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Clinical Trial Summary

Every year, approximately 2 million people in the United States and 280,000 in Canada experience a mild traumatic brain injury/concussion. In patients with concussion, symptoms experienced following injury usually get better within 3 months. However, approximately 5-25% of people will experience symptoms beyond the 3 month period, characterized by persistent headaches, fatigue, insomnia, anxiety, depression, and thinking or concentration problems, which contribute to significant functional impairment. Chronic headache is the most common symptom following concussions. They can last beyond 5 years following injury, significantly impacting daily activities. To date, post-concussion symptoms have no known "cure". One potential approach to treating post-concussion symptoms may involve using drug-free interventions, such as neuromodulation therapy. This has the goal of restoring normal brain activity. Repetitive transcranial magnetic stimulation (rTMS) is one method currently being explored as a treatment option. TMS is a procedure where brain electrical activity is influenced by a magnetic field. Numerous studies using rTMS to treat other disorders, such as dementia, stroke, cerebral palsy, addictions, depression and anxiety, have shown much promise. The primary objective of this study is to determine whether rTMS treatment can significantly improve persistent post-concussion symptoms. A secondary objective is to explore the relationship between potential changes in brain function and clinical markers associated with rTMS treatment and how functional near-infrared spectroscopy (fNIRS), a neuroimaging technology, may be used to assess rTMS-treatment response.


Clinical Trial Description

Annually, up to 280,000 people in Canada and 42 million worldwide experience a mild traumatic brain injury (mTBI). In patients with mTBI, symptoms experienced following injury usually resolve within 3 months. However, up to 25% of patients will experience persistent post-concussion symptoms (PPCS), which can continue up to 1 year following injury. Common symptoms include headaches, dizziness, fatigue, irritability, depression, anxiety, emotional lability, concentration or memory difficulties, insomnia, and reduced alcohol tolerance (ICD-10 post-concussion syndrome diagnostic criteria). To date, there is no "cure" for PPCS and current treatment entails trial and error with behavior management, environmental modifications and medications. Consequently, there is a significant need for new approaches to symptom management in order to help improve functional impairment and disease burden, associated with PPCS. Transcranial magnetic stimulation (TMS) has been studied as an intervention for many mental health and neurological conditions, including major depression and migraines, and has shown initial promise for PPCS. We intend to study the efficacy of TMS for PPCS further in a randomized sham-controlled trial. Mild traumatic injury is considered a risk factor in the development of post-traumatic stress disorder. As such, post-traumatic stress disorder and mild traumatic brain injury often co-occur and share similar symptoms, such as irritability, post-traumatic amnesia, sleep disturbances, concentration difficulties and cognitive processing deficits. Several studies have suggested the efficacy and safety of rTMS for the treatment of PTSD; however, a gap in the literature exists regarding treating comorbid post-traumatic stress disorder and PPCS following mild traumatic brain injury. To study potential differences in response to treatment between individuals experiencing PPCS with or without co-morbid post-traumatic stress disorder, we intend to measure PTSD symptoms for those with a clinical diagnosis of post-traumatic stress disorder. Tracking PTSD symptoms will allow insight into whether the presence of PTSD symptoms affects rTMS treatment outcomes in individuals experiencing PPCS. RESEARCH QUESTIONS AND OBJECTIVES The overall goal is to study the application of rTMS treatment to the left dorsal lateral prefrontal cortex (DLPFC) in patients with PPCS to improve overall symptom burden and to explore biomarkers of response, specifically functional near infrared spectroscopy (fNIRS). Specifically the objectives are: 1. Primary Objective: to determine changes in brain physiology associated with rTMS treatment as recorded by fNIRS. 2. Secondary Objective: to determine whether patients with PPCS have significant improvement to a 20-day high frequency rTMS treatment protocol of the left DLPFC compared to patients with PPCS receiving a sham rTMS protocol as measured by the Rivermead post-concussion symptom questionnaire at 1 and 3 months post-treatment. 3. Third Objective: To determine what exploratory outcomes such as quality of life, headaches, anxiety, depression, sleep, and somatic symptoms also improve with TMS treatment in individuals suffering with PPCS. Quality of life will be measured via the Quality of Life after Brain Injury questionnaire (QOLIBRI), headache intensity will be measured via the Headache intensity Test - 6 (HIT-6), feelings of depression will be measured via the Patient Health Questionnaire -9 (PHQ-9), anxiety via the Generalized Anxiety Disorder -7 (GAD-7), sleep via the Sleep and Concussion Questionnaire and somatic symptoms which are commonly present in functional neurological disorders via the SOMS-CD and Patient Health Questionnaire-15 (PHQ-15). Since Functional Neurological Disorder is often associated with past trauma, trauma history will be assessed via the Brief Trauma Questionnaire (BTQ) and the Life Stress Questionnaire (LSQ). 4. To determine whether those with PPCS and PTSD respond differently to rTMS and what effect this has on their PTSD symptoms measured via the Clinician-Administered PTSD Scale for DSM-5 (CAPS-5) and the Montgomery-Asberg Depression Rating Scale. Participants with PTSD will be identified as those with scores higher than 33 in the PCL-5 and a clinical diagnosis of PTSD by a medical professional. 5. To examine potential blood biomarkers of post-concussion syndrome and post-traumatic stress disorder. METHODS This study will be a double-blind, sham-controlled, concealed allocation, randomized clinical trial. Clinical Assessments: Demographic information will be collected prior to starting the study including age, sex, education, headache history, concussion history, past medical history, medication use, and family medical history. Baseline questionnaires will be completed including Headache Impact Test - 6 (HIT-6), Rivermead PPCS questionnaire, British Columbia post-concussion symptom inventory (BC-PSI), quality of life after brain injury questionnaire (QOLIBRI), patient health questionnaire-9 (PHQ-9), generalized anxiety disorder scale-7 (GADS-7),the St. Louis University Mental examination Tool (SLUMS), the screening for somatoform symptoms questionnaire (SOMS-CD), the post traumatic stress disorder checklist for DSM-5 (PCL-5), the Brief Trauma Questionniare (BTQ), the Life Stress Questionnaire (LSQ), the Patient Health Questionnaire-15 (PHQ-15), and the Sleep and Concussion Questionnaire (SCQ). Those who are identified as having a PCL-5 score of greater than 33, in addition to a clinical diagnosis of post-traumatic stress disorder, will also complete the LEC-5, CAPS-5, MADRS and Columbia Suicide Severity Rating Scale. Patients will be reassessed at the completion of their rTMS treatment, and at 1 and 3 months post-treatment. The questionnaires that will be completed at all follow-up visits include the Rivermead PPCS questionnaire, the HIT-6, the BC-PSI, the QOLIBRI, the PHQ-9, the GAD-7, the PCL-5, the SLUMS, the SOMS-CD, the PHQ-15, and the Sleep and Concussion Questionnaire. For the Sleep and Concussion Questionnaire, the initial screening section will not be completed at follow-ups. Participants in the PTSD sub-group will also complete the MADRS, CAPS-5 and Columbia Suicide Severity Rating Scale at the 1 month and 3-month follow-up visits. TMS Protocol: Patients will engage in a four-week treatment protocol (20 treatments). This was chosen as it is the midpoint between typical depression and migraine protocol durations. A standardized atlas brain with Montreal Neurologic Institute (MNI) coordinates will be used for navigation. The DLPFC will be located through MNI coordinates (-50, 30, 36). The intensity of the rTMS will be 100-120% of resting motor threshold amplitude, with a frequency of 10 Hz, 10 trains of 60 pulses/train (total of 600 pulses) and inter-train interval of 45s. In the sham condition, a sham coil will be applied to the scalp after the resting motor threshold is determined. Patients will be able to hear the sound and feel the vibration of sham coil, but will not experience any effective stimulation. Previous sham studies have demonstrated efficacy of the blinding method. Imaging: Functional near infrared spectroscopy (fNIRS) measurements will be recorded at baseline, immediately following rTMS, and at one month and 3-month follow-ups post-rTMS to investigate changes in brain physiology associated with rTMS treatment. fNIRS data will be recorded over the frontoparietal cortex at a sampling rate of 3.91 Hz, using the TechEn fNIRS system (TechEn Inc., Milford, MA USA). Each recording will consist of a 5 min rest period, followed by a finger tapping exercise, and a graded working memory task, previously described by Hocke et al (2018). The fNIRS data will be processed and analyzed for task-evoked activation using an ordinary least squares method of general linear modeling, as implemented in the NIRS Brain AnalyzIR Toolbox. Blood Samples: Blood samples will be collected from a certified phlebotomist at the Heritage Medical Research Clinic located in the Cal Wenzel Precision Health building at the Foothills Medical Centre Campus. Analysis will focus on blood biomarkers of inflammation and CNS injury. Statistical Analysis: Outcome parameters within each specific group (rTMS, sham, sex, PTSD diagnosis) will be analyzed by a one-way repeated measures analysis of variance (RM-ANOVA). ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04568369
Study type Interventional
Source University of Calgary
Contact
Status Active, not recruiting
Phase N/A
Start date May 2, 2020
Completion date March 2024

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