12 Clinical Trials for Various Conditions
Traumatic brain injury has a high morbidity and mortality in both civilian and military populations. Blast and other mechanisms of traumatic brain injury damage the brain by causing neurons to disconnect and atrophy. Such traumatic axonal injury can lead to persistently vegetative and minimally conscious states, for which extremely limited treatment options exist, including physical, occupational, speech and cognitive therapies. More than 50,000 patients have received vagus nerve stimulation for epilepsy and depression. In addition to decreased seizure frequency and severity, patients report enhanced mood, reduced daytime sleepiness independent of seizure control, increased slow wave sleep, and improved cognition, memory, and quality of life. The purpose of this study is to demonstrate objective improvement in clinical outcome by placement of a vagus nerve stimulator in patients who are recovering from severe traumatic brain injury. Our hypothesis is that stimulation of the vagus nerve results in increased cerebral blood flow and metabolism in the forebrain, thalamus and reticular formation, which promotes arousal and improved consciousness, thereby improving outcome after traumatic brain injury resulting in minimally conscious or persistent vegetative states. If this study demonstrates that vagus nerve stimulation can safely and positively impact outcome, then a larger randomized prospective crossover trial will be proposed. The investigators will achieve this objective by evaluating whether vagus nerve stimulation impacts clinical recovery from minimally conscious or persistent vegetative states caused by traumatic brain injury as assessed by the FIM™ instrument and Functional Assessment Measure (FIM+FAM) as well as the JFK Coma Recovery Scale Score. The investigators will also evaluate whether vagus nerve stimulation alters resting and activational functional MRI. Twelve patients will be enrolled in this initial crossover pilot study. These patients will have sustained a severe traumatic brain injury (Disability Rating Scale score of 22 to 29) more than twelve months from starting the study, and have no other concurrent active severe medical problems. Baseline EEG and magnetic resonance imaging (MRI) will be performed prior to left vagus nerve stimulation implantation. Patients will be randomized to alternating three month periods with the device on or off. Outcomes will be assessed at three month intervals with the FIM™ instrument and Functional Assessment Measure (FIM+FAM) and JFK Coma Recovery Scale by a neuropsychologist blinded to the status of the device. Outcomes will also be assessed using quantitative eye movement tracking and functional magnetic resonance imaging. Patients will cross over every 3 months and be followed for at least 18 months.
The purpose of this study is to test the drug apomorphine in subjects who are in a Vegetative State or a Minimally Conscious State.
The goal of this clinical trial is to explore the effect of FDA-approved antiseizure drugs in the brain connectivity patterns of severe and moderate acute brain injury patients with suppression of consciousness. The main questions it aims to answer are: * Does the antiseizure medication reduce the functional connectivity of seizure networks, as identified by resting state functional MRI (rs-fMRI), within this specific target population? * What is the prevalence of seizure networks in patients from the target population, both with EEG suggestive and not suggestive of epileptogenic activity? Participants will have a rs-fMRI and those with seizure networks will receive treatment with two antiseizure medications and a post-treatment rs-fMRI. Researchers will compare the pretreatment and post-treatment rs-fMRIs to see if there are changes in the participant's functional connectivity including seizure networks and typical resting state networks.
When patients survive a severe brain injury but fail to fully recover, they often enter a Disorder of Consciousness (DoC) --that is, a set of related conditions of decreased awareness and arousal including the Vegetative State (VS) and the Minimally Conscious State (MCS). When these conditions become chronic, there are no approved treatments to help bolster any further recovery. In prior work, we have shown the clinical feasibility and potential of Low Intensity Focused Ultrasound Pulsation (LIFUP) as a remarkably safe form of non-invasive brain stimulation in these conditions.
The purpose of the study is to determine whether familiar vocal stimulation, provided during coma recovery, improves outcomes for persons who are unconscious after severe TBI. The primary hypothesis is that unconscious persons who receive standard rehabilitation (SR) plus a high-dose of Familiar Voice stimulation (FVs) compared to unconscious persons who receive SR plus a sham stimulation (Sham Group) will demonstrate: 1. Significantly more neurobehavioral functioning post-intervention compared to pre-intervention. 2. Using Functional Magnetic Resonance Imaging (fMRI), significantly higher average measures of volumetric activity in the whole brain, middle temporal gyrus bilaterally, primary auditory area, bilateral pre-frontal cortex, hippocampus and/or the cerebellum post-intervention compared to pre-intervention.
In this study, hospitalized patients will first be surveyed regarding their interest in a traditional advanced directive (AD) and then in a modified AD.
The overall aim of this study is to develop an intervention that can help recovery in patients surviving severe brain injury but failing to fully recover. In particular, this multicenter project aims to (1) establish short-term efficacy of tFUS as a therapeutic to promote recovery in patients with prolonged DoC as compared to sham treatment, (2) establish dose-related safety and efficacy of tFUS as a therapeutic intervention in prolonged DoC patients and (3) explore preliminary predictors and biomarkers of susceptibility and response to thalamic sonication.
Disorders of consciousness (DoC) caused by severe brain injury affect millions of people worldwide each year. A patient's level of consciousness in the intensive care unit (ICU) significantly impacts the recovery from disability and is a primary determinant of family decisions about withdrawal of life-sustaining therapy (WLST). However, reliable assessment of consciousness in the ICU remains elusive. Transcranial magnetic stimulation-electroencephalography (TMS-EEG) is a tool that has shown the best performance in detecting signs of consciousness in patients with chronic DoC. The goals of this prospective, observational study are to demonstrate the diagnostic performance and prognostic utility of TMS-EEG in the ICU setting.
The goal of this clinical trial is to test how effective the mindBEAGLE device is in allowing people who are unconscious (due to a brain injury or other condition) to communicate using brain waves to answer Yes/No questions. Participants will wear a cap that will be connected to a computer that measures brain waves, wrist bands that vibrate at different strengths, and ear phones that create different levels of loud tones and will be asked to associate Yes/No answers with the vibrations or tones. They will also be asked to "think about" moving different parts of their body to answer Yes or No. The mindBEAGLE device has already been proven effective for this kind of communication in a previous study, and the study team would like to trial it on a population of unconscious people who enter the UPMC Rehabilitation Institute to see if patients are able to be trained to use the device as part of their everyday inpatient rehabilitation until they are discharged, or until they are able to regain consciousness.
The purpose of this project is to further develop a standardized music-based measure used in music therapy with adults who have emerged from coma following profound brain injury, but are not able to demonstrate responsiveness to their environment due to complex clinical needs. Building on previous work, the project aims to strengthen the psychometric properties (e.g. concurrent validity, responsiveness) of the measure for its use with adults with profound brain damage.
This is a study to evaluate the safety and efficacy of the IBRF ACP/MCP intervention protocol in patients with severe disorders of consciousness (SDOC).
The purpose of this study is to examine the safety and efficacy of repetitive transcranial magnetic stimulation (rTMS) combined with Amantadine relative to rTMS Alone and Amantadine Alone for persons in chronic states of seriously impaired consciousness. The hypothesis is that provision of rTMS+Amantadine will provide a safe yet synergistic effect that induces or accelerates functional recovery.