22 Clinical Trials for Various Conditions
Our successful R01 discovered 1) the neural mechanistic difference between typically occurring convergence insufficiency (TYP-CI) and binocularly normal controls and 2) the underlying mechanism of office-based vergence and accommodative therapy (OBVAT) that is effective in remediating symptoms. Adolescent and young adult concussion is considered a substantial health problem in the United States where our team has shown that about half of patients with persistent post-concussion symptoms have convergence insufficiency (PPCS-CI), causing significant negative impact associated with reading or digital screen-related activities, and is believed to be one factor causing delayed recovery impacting return to school, sports, or work. The results of this randomized clinical trial will impact the lives of adolescents and young adults with PPCS-CI to guide professionals on how to manage and treat those with PPCS-CI by 1) comparing the differences between PPCS-CI and TYP-CI, 2) discovering the neural mechanism of OBVAT for PPCS-CI compared to standard-community concussion care, and 3) determining the effectiveness of 12 one-hour sessions compared to 16 one-hour sessions of OBVAT.
The current project will examine the effect of a brief psychological intervention on post-concussion symptoms, neurocognitive function, cerebral blood flow (CBF), and psychophysiological and salivary cortisol markers of autonomic nervous system (ANS) in a sample of 20 participants between 13-25 years of age who experience long-term post-concussive (PC) symptoms 2-9 months post-injury as well as 20 age- and sex-matched controls (non-injured) participants to provide normative data on all the above measures except for concussive symptoms.
The proposed study will address a very important issue for the VA both currently and in the future -- the high percentage of OIF/OEF/OND Veterans who have been medically diagnosed with a mild traumatic brain injury (mild TBI) and experience distressing symptoms. "Smart phone" mobile applications have become a primary source of information and communication among large percentages of Americans, especially those of the OIF/OEF/OND generation. The proposed study is a 4-year randomized control trial investigating the utility of an interactive, self-management smartphone application, "TBI Coach," one of a suite of mobile applications developed by VA. The primary goal of the proposed study is to evaluate the efficacy of TBI Coach for improving clinical outcomes in those with a history of mild TBI and to determine what aspects of TBI Coach are most useful to Veterans. An overarching goal of this line of research is to improve access among Veterans with mild TBI who still have symptoms months to years after injury. Objectives. The study will pursue the following objectives: 1. Evaluate the efficacy of TBI coach for improving clinical outcomes among recipients of TBI Coach. 2. Determine the aspects of TBI Coach most associated with positive outcomes. 3. Obtain qualitative information on factors associated with use of TBI coach or with deriving benefit from use of TBI Coach that can be used to inform future modifications of the application and wide scale implementation.
This two-part study seeks to improve symptoms such as pain and sleep problems after concussion, or mild traumatic brain injury (mTBI). Study I evaluates symptoms of mTBI through a series of 10 office sessions in which musical tones are echoed, or mirrored back in real time, to reflect one's own brain activity. Those who take part in the study will be randomly assigned to receive either tones that are based on their brain activity/brainwaves, or random tones. Study II evaluates symptoms of mTBI through either 10 office sessions of the same acoustic stimulation linked to brain activity/brainwaves as Study I compared to 5 office sessions of acoustic stimulation plus intermittent very low level electrical stimulation of the scalp linked to brain activity.
Concussion or mild traumatic brain injury (TBI) is a challenging injury for physicians to manage and is among the most serious disabling neurological disorders. Physician awareness regarding manifestations of TBI and subsequent treatment are paramount to reduce the burden of disease. Advancements in treatment of mild TBI have been slow with a lack of consensus on treatment methods that show universal success. This gap in treatment choices provides an opportunity for osteopathic manipulative treatment (OMT) to fill. OMT is a hands-on manual therapy that can be integrated to help treat post-concussive symptoms. Previous studies have shown that OMT can help resolve imbalance and tinnitus in elderly populations and case studies have shown that this manual therapy may assist in patient recovery. The investigators hypothesize that OMT will decrease return to play/work time, will show an improvement in balance, and will decrease concussion symptoms as compared to counseling.
The purpose of this research study is to determine the number of children who have symptoms of a concussion at the time they are scheduled for orthopedic surgery at Boston Children's Hospital. It is currently unknown if anesthesia affects a child with a previously diagnosed concussion. This study is the first phase of a two-part study looking at the effects of anesthesia in children undergoing orthopedic surgery with a previous concussion. Currently, the decision to continue with surgery in patients with a diagnosed concussion is based on clinical judgment by the patients.
This study aims to examine the long-term effect of repetitive transcranial magnetic stimulation (rTMS), a non-invasive brain stimulation technique, on chronic headaches following mild traumatic brain injury (mTBI). rTMS has been shown to be effective in reducing chronic headaches without side effects commonly seen in medications, such as sleepiness and addiction. This study uses rTMS to manage chronic headaches to improve post-concussion symptoms and reduce the economic burden due to delayed recovery. This project aims to better identify biomarkers for diagnosis and prognosis and maximize recovery from mTBI.
The purpose of this study is to explore the functional and physiological effects associated with the use of High-resolution, relational, resonance-based, electroencephalic mirroring (HIRREM), as supplemental care, for symptoms of neurological, cardiovascular, and neuropsychological disorders. This is a non-randomized, open label, and unblinded before-and-after trial, evaluating the effect of HIRREM on an objective, physiological common denominator (heart rate variability, HRV), across a variety of relevant conditions, as well as changes in clinical symptoms inventories, to generate hypotheses and pilot data for investigation in future proposals.
The purpose of the research study is to understand the effectiveness of a six-week course of light exposure on cognitive functioning, mood, activity, and sleep in people that have suffered a head injury leading to a concussion.
Mild traumatic brain injuries (mTBI) or "concussions" are an increasingly prevalent injury in our society. Patients with post-concussion syndrome have been shown to have deficits on tests of short term memory, divided attention, multi-tasking, information processing speed, and reaction time, as well as alteration in mood and emotional functioning. Many patients have other vague complaints including fatigue, dizziness, irritability, sleep disturbances, and chronic headaches. Furthermore, sleep disruption of one of the most common complaints in patients suffering from traumatic brain injuries, with as many as 40 to 65% of patients with mTBI complaining of insomnia. Sleep problems in these patients are associated with poorer outcome, while resolution of the sleep disturbance is associated with improvement in cognitive functioning. Despite recent evidence of the correlation between sleep quality and recovery from traumatic brain injury, and the well-established role of sleep in neural plasticity and neurogenesis, there have been virtually no direct studies of the causal effects of sleep on recovery following mTBI. However, it is quite likely that sleep plays a critical role in recovery following brain injury. A particularly promising non-pharmacologic approach that shows potential in improving/modifying abnormalities of the circadian rhythm and sleep-wake schedule is bright light therapy. For the proposed investigation, we hypothesize that bright light therapy may be helpful in improving the sleep of patients with a recent history of mTBI and may also have other mood elevating effects, both of which should promote positive treatment outcome in these individuals. Bright light therapy may increase the likelihood that they will recover more quickly, benefit more extensively from other forms of therapy, and build emotional and cognitive resilience.
The purpose of this study is to find out if 3% hypertonic saline (salt-water solution) given in a vein improves the headache that may be caused by a concussion. 3% hypertonic saline may also improve some of the other symptoms that may be caused by concussion (for example: confusion, nausea, vomiting). This research is being done because there have been previous experience which suggests that 3% hypertonic saline has been beneficial in the treatment of children with more severe brain injury.
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 goal of this hybrid implementation-effectiveness study is to evaluate the effectiveness (hastened recovery times) and feasibility (fidelity in connecting to concussion specialty care) of a novel mobile health intervention, designed to reduce disparities in access to specialty care through the use of remote patient monitoring (RPM) to facilitate care hand-off from the emergency department (ED) to concussion specialty care. Participants will report their symptoms and activity once daily through RPM chat technology that is linked to their electronic health record and prompts referral to specialty care.
The purpose of this study is to examine whether 40 hyperbaric oxygen sessions has effect on long-term symptoms after brain injury. This study will enroll 90 individuals with persistent problems 6 months to 10 years after a brain injury. These individuals will be randomized to receive either oxygen or air in a pressurized hyperbaric chamber. Participants will receive 40 daily hyperbaric chamber sessions. Participants will have a series of tests and questionnaires before they begin their chamber sessions, after they complete 40 sessions, and 6 months after they joined the study. These tests include computer-based and pencil-and-paper questionnaires and thinking tests, brain imaging, a neurological examination, and an eye exam. Participants will also be asked to provide blood for future research. After the 6-month tests are complete, all participants will receive 40 hyperbaric oxygen sessions, then undergo the same tests at 9 months and 12 months.
A group of clinicians and researchers developed an 8-session group intervention that integrates education, support, self-reflection, and action-expectation to help people reaffirm or reconstruct self-grounded purpose after significant life events/transitions. The 8 sessions extend over 2-3 months, with 7 weekly sessions and the final session 1 month after Session 7. The intervention, called the Compass Course is structured around the 6 dimensions of flourishing (autonomy, self-acceptance, personal growth, relationships, purpose in life, external mastery), the goal of which is to help people enact behaviors that move them forward in reframing a sense of self and reaffirming or reconstructing a sense of purpose in their daily lives. Participating in this research will involve an introduction session, where informed consent will be obtained, followed by the 8-session intervention for 9 sessions in total. A team composed of researchers from Courage Kenny Rehabilitation Institute (CKRI) propose to recruit a convenience sample of individuals who were hospitalized with COVID-19 to evaluate the efficacy of administering the Compass Course to a novel population, to improve psychological well-being, engagement in everyday activities, and purpose in life. A focus group will be scheduled 2 months after the completion of the Compass Course. This session is composed of brief questionnaires and designed to obtain post-course data to help evaluate the Compass Course intervention.
SPECIFIC AIMS While post-concussive symptoms following sports-related concussion are typically transient and resolve spontaneously within two weeks of concussive injury, 14% or more of youth who sustain concussion experience significant morbidity that can persist well beyond the normal disease course.Furthermore, post-concussive symptoms commonly co-occur with affective symptoms including depression and anxiety which when present can prolong recovery from primary post-concussive symptoms. Together, persistent physical and psychological symptoms confer protracted functional impairment and create a significant burden for affected youth, their family, and school. Currently, there are no evidence-based guidelines to inform treatment of persistent post-concussive symptoms in youth and adolescents. In response to the dearth of evidence-based treatment approaches for youth with persistent post-concussive symptoms, the investigators developed a novel collaborative care treatment model that simultaneously targets post-concussive symptoms and co-occurring depression and anxiety. Athletes and their family members receive patient navigator care management services that bridge post-injury care across acute care, specialist and primary care health service delivery sectors, in addition to cognitive behavioral psychotherapy. Patients who remain symptomatic after initial treatment efforts receive stepped-up care that may include psychopharmacologic consultation. The Investigators have demonstrated feasibility of the intervention model through a pilot randomized-control trial of 49 adolescents with persistent post-concussive symptoms recruited from a regional children's hospital. Participants assigned to the intervention condition demonstrated significant and clinically-meaningful reductions in post-concussive and depressive symptoms as well as health-related quality of life as compared to adolescents in the usual care arm of the trial.
This is a prospective randomized controlled trial comparing two different physical therapy approaches to the treatment of posttraumatic headache with autonomic symptoms. AIM 1: To establish the efficacy of SPINEPASS against Standard Physical Therapy to reduce headache disability and impact amongst patients with persistent post-concussion headache. AIM 2: Demonstrate the superiority of SPINEPASS in the efficient self-management of headache. Demonstrate its appropriateness, acceptability, and feasibility and gain patient insights among patients with PPTH compared to standard PT.
The goal of this study is to investigate a new treatment for chronic symptoms after concussion or mild traumatic brain injury in people aged 18-65 years old. Chronic symptoms could include dizziness, headache, fatigue, brain fog, memory difficulty, sleep disruption, irritability, or anxiety that occurred or worsened after the injury. These symptoms can interfere with daily functioning, causing difficulty returning to physical activity, work, or school. Previous concussion therapies have not been personalized nor involved direct treatments to the brain itself. The treatment being tested in the present study is a noninvasive, personalized form of brain stimulation, called transcranial magnetic stimulation (TMS). The investigators intend to answer the questions: 1. Does personalized TMS improve brain connectivity after concussion? 2. Does personalized TMS improve avoidance behaviors and chronic concussive symptoms? 3. Do the improvements last up to 2 months post-treatment? 4. Are there predictors of treatment response, or who might respond the best? Participants will undergo 14 total visits to University of California Los Angeles (UCLA): 1. One for the baseline symptom assessments and magnetic resonance imaging (MRI) 2. Ten for TMS administration 3. Three for post-treatment symptom assessments and MRIs Participants will have a 66% chance of being assigned to an active TMS group and 33% chance of being assigned to a sham, or inactive, TMS group. The difference is that the active TMS is more likely to cause functional changes in the brain than the inactive TMS.
This study investigated the utilization of CranioSacral Therapy (CST) in patients with Post-Concussion Syndrome (PCS) and capture patient-reported perceptions of their lived experiences of treatment effect upon their symptoms. The first part part was a 10 year chart review of patients who sought out CST to capture data from the medical records. The second part was an anonymous post treatment survey.
This prospective randomized intervention study aims to determine if the Concussion Symptom Treatment Program (C-STEP), a cognitive behavioral therapy, improves outcomes for children with post-concussion syndrome.
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
To compare the efficacy of a sub-threshold aerobic exercise intervention provided with mobile health coaching (STEP-mhc) and a light stretching program (LS) to LS alone for 11-18 yo youth with persistent concussion symptoms.