help survivors understand their injuries and
symptoms and suggest treatments. Additionally, a more technical report will be developed
for clinicians and legal/insurance personnel to support diagnosis, direct testing, and
aid in choosing therapeutic approaches. Focus groups will be conducted for each group to
develop the report content and format.
2. To link MRI findings to neurological function and symptoms. The use of several MRI
sequences increases our ability to identify deficits. However, this large amount of
information may be difficult for a clinician to review, synthesize and use to predict
patient function. The investigators developed a method to summarize the MRI data into
intuitive outputs to address this. These outputs are linked to function and allow
clinicians and patients to connect the damage detected by MRI to impairments in
function.
3. To develop a tool to assess the risk of PS 90 days after injury using MRI and clinical
data collected early after injury.
4. To develop a comprehensive MRI protocol that can be performed within the shortest
possible time on any clinical MRI scanner to make this testing widely accessible. For
the complete MRI protocol used in this study, the total time will be 45 minutes, with
five types of MRI collected. The investigators will perform analyses where one or more
MRI types is removed from the analysis to understand whether all types collected are
necessary to achieve the outcome. This will allow us to reduce the scan time as the
clinical protocol is developed.
Findings from this work will be impactful for the following reasons: (1) the development of a
report will allow patients and caregivers to be more informed about their path to recovery;
(2) the development of an accessible clinical protocol and report will allow clinicians to
access functional neuroimaging; (3) a protocol that links functional neuroimaging changes to
functional impairment will provide evidence that injury is linked to signs/symptoms in TBI;
(4) identification of patients at risk for PS combined with a comprehensive functional
evaluation in the acute stages of injury will allow clinicians to focus on early therapy to
prevent PS; and (5) development of the shortest possible protocol for data acquisition that
increases patient comfort and increases accessibility to functional neuroimaging in the
clinical setting.
