257 Clinical Trials for Various Conditions
The use of Hyberbaric Oxygen Therapy (HBOT) would be a new treatment plan rather than conventional rest. If effective, this new use technology would add to the clinical treatment among mild traumatic brain injury (mTBI) patients. The use of a point of care Glial Fibrillary Acidic Protein (GFAP) biomarker would aid in clinical decision making to create a new care plan of return to sport among unarmed combat athletes who suffer from mTBI. The innovation would be a new treatment and diagnosis strategy that will protect these athletes from serious long-term sequelae. There are no published randomized controlled studies using HBOT to treat concussed athletes within one week of injury. There are no published studies using GFAP levels to predict post concussive symptoms (PCS).
Mild traumatic brain (mTBI) injury affects 400,000 U.S. Veterans resulting in physical, cognitive and mental health symptoms. The Department of Defense (DoD) reported 26 suicides a day from mTBI despite ongoing care for the Veterans. The purpose of this pilot research study is to evaluate the effect of treating Veterans suffering from mTBI or persistent post-concussion syndrome with hyperbaric oxygen therapy (HBOT).
The purpose of this study is to develop and validate ways to provide better patient education and clinical management for individuals who go to the emergency department (ED) with concussion or mild traumatic brain injury (mTBI).
Decision Rules for an initial CT-scan in patients arriving to Emergency Department (ED) and presenting a mild traumatic brain injury could be optimized by the use of an objective parameter easily and rapidly measured. This may be the place for serum biomarkers providing a quick and accurate assessment. BioMérieux has now developed an automated assay for the measurement of serum Glial Fibrillary Acidic Protein (GFAP) and Ubiquitin C-terminal Hydrolase (UCH-L1), the VIDAS® TBI assay to fill out this unmet needs. The goal of the herein study is to generate real-world data and evidences to support the VIDAS® TBI performances.
A two site, 2-arm, Phase III randomized pragmatic clinical trial evaluating the effectiveness of quetiapine monotherapy in comparison to Treatment As Usual (TAU) medication management for symptoms experienced by veterans receiving rehabilitation therapy for mild traumatic brain injury (mTBI) and comorbid symptoms of posttraumatic stress disorder (PTSD).
The goal of this study is to complete a pilot study testing the feasibility and acceptability of low-intensity pulse-based transcranial stimulation (LIP-tES) neurofeedback intervention for reducing photosensitivity symptoms in Veterans with a history of mild traumatic brain injury (mTBI). The study will also complete resting-state MRI scans to assess neurophysiological markers of photosensitivity and changes associated with LIP-tES intervention.
The investigators previously developed a virtual 14-day dual-task walking exercise program and tested its feasibility with individuals with mild traumatic brain injury (mTBI) history. The investigators will test the feasibility and efficacy of a mobile app-version (Uplode) of the same 14-day exercise program (Brain \& Walk Exercise Every Day \[BraW-Day\]), on cognition, sensorimotor, and other functions in a group of voluntary young adults with an mTBI between last three months to two years, including student athletes, Veterans, and ethnic minorities.
Mild traumatic brain injury (mTBI) often causes persistent motor and cognitive deficits in children resulting in functional limitations. We are testing a brain stimulation method along with evaluating objective tools to help record and restore communication among affected brain areas, which will facilitate recovery in youth after mTBI.
The investigators hope to develop a treatment for suicidal ideation (SI), impulsivity and functional impairments (such as difficulties in social and work settings) that occur after a mild traumatic brain injury (mTBI). These conditions have been shown to be linked. The investigators are using a high-powered magnetic pulse, called intermittent theta burst stimulation (iTBS) applied to the head to see if it can improve these symptoms. The high-powered magnetic pulse causes certain cells in the brain to activate, which seems to strengthen connections between parts of the brain. The purpose of this research is to gather early information on the safety and effectiveness of iTBS provided to the front of the head for impulsivity, SI and functional deficits after mTBI. The investigators plan to use the data collected in this study to develop larger studies in the future. iTBS is FDA approved, but not for these specific symptoms, or in the specific location the investigators are placing it. The investigators are testing to see if its effective for the above conditions when applied to the front of the head.
The goal of this clinical trial is to examine the feasibility, utility, and efficacy of a smartphone-based assessment battery and remotely administered virtual Neuromuscular/Dual-Task (vNDT) intervention among healthy U.S. military service members and physically active young adults with a recent concussion.
The purpose of this study is to develop a highly portable, ruggedized diagnostic tool for concussion, EyeBOX Lens (EBLens), that can be utilized in deployed field and far-forward settings. The EBLens will be based on a concussion diagnostic algorithm from the FDA cleared EyeBOX device, developed by Oculogica, and eye-tracking data collected from a wearable set of eye-tracking glasses, developed by Adhawk Microsystems. Once the EBLens is prototyped, an algorithm for diagnosing concussion will be developed that is specifically appropriate for the EBLens via a case-control clinical study comparing 100 concussed to 100 non-concussed subjects (Phase I). Participants, age 18-35 years, will be recruited from the KACH research team and affiliated providers and clinical sites. Concussed individuals will be assessed within 72 hours of concussion. Demographics, basic medical history, symptom severity, a visio-vestibular exam and the EBLens scan will be collected on both injured cases and uninjured controls at a single time point. The algorithm and the EBLens will be validated in a subsequent, prospective cohort validation study (Phase II) designed for FDA submission. The correlation of the EBLens output with resolution of symptoms will also be observed in longitudinal follow-up of concussed participants in the validation study. The participant population for this study will be cadets recruited from the USMA and young athletes recruited from affiliated sites during baseline concussion testing. Participants will be assessed at baseline at the start of their academic year or sports season. Those participants who experience a concussive injury will be assessed again at three time points; 1) within 72 hours of injury, 2) weekly until and at the time of initiation of a graded return to activity protocol, and 3) upon clearance for unrestricted RTP/RTD.
This study will probe if the biological changes in amnestic mild cognitive impairment (aMCI) are related to a history of mild traumatic brain injury (mTBI) using high definition transcranial direct current stimulation (HD-tDCS) and blood-derived biomarker tools. Participants who Do as well as those who Do Not have a history of mTBI will be enrolled in the study.
The main objective of this interdisciplinary study is to develop an understanding of the molecular imaging features of blast-related mild traumatic brain injury (mTBI) in military personnel, while helping to establish assessment tools that may be of use in diagnosis, determining prognosis, and in future therapeutic clinical trials. Additionally, the objective is to evaluate feasibility of \[18F\]PI-2620 in the assessment TBI.
Rebion has developed a device, the Rebion trauma tool (referred to as the head and intraocular trauma tool, or "HITT"), that detects ocular fixation and alignment using a binocular retinal scan. Preliminary data obtained from hospitalized patients with a clinically-confirmed traumatic brain injury (TBI) and uninjured controls indicates that the device can detect changes in ocular fixation, alignment, and saccades that are related to brain injury. This study seeks to evaluate the ability of the Rebion trauma tool to assess perturbations in eye movements resulting from TBI. The study will enroll 100 TBI patients and 100 controls.
Rebion has developed a device, the Rebion trauma tool (referred to as the head and intraocular trauma tool, or "HITT"), that detects ocular fixation and alignment using a binocular retinal scan. Preliminary data obtained from hospitalized patients with a clinically-confirmed traumatic brain injury (TBI) and uninjured controls indicates that the device can detect changes in ocular fixation, alignment, and saccades that are related to brain injury. This study seeks to evaluate the ability of the Rebion trauma tool to assess perturbations in eye movements resulting from TBI. The study will enroll 100 TBI patients and 100 controls.
This study aims to explore possible solutions needed for valid and reliable multidimensional objective assessment tools to use in screening performers for concussions, as well as, for use postinjury assessment and management of the mild traumatic brain injury, regardless of time since injury occurrence. These mobile tools would also enable clinicians to test the effectiveness of the interventions used post-concussion, prior to fully releasing the performer back into full performance/active status.
The purpose of the study is to test whether low level electric stimulation, called transcranial Direct Current Stimulation (tDCS), on the part of the brain (i.e., presupplementary motor area) thought to aid in memory will improve verbal retrieval in military veteran participants with histories of traumatic brain injuries. The primary outcome measures are neuropsychological assessments of verbal retrieval, and the secondary measures are neuropsychological assessments of other cognitive abilities and electroencephalography (EEG) measures. Additionally, the study will examine the degree to which baseline assessments of cognition and concussion history predict responses to treatment over time, both on assessments administered within the intervention period and at follow-up.
The purpose of this study is to determine whether growth hormone replacement therapy (GHRT) is effective versus placebo in the improvement of Quality of Life in patients with adult growth hormone deficiency (AGHD) and mild traumatic brain injury (mTBI).
Objective: This 3-year multisite RCT will determine the effectiveness of a targeted multidomain intervention (T-MD) (anxiety/mood, cognitive, migraine, ocular, vestibular; and sleep, autonomic) compared to usual care (behavioral management) in military-aged civilians with complex mTBI.
This study will establish the capability of a suite of conventional tests and the Neurolign Dx_100 I-PAS goggle system to reliably and objectively detect mTBI in an acute setting when comparing individuals with mTBI to controls with minor injuries in a similarly stressful environment.
A pilot study to evaluate feasibility for a full-scale merit application. Specifically, for veterans considering prolonged exposure (PE) therapy, following the model established by Foa et al, we need to establish safety, and feasibility of quetiapine compared to treatment as usual (TAU) which employs multiple medications commonly used for PTSD in the VA system.
With an average of 21,000 diagnosed brain injuries each year among military personnel, traumatic brain injury (TBI) remains a major health concern for the United States Military Health System. Mild traumatic brain injury (mTBI) is the most common type of brain injury sustained by military personnel and may result in chronic cognitive impairment.Unfortunately, many service members (SMs) have a history of multiple head injuries as well as psychological co-morbidities that negatively influence recovery. Advances in treatment options for cognitive rehabilitation following mTBI have been of increasing interest to the medical community and may increase treatment efficacy for injured SMs to ensure force readiness. Cognitive Rehabilitation (CR) for severe brain injury focuses on compensatory strategies for activities of daily living such as using lists to remember grocery items or reminders to take medications and attend medical appointments. Research has shown CR interventions to have considerable effectiveness in the acute and sub-acute phase of recovery after severe TBI. But there is insufficient evidence that they improve rates of individuals returning to work, independence in activities of daily living (ADL), community re-integration, or quality of life.
The investigators will test the central hypotheses according to the following Specific Aims: Aim 1. Determine if an individually prescribed exercise program initiated within the first week of mild traumatic brain injury can reduce the risk of developing persistent post-concussion symptoms relative to usual care. The investigators hypothesize that the exercise group will have a lower risk of developing persistent post-concussion symptoms than the usual care group. Aim 2. Examine the effect of a two-month exercise program on psycho-social, pain interference, and sleep outcomes following mild traumatic brain injury. The investigators hypothesize the exercise group will report lower anxiety, depression, and pain interference ratings, and higher peer relationship and sleep quality ratings two months of exercise following mild traumatic brain injury compared to usual care.
The proposed study tests the efficacy (Phase II) of 36 30-minute training sessions of PATH neurotraining followed by digit memory exercises to improve working memory, processing speed and attention in mTBI patients rapidly and effectively to provide clinical testing of a therapeutic training for the remediation of cognitive disorders caused by a concussion. This study will contribute to the fundamental knowledge of how to remediate concussions from a mTBI to enhance the health, lengthen the life and reduce the disabilities that result from a mTBI.
This study aims to determine the validity and safety of disparity driven vergence using a portable goggle system (I-PAS) using a pseudorandom ternary sequence of frequencies for testing.
SMART is an interactive web-based program that will allow youth with mild traumatic brain injuries (mTBI) to monitor their symptoms and receive education on problem-solving and coping strategies. This study will evaluate the effectiveness of SMART as a means of improving symptom-management, coping skills, and general well-being during recovery from mTBI. Half of participants will receive the SMART intervention, while half will receive usual care.
Using the Blink Reflexometer, athletes are scanned if they are potentially thought to have a concussion during a game or practice.
The purpose of this single center, longitudinal, pilot study is to provide evidence for the use of an eye tracking system as an objective tool to identify mild traumatic brain injury (mTBI) related oculomotor dysfunction (OMD) and predict the effectiveness of neurovision rehabilitation (NVR) of OMD. Eye tracking visual stimulus measurements will be compared to objective developmental optometrist (OD) diagnosis and assessments. It will be determined whether an eye tracking system can predict the presence or absence of mTBI related OMD and whether mTBI patients who have OMD based on the eye tracking system will respond positively to NVR.
Persistent headache is one of the most common debilitating symptoms in military personnel suffering from mild traumatic brain injury (MTBI). This study aims to assess the long-term effect of repetitive transcranial magnetic stimulation (rTMS) in managing MTBI related headaches for up to 2-3 months by comparing the treatment effect of active-rTMS to sham-rTMS.
Mild traumatic brain injury (mTBI) from explosions is the "signature injury" of Veterans who have deployed to the wars in Afghanistan and Iraq. Although the immediate effects of a single mTBI usually resolve over days or weeks, multiple mTBIs can lead to both persistent symptoms and, years later, to two fatal progressive brain diseases, chronic traumatic encephalopathy (CTE) and Alzheimer's disease (AD). It is believed that CTE and AD are caused by nerve damaging chemicals called tau and beta amyloid produced by the brain but which are not removed from the brain in a normal manner in persons with mTBIs. The investigators will determine in Veterans who experienced mTBIs whether a clinically available drug called prazosin increases removal of tau and beta amyloid from the brain. This will be accomplished by seeing if prazosin reduces the amount of tau and beta amyloid in the spinal fluid that surrounds the brain. If the investigators find such reductions, prazosin will be evaluated as a preventative treatment for CTE and AD in future studies.