110 Clinical Trials for Various Conditions
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.
Rapidly evolving virtual reality (VR) and augmented reality (AR) technologies are being incorporated by many large-scale industries, and the medical field is no exception. One area that has gained significant attention in recent years is virtual rehabilitation which allows physical therapists to leverage state-of-the-art immersive virtual environments to uniquely address functional deficits in patients who are unresponsive to conventional treatment techniques. Advanced VR and AR technologies are now available in commercially available small-scale, mobile head-mounted displays which can be readily used in outpatient clinic settings and possibly at home. The aim of this study is to determine whether advanced VR- and AR-based physical therapy improves functional status and reduces self-reported symptoms in individuals experiencing vestibular disorders secondary to mild traumatic brain injury (mTBI). Study participants will be randomized into treatment groups: 1) conventional therapy, 2) therapy performed using a large-scale VR system (the Computer Assisted Rehabilitation Environment or CAREN), 3) therapy performed using a mobile AR. Upon completion of treatment, groups will be compared to determine functional outcome improvements with respect to static and dynamic balance as well as reduction of vestibular symptoms.
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.
Mild traumatic brain injury (mTBI) and posttraumatic stress disorder (PTSD) are important conditions for the Veterans Administration (VA) that frequently occur together in combat Veterans from the conflicts in Afghanistan and Iraq. In many Veterans these become chronic, raising the risk the burden of neurotrauma can worsen over time. This study will examine a new intervention called non-invasive Vagal Nerve Stimulation (nVNS) and its effects on memory and symptoms of PTSD and mTBI as well as brain and physiology in Veterans with mTBI and PTSD.
The purpose of the study is to validate the clinical outcome in patients with closed head injuries (GCS 14-15, ages 18-85) who are being evaluated for head trauma, integrating the BrainScope One structural injury classifier (SIC) algorithm, with focus on SIC negative classification. In addition, to assess functional impairment (concussion) in these patients, results from Brain Function Index (BFI) or Concussion Index (CI) algorithms will be used for analysis.
This study will evaluate neurofeedback (NFB) training as a low risk, non-invasive, effective treatment for Veterans diagnosed with mild traumatic brain injury (mTBI) and experiencing chronic post-concussive symptoms (PCSs). It is being funded by the Department of Veterans Affairs. Doing this study will help to determine if NFB will reduce chronic headaches and enhance sleep, attention and quality of life in Veterans with mTBI. NFB is like other biofeedback processes in which information about a person's specific body functioning is made known to the person through a special computer program, which can help that person make the specific body function work better through training. This type of training is usually fun and easy with the help of a coach and a computer. Nothing is ever put into a person's body with biofeedback and it is natural and safe. When a person becomes focused, calm and alert while training on an NFB system, the computer will recognize this and let the trainee know by automatically displaying on the computer screen the positive progression of the game they are playing, such as the plane moving forward or a flower opening. The brain really likes to be in this pattern and when it is happening, people feel good. As a result, any discomforts, like headaches or insomnia, experienced may decrease. After learning about the study, Veterans who agree to participate will be randomly placed into one of two groups, either an intervention group (who will receive NFB) or a control group (who will receive only usual care plus once a week 15-minute calls on health topics). Veterans will have an equal chance of being in either group. Those placed in the control, will also receive NFB after completion of the control group activities. Veterans who are placed in the intervention or delayed intervention group will receive NFB up to 5 times a week, but usually 3 times a week for a total of 20 sessions. Each session is an hour long. Both the intervention and control group will participate in four assessment sessions (lasting up to 2 1/2 hours each) that involve completing 12 questionnaires and a 20-minute attention evaluation. The assessment sessions will occur at the beginning of the study, at 4-6 weeks, at 8-10 weeks, and 2-months later. The participant will receive financial compensation for taking the baseline assessment, 4-6 week, 8-10-week assessments, and for the 2-month follow-up assessment. A participant will receive financial compensation for gas, time and valet parking for each intervention and assessment session. Participation in this research will last about 4 months for those in the intervention and 8 months for those in the delayed intervention group. All participants will receive the NFB treatment by the end of the study. A person who participates in this study may experience a reduction in his or her chronic headaches, and an enhancement of sleep, attention and quality of life. There may be a worsening of symptoms until the individualized training plan for a person can be identified. During an NFB session, brief moments, lasting only seconds or minutes, of dizziness while sitting, muscle tension, or tingling may be experienced. Most people feel relaxed and calm during and after NFB training. This project will be an important step towards a broader implementation of an evidence-based treatment solution for Veterans experiencing chronic headaches, insomnia and attention disorders. The experience of these chronic symptoms can lead to debilitation in all areas of Veterans' lives. This project will provide evidence for the use of NFB with Veterans to alleviate their chronic symptoms and enhance their quality of life. If supported, NFB will offer the investigators' Veterans an effective and non-invasive treatment option. NFB is a patient focused intervention that enables Veterans the opportunity for self-health management.
This study will determine (i) the magnitude of immediate and sustained effects of a current clinical standard interactive computer attention processing training (APT) when combined with intermittent theta burst stimulation (iTBS), a type of repetitive transcranial magnetic stimulation and (ii) determine how APT + iTBS changes the neurocognitive system of attention in individuals with persistent attention deficits related to mTBI +/- PTSD.
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.
The objective of the study is to determine the relative roles for various testing modalities in the diagnosis and prognosis of mild traumatic brain injury.
This is a prospective, longitudinal cohort study to evaluate the associations between indices of brain structure and function (measured at baseline, as soon as possible after injury) and course of post-traumatic stress disorder (PTSD) symptoms. Subjects will be service members who have sustained mild traumatic brain injury (classified as either "impact-induced mTBI" or "blast-induced mTBI"; n = 100 completers) or an extracranial injury (ECI) with no evidence of traumatic brain injury (TBI) (n = 100 completers). Subjects will complete an assessment battery at baseline and 6 months later that includes (1) structural magnetic resonance imaging (MRI) and diffusion tensor imaging (DTI) derived from a 3-Tesla magnet; (2) event-related brain potentials (ERPs) derived from brain electrical activity; (3) neurocognitive tests; and (4) neurological soft signs (NSS). Specific indices of brain structure and function derived from these assessments are hypothesized to demonstrate a significant relationship with course of PTSD symptoms, which will be measured at baseline, 3 months, and 6 months.
Purpose of this study is to investigate the mechanisms of action of hyperbaric oxygen therapy for persistent post-concussive symptoms after mild tramatic brain injury
This is a Phase II randomized trial designed to describe the magnitude of change between baseline and follow-up outcomes for symptom surveys and a battery of neuropsychological tests administered at time points corresponding before and after 10 weeks over observation in four groups: * A military population with post-concussion syndrome (mTBI) receiving local standard care * A military population with post-concussion syndrome (mTBI) receiving local standard care and sham hyperbaric oxygen sessions * A military population with post-concussion syndrome (mTBI) receiving local standard care and hyperbaric oxygen at 1.5 atmospheres sessions * A otherwise similar group with PTSD but no history of TBI receiving local standard care Differences and variability of the tests will be used for determining the optimum primary endpoint(s) for future trial, as well as for refinement of sample size and power calculations for these studies. The groups undergoing hyperbaric sessions will be assigned to receive HBO2 or sham using a randomized, double blind design. Active duty military (Army, Marine, Navy, Air Force) men and non-pregnant women residing in the United States and who will remain in the military for the entire study period, aged 18-65 years who have been deployed one or more times to the US Central Command since the initiation of Operation Enduring Freedom (October 7, 2001) who either: * have been diagnosed with Post Traumatic Stress Disorder (PTSD) as a result of traumatic events that occurred during the qualifying CENTCOM deployment, but have no diagnosed or suspected lifetime brain injuries resulting in loss or alteration of consciousness; OR * have been diagnosed with at least one mild brain injury (mTBI) with persistent (\> 4 months) symptoms sustained during one or more of those deployments
Concussions are incredibly common, and often result in severe and long lasting symptoms, including, but not limited to, sleep deprivation and emotion dysregulation. This study aims to demonstrate the therapeutic benefits of sleep extension (napping) on emotion regulation in individuals after they sustain a concussion. Thus, sleep extension may be a cost-effective, low risk, supplemental treatment for those with emotion dysregulation following a concussion. The main questions it aims to answer are: 1. Is a nap an effective way to improve emotion regulation in individuals with a concussion? 2. Does a nap reduce the required executive resources necessary to regulate emotions in individuals with a concussion?
Six primary care practices within a large Philadelphia pediatric care network will use an electronic Clinical Decision Support (eCDS) tool as standard care for concussion evaluation. The eCDS tool will include a prediction rule for children aged 5-18 assessed for mild traumatic brain injury (mTBI). The eCDS tool predicts risk for persistent symptoms and prompts referral to specialty care for those deemed high risk. This research proposes to analyze the clinical and process outcomes in these six practices relative to the rest of the care network, specifically, whether the eCDS tool reduces time to symptom resolution.
The purpose of this research is to determine whether military veterans and service members with mild traumatic brain injury with and without co-occurring substance use can complete and benefit from integrated interdisciplinary care individualized to their symptoms, goals, and needs. Participants will complete surveys about substance use and other symptoms at the beginning and end of treatment in an intensive outpatient program and 6 months after discharge.
The proposed study will evaluate a new approach to cognitive rehabilitation of mTBI using a brain stimulation technique called "Remotely Supervised Transcranial Direct Current Stimulation combined with Cognitive Training" (RS-tDCS+) which has shown promise for improving complex attention in both healthy and clinical populations. RS-tDCS+ is a home-based, low-risk, non-invasive technique that is designed to boost cognitive training by enhancing learning and the brain's ability to reorganize connections. This study will evaluate RS-tDCS+ for improving complex attention in Active Duty Service Members (ADSM) and Veterans with a history of mTBI. Different tests of complex attention and symptom questionnaires will be used to determine the effects of real versus sham (placebo) RS-tDCS+. Second, the investigators will investigate electrical and connectivity changes in the brain associated with RS-tDCS+ using electroencephalogram (EEG) and magnetic resonance imaging (MRI). Third, the investigators will investigate the lasting effects of any observed changes by evaluating participants at 1 and 6 weeks post-treatment. Lastly, the investigators will explore the impact of individual differences (e.g., PTSD, depression, sleep quality, time since injury, baseline impairment, age, sex, ADSM versus Veteran) on treatment outcome.
Current clinical assessment tools are often not sensitive enough to detect and treat some subtle (yet troubling) problems after mTBI. In this study, the investigators will use wearable sensors to both assess and treat people with mTBI. Specifically, the investigators will provide immediate feedback, with visual and/or auditory, on movement quality during physical therapy. This immediate feedback on performance may improve outcomes as the investigators will measure multiple body segments including head movements simultaneously with balance and walking exercises. Such complex movements are needed for safe return to high level activity and military duty. The investigators will test this approach against a standard vestibular rehabilitation program. There are few potential risks to this study such as increasing symptoms and a small fall risk. Benefits include physical therapy for balance problems regardless of therapy with or without biofeedback. An indirect benefit is to have data on correct dosage of physical therapy. The investigators will also distinguish which concussion subtype profiles benefit most from physical therapy. This will help healthcare providers and patients by providing more information to help establish clinical guidelines and new tools for physical therapy.
The goal of this observational study is to develop and validate a clinical tool to predict which adolescents aged 11 to less than 18 years of age with mild traumatic brain injury (mTBI) are at an increased risk for developing significant new or worsening mental health conditions. The main aims the study wish to answer are: * Does the adolescent have new or worsening depression or anxiety defined as a change from their previous medical history using self-reported questionnaires at either one or three months post-injury? * Does the adolescent have unmet mental health care needs, defined as not receiving any mental or behavior health care in patients with new or worsening anxiety or depression as defined by the self reported questionnaires? Participants will be enrolled after being diagnosed in the emergency department (ED) with an mTBI. During the ED visit, the child's parent/caregiver and the adolescent will complete several questionnaires related to mental health which include tools to measure anxiety and depression. Participants will be asked to complete these questionnaires again at 1 month and 3 months post enrollment.
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).
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 60 TBI patients and 20 controls.
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.
The primary goal of this clinical trial is to evaluate whether Personalized Augmented Cognitive Training (PACT) plus intermittent theta burst stimulation (iTBS) is effective for treating depression in Service Members, Veterans, and civilians who have sustained a mild TBI. Participants will receive PACT plus 20 sessions of iTBS or sham iTBS over 4 weeks. Assessments will occur at baseline, 2 weeks, 4 weeks, and 8 weeks. Researchers will compare the PACT+iTBS group to the PACT+sham iTBS group to see if PACT+iTBS is associated with more depression improvement.
The investigator aims to conduct a pilot randomized controlled trial to test the feasibility of two symptom management programs for college-age individuals with recent concussions and anxiety, TOR-C 1 and TOR-C 2. The investigator will assess the feasibility of recruitment procedures (screening, eligibility, and enrollment) and data collection as well as the feasibility, credibility, and acceptability of the programs (adherence, retention, fidelity, and satisfaction), following prespecified benchmarks. Both programs will be delivered virtually (Zoom).
Veterans with mild traumatic brain injury (mTBI) and post-traumatic stress disorder (PTSD) commonly experience cognitive impairments including attention and executive function deficits that interfere with their ability to engage in productive personal and social activities. Of the limited interventions available to address cognition, none rigorously train attention beyond strategy management. This study will evaluate an innovatively combined strategy training known as Goal Management Training plus computerized attention training in Veterans with mTBI/PTSD. Preliminary testing suggests an effectiveness in improving problem solving, attention and functional tasks in a small number of Veterans. Considering these promising results, cost effectiveness, and the demand for access to care from Veterans living in rural areas, a Randomized Controlled Trial will determine and compare the effects of this treatment, administered either in-person or via telehealth, on executive function, attention, other aspects of cognition and real life functional tasks.
This study will assess the combined effectiveness of repetitive transcranial magnetic stimulation (rTMS) and telehealth based therapy in helping manage mild traumatic brain injury (mTBI) related headaches. The investigators hypothesize that active rTMS combined with telehealth therapy will provide marked reduction in mTBI related headaches and symptoms in comparison to their placebo counterparts.
This study aims to assess the effect and safety of erenumab compared to placebo for the treatment of acute posttraumatic headache (PTH) in military service members and civilians with mild traumatic brain injury (mTBI).
This study will develop and validate a new ED/Urgent Care discharge educational video that provides positive assurance about mild traumatic brain injury (mTBI) recovery for patients with mTBI.
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 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).
The objectives of this VA SPiRE application are to develop a combined neuromodulation and yoga (iTBS+yoga) intervention for Veterans with mild traumatic brain injury (mTBI) and chronic pain, assess the intervention's feasibility and acceptability, and to gather preliminary clinical outcome data on quality of life, function and pain that will guide future studies. This SPiRE project will directly benefit Veterans and VA Services by developing a new, non-pharmacological neurorehabilitation treatment for Veterans with mTBI and chronic pain in need of non-opioid treatment options. Neuromodulation is now offered at 30 VA hospitals and yoga is among the complementary and integrative health programs being rolled out as a part of VAs Whole Health implementation efforts. Thus, should iTBS+yoga ultimately prove to be efficacious, VA facilities will be well-poised to offer this treatment. A novel, activity-based, non-pharmacological treatment for Veterans with mTBI and chronic pain is of great need given the high prevalence of chronic pain.