17 Clinical Trials for Various Conditions
The purpose of this study is to assess the ability of the home-based intervention, HOBSCOTCH-PTE, to improve the quality of life and cognitive function in Service Members, Veterans and civilians with post traumatic epilepsy (PTE). This study will also assess the ability of the HOBSCOTCH-PTE program to improve quality of life in caregivers of PTE patients and to reduce caregiver burden.
This prospective double blind phase II study seeks to evaluate the safety and efficacy of BRC-003, a high CBD investigational product, in the treatment of refractory PTE (Post-Traumatic Epilepsy). The research is divided into two phases: an open-label dose-finding phase (Part A) and a subsequent randomized controlled phase (Part B). This design aims to provide a thorough understanding of the investigational product's impact on seizure frequency, seizure severity, mood, anxiety, sleep, and quality of life.
To test whether measures of cortical excitability derived from motor cortex transcranial magnetic stimulation (TMS) in patients with traumatic brain injury reflect heightened excitability relative to healthy controls and whether such measures can be used to distinguish patients with post-traumatic epilepsy from patients with head trauma but no epilepsy
This study plans to evaluate the time course of inflammation in the brain after a moderate to severe traumatic brain injury using positron emission tomography (PET) brain imaging. Patients will undergo PET scans of the brain at two weeks and two months after injury to measure neuro-inflammation. The results of the PET scans will be analyzed and correlated with the risk of post-traumatic epilepsy.
Head injury is the cause of approximately 5% of all epilepsy in the US. Past attempts at preventing epilepsy by treatment with older antiepileptic drugs have been unsuccessful. Levetiracetam is a novel AED with potent antiepileptogenic properties in animal models of epilepsy. It has a favorable side effect and pharmacokinetic profile. It is therefore a strong candidate for a clinical trial of epilepsy prevention following traumatic brain injury (TBI). However, there has been no experience in administering levetiracetam rapidly to individuals with acute TBI. The investigators propose to initiate the evaluation of levetiracetam in prevention of post-traumatic epilepsy by determining the safety, tolerability, pharmacokinetics and feasibility of acute and chronic administration of levetiracetam to individuals with head injury with a high risk for developing post-traumatic epilepsy. Further, the investigators will follow subjects for 2 years after injury in order to obtain pilot data about effect of levetiracetam on PTE. This pilot study is the first step in evaluation of levetiracetam in prevention of post-traumatic epilepsy.
The purpose of this research is to evaluate a 6 month change in quality of life in subjects who receive collaborative care calls compared to those subjects who receive usual neurology care. This is a 2-site trial comparing a 24 week neurology-based collaborative care program to usual neurology care among a total of 60 adults with post-traumatic epilepsy.
The overarching goal of this study is to improve understanding of the long-range natural history of TBI and post-traumatic epilepsy (PTE) by extending follow-up of a previously enrolled cohort (TRACK-TBI) beyond the first 12 months after injury.
The Epilepsy Learning Health System (ELHS) is a quality improvement and research network to improve outcomes for people with epilepsy. The ELHS is designed as a model of value-based chronic care for epilepsy as envisioned by the National Academies of Medicine Committee in their landmark reports "The Learning Health System" and "Epilepsy Across the Spectrum: Promoting Health and Understanding". The ELHS network is a collaboration among clinicians, patients and researchers that promotes the use of data for multiple purposes including one-on-one clinical care, population management, quality improvement and research. The ELHS Registry includes data on children and adults with epilepsy collected during the process of standard epilepsy care. These data are used to create population health reports and to track changes in outcomes over time. ELHS teams use quality improvement methods, such as Plan-Do-Study-Act (PDSA) cycles, to continuously learn how to improve care.
This multi-site study will examine patients with epilepsy (ES) following head injury \[i.e., posttraumatic epilepsy (PTE)\] and posttraumatic psychogenic Non-epileptic seizures (PNES) and will compare them to patients with traumatic brain injury (TBI) who do not have seizures using functional neuroimaging.
This study will provide initial data on the safety and effectiveness of allopregnanolone in improving neurobehavioral outcome and reducing mortality in adults with moderate and severe traumatic brain injury.
The investigators propose that patients who receive targeted pharmacotherapy (sertraline) or focused psychotherapy (cognitive behavioral therapy-informed psychotherapy (CBT-ip) for NES) or combined treatment (CBT-ip + sertraline) will report fewer nonepileptic seizures (NES) compared to patients who receive community care / treatment as usual (TAU). The purpose of this study is to provide pilot testing and data to inform the future multicenter randomized controlled trial based on the hypothesis.
The objective of this study is to utilize high-frequency brain signals (HFBS) to localize functional brain areas and characterize HFBS in epilepsy, migraine, and other brain disorders. Our goal is to create the world's first high-frequency MEG/EEG/ECoG/SEEG database for the developing brain. HFBS include high-gamma activation/oscillations, high-frequency oscillations (HFOs), ripples, fast ripples, spikelets, fast spikelets, and very high-frequency oscillations (VHFOs). While terminologies and frequency bands may vary among reports, both HFOs and high-gamma waves are crucial for understanding brain function and developing potential treatments for neurological disorders. We have been developing an intelligent software platform to analyze signals from low to very high-frequency ranges across multiple frequency bands. To achieve these goals, we have developed several innovative techniques and software packages: * Accumulated spectrogram * Accumulated source imaging * Frequency-encoded source imaging * Multi-frequency analysis at source levels * Artificial intelligence detection of HFOs * Neural network analysis (Graph Theory) * Other techniques (e.g., Independent Component Analysis, virtual sensors) These methods enable researchers to better understand the characteristics and significance of HFOs and high-gamma brain waves, contributing to advancements in the diagnosis and treatment of neurological disorders.
The investigators propose that treatment of the comorbid disorders (depression, anxiety, and impulsivity) with sertraline in patients with lone psychogenic nonepileptic seizures (NES), will result in a decreased number of NES. The purpose of this study is to provide pilot testing and data to inform the future randomized controlled trial based on the hypothesis.
This study will be focused on assessing the molecular, physiological, and emotional correlates of an intensive meditation experience in the context of a retreat setting in a large 2000 plus-person cohort comprised of healthy and clinical populations.
The objective is to understand how amygdala activation affects other medial temporal lobe structures to prioritize long-term memories. The project is relevant to disorders of memory and to disorders involving affect and memory, including traumatic brain injury and post-traumatic stress disorder.
This will be a multistate, multicenter clinical study to determine the efficacy and safety of medical cannabis for a wide variety of chronic medical conditions.
Investigate myelin alterations in patients with neurosurgical diseases