77 Clinical Trials for Various Conditions
Life-threatening mass effect (LTME) arises when brain swelling displaces or compresses crucial midline structures subsequent to acute brain injuries (ABIs) like traumatic brain injury (TBI), ischemic stroke (IS), and intraparenchymal hemorrhage (IPH), which can manifest rapidly within hours or more gradually over days. Despite advancements in surgical management, significant gaps in understanding persist regarding optimal monitoring and therapeutic approaches. The current standard for identifying LTME involves neurologic decline in conjunction with radiographic evidence or increased intracranial pressure (ICP) indicating space-occupying mass effect. However, in critically ill patients, reliance on subjective physical exam findings, such as decreased arousal, often leads to delayed recognition, occurring only after catastrophic shifts have already occurred. The goal of this study is to determine the association of non-invasive biomarkers with neurologic deterioration, and to determine whether non-invasive biomarker inclusion improves detection of outcome and decline. The investigators propose to use various non-invasive methods to monitor ICP as adjuncts in detecting deteriorating mass effect. These methods include quantitative pupillometry, radiographic data, laboratory data, and other bedside diagnostic tests available including electroencephalography (EEG), skull vibrations detected via brain4care device, optic nerve sheath diameter assessment (ONSD), and ultrasound-guided eyeball compression. Some of these methods will be measured \*only\* for the purposes of the research study (such as skull vibrations via brain4care). Other measurements, such as quantitative pupillometry, will represent additional measurements beyond those already being collected for clinical care. This research study is necessary to understand the association of these non-invasive biomarkers with neurological decline and outcomes while considering potential confounding factors.
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.
The purpose of this study is to pilot a psychosocial skills-based intervention for caregivers of patients with severe acute brain injuries. The data the investigators gather in this study will be used to further refine our COMA-F intervention.
The use of quantitative, automated, infrared technology for pupillary examination has long been used in ophthalmology and anesthesiology research. Its interest in neurocritical care has progressively grown, in parallel with the advancements in device technology. In this regard, the use of the noninvasive NPi®-200 pupillometer (Neuroptics, Laguna Hills, California, USA) allows the measurement of a series of dynamic pupillary variables (including the percentage pupillary constriction, latency, constriction velocity, and dilation velocity), which can be integrated into an algorithm, to compute the Neurological Pupil index (NPi). The NPi is a proprietary scalar index with values between 0 and 5 (with a 0.1 decimal precision), an NPi value \< 3 indicating an abnormal pupillary reactivity. Importantly, the NPi is not influenced by sedation-analgesia, at the doses used in neurocritical care practice, and by mild hypothermia. Preliminary single-center data recently demonstrated that abnormal NPi is associated with worse outcome in patients with traumatic and hemorrhagic ABI, and can be a useful adjunct for ICP monitoring and therapy. There is currently a great need for quantitative tools to predict early prognostication in ABI patients, and the NPi appears of potential great value. We hypothesize that: 1. Abnormal NPi (defined as NPi \<3) are strongly predictive of poor GOS-E (1-4) at 6 months after the acute event. 2. NPi=0 is strongly predictive of mortality (GOS 1). 3. Abnormal NPi is predictive of a higher ICP 20 index (number of end-hourly measures of ICP \>20 mm Hg divided by the total number of measurements, multiplied by 100) and a greater burden of interventions needed to control ICP (measured by the Therapy Intensity Level scale for ICP management, Therapy Intensity Level (TIL) 4). Methods This international multicentre prospective observational study aims to recruit \>400 patients admitted to intensive care units. Duration of the study 18 months, including 12-month of recruitment based on 60 patients/centre plus 6 months GOS-E follow-up.
Severe and refractory pain after acute injury is a known-risk factor for chronic opioid use disorder. In this study, the investigators will use Virtual Reality (VR) immersion as a non-pharmacological adjunct to treat pain associated with acute traumatic injuries, including traumatic brain injury. The investigators hypothesize that VR therapy will decrease pain and reduce opioid use in patients with acute traumatic injuries, including TBI.
Severe acute brain injury (SABI), including large artery acute ischemic stroke, intracerebral hemorrhage, and severe traumatic brain injury continue to be the leading cause of death and disability in adults in the U.S. Due to concerns for a poor long-term quality of life, withdrawal of mechanical ventilation and supportive medical care with transition to comfort care is the most common cause of death in SABI, but occurs at a highly variable rate (for example in Traumatic Brain Injury (TBI) 45-89%). Decision aids (DAs) are shared decision-making tools which have been successfully implemented and validated for many other diseases to assist difficult decision making. The investigators have developed a pilot DA for goals-of-care decisions for surrogates of SABI patients. This was developed through qualitative research using semi-structured interviews in surrogate decision makers of TBI patients and physicians. The investigators now propose to pilot-test a DA for surrogates of SABI patients in a feasibility trial.
By doing this study, the investigator hopes to learn how the levels of important proteins involved in inflammation change over time in patients with acute brain injury. The total amount of time participants will be asked to volunteer for this study is approximately two hours over a five day period.
The purpose of this study is to assess the safety and efficacy of daily morning exposure to colored light in patients receiving acute inpatient rehabilitation services for stroke, traumatic brain injury, or non-traumatic brain injury with sleep disturbances such as poor nighttime sleep and/or excessive daytime sleepiness.In a two-arm randomized placebo-controlled study with pre-exposure and post-exposure assessments, we are comparing the effects of daily morning exposure to either blue light or red light on objective sleep quality, subjective sleep quality, functional rehabilitation outcomes, cognitive symptoms, fatigue, and neurological symptoms.
In the search for a novel marker of stroke that could be rapidly assessed in blood, the investigators developed a point-of-care (POC) lateral flow device (LFD) that rapidly (\< 15 min) detects levels of a biomarker that is released into blood following neuronal injury associated with stroke and traumatic brain injury. The protein's expression in human brain should serve as a useful biomarker of neuronal injury in stroke and traumatic brain injury.
Background. Early rehabilitation programs (ERP) that include physical, occupational, and speech therapies lessens debilitation and promotes return to previous physical and cognitive functioning and have been successfully applied in adult intensive care units (ICUs). Despite the fact that critically ill children with acute brain injury (ABI) are at increased risk of life-long disability and stunted development, benefits of ERP for this group have not been studied and are not standard of care in pediatric ICUs. Objectives. The aims of this study are 1) To better understand current practices and barriers to use of these therapies and 2) To subsequently evaluate ERP vs. usual care in children with ABI in the ICU by randomizing children to these groups and measuring outcomes. We expect that ERP therapies are underutilized in the PICU and that outcomes in the ERP group will be superior compared to the usual care group. Methods. The first task of this research program is to survey healthcare professionals (physicians, nurses, allied health) and families of children in the ICU about their hospital's resources, current practices, and barriers to ERP. This survey will be distributed to the 78 sites affiliated with the Pediatric Acute Lung Injury and Sepsis Investigators (PALISI), a group of clinicians and researchers dedicated to improving child outcomes from critical illness. Next, we will enroll 175 children with ABI in a randomized, controlled trial of ERP versus usual care. Children enrolled in ERP will begin therapies by 48 hours of ICU admission and those in the usual care group will begin therapies when these services are ordered by treating physicians. Children aged 3-17 years with ABI expected to be admitted to the ICU \> 48 hours due to trauma, infection, low oxygen, or low blood flow to the brain are eligible. Therapy interventions are individualized for the child's clinical status. The effectiveness of ERP will be measured using the Vineland Behavior Adaptive Scale (VABS) pre-ABI and 6 months post-ABI. This test, validated for children, assesses a child's physical and cognitive function as well as behavior. Other tests will be performed that assesses child and family quality of life and length of hospital admission. Our outcome tests were chosen because 1) They are the most important outcomes to families of children as surveyed in our ICU and 2) They are outcomes that can be influenced by ERP. Summary. This is the first and largest study designed to evaluate whether ERP improves outcomes for critically ill children with ABI. We anticipate that rehabilitation practices in ICUs will be unprotocolized and under-utilized. We expect that patients in the ERP group will have superior adaptive and quality of life outcomes, outcomes important to families, without increasing adverse events compared to patients in the usual care group.
This is a prospective pilot study evaluating the safety and feasibility of implementing the ketogenic diet in children admitted to the pediatric intensive care unit with acute brain injury such as stroke, traumatic brain injury, and intracerebral hemorrhage. Animal studies suggest that in the aftermath of injury the brain's ability to use glucose as a fuel is impaired. The ketogenic diet is a high fat, low carbohydrate diet which is already used in clinical practice for the treatment of medication resistant epilepsy and is intended to switch the body over to burning fat rather than carbohydrates for fuel. In lieu of their standard tube-feeds, 5-10 children admitted to the PICU with these diagnoses will receive low carbohydrate, high fat ketogenic feeds for 2 weeks. We hypothesize that ketones will be detectable through serum tests and MRI spectroscopy studies of the brain within several days of diet initiation, and that there will be a low incidence of side effects and adverse events, Measures of interest will include the incidence of kidney stones, excessive acidosis and excessive hypoglycemia. The feasibility of implementing this protocol for a larger efficacy trial will be assessed through serial measurements of blood glucose, beta-hydroxybutyrate (a type of ketone body), and serum bicarbonate levels. In addition, levels of ketone bodies within the brain will be measured through MRI spectroscopy sequence which will be acquired at the same time as a follow-up MRI brain study ordered for clinical purposes.
The purpose of this study is to assess the feasibility of exenatide infusion for the treatment of high blood sugars following acute brain injury.
The primary objective is to characterize the prevalence and type of ABI following cannulation for pediatric patients who require ECMO support. The secondary objective is to describe the time course and rates of ABI using ultralow-field bedside MRI relative to both duration of ECMO support and clinical imaging obtained in routine care of pediatric ECMO patients.
This is a study of adult patients with a severe and sudden brain injury who have a drain placed in their brain to measure pressure. The purpose of the study is to monitor the pressure in the brain using a monitor placed on the forehead, and compare this to a drain placed in the brain.
The investigators will compare a dyadic intervention (Recovering Together) with an attention placebo educational control in dyads of patients with acute neurological illnesses and their caregivers at risk for chronic emotional distress. The primary aim of this study is to determine the feasibility, credibility, and satisfaction with Recovering Together. The second aim is to show proof of concept for sustained improvement in emotional distress, post traumatic stress (PTS), resiliency and interpersonal communication outcomes in patients and caregivers.
Patients who experience lung injury are often placed on a ventilator to help them heal; however, if the ventilator volume settings are too high, it can cause additional lung injury. It is proven that using lower ventilator volume settings improves outcomes. In patients with acute brain injury, it is proven that maintaining a normal partial pressure of carbon dioxide in the arterial blood improves outcomes. Mechanical ventilator settings with higher volumes and higher breathing rates are sometimes required to maintain a normal partial pressure of carbon dioxide. These 2 goals of mechanical ventilation, using lower volumes to prevent additional lung injury but maintaining a normal partial pressure of carbon dioxide, are both important for patients with acute brain injury. The investigators have designed a computerized ventilator protocol in iCentra that matches the current standard of care for mechanical ventilation of patients with acute brain injury by targeting a normal partial pressure of carbon dioxide with the lowest ventilator volume required. This is a quality improvement study with the purpose of observing and measuring the effects of implementation of a standard of care mechanical ventilation protocol for patients with acute brain injury in the iCentra electronic medical record system at Intermountain Medical Center. We hypothesize that implementation of a standardized neuro lung protective ventilation protocol will be feasible, will achieve a target normal partial pressure of carbon dioxide, will decrease tidal volumes toward the target 6 mL/kg predicted body weight, and will improve outcomes.
Early prediction of outcomes after acute brain injury (ABI) remains a major unsolved problem. Presently, physicians make predictions using clinical examination, traditional scoring systems, and statistical models. In this study, we will use a novel technique, "SeeMe," to objectively assess the level of consciousness in patients suffering from comas following ABI. SeeMe is a program that quantifies total facial motion over time and compares the response after a spoken command (i.e. "open your eyes") to a pre-stimulus baseline.
The primary object of the study is to further characterize safety and feasibility of low-field bedside MRI in pediatric and neonatal ECMO patients. To perform imaging assessments of an early-stage magnetic resonance imaging (MRI) system on patients using low field magnetic strength. Collect qualitative data from the image assessments to optimize device performance using a low field magnetic resonance imaging device in a simulated use environment; Collect qualitative data from the image assessments using a high field magnetic resonance imaging, computed tomography and ultrasound devices. Generate anonymized image data for post-acquisition evaluation, performance measuring and planning for subsequent study size
This study aims to assess the feasibility of assessing acute brain injury using a portable low field MRI in patients on ECMO.
This is a single institutional registry database for the patients with stroke and cerebrovascular diseases. Stroke is the fifth leading cause of death in the United States. Despite extensive research, most of the patients die or suffer from varying degree of post-stroke disabilities due to neurologic deficits. This registry aims to understand the disease and examine the disease dynamics in the local community.
This study utilizes multimodal brain imaging to obtain quantitative biomarkers of brain injury and to improve understanding of the biological basis of brain pathology in adolescents with concussion. Adolescents with a concussion will undergo neuroimaging and neuropsychology assessments acutely and four months after injury.
The purpose of this single-center, prospective, randomized (1:1), double-blind, sham-controlled parallel-arm pilot study is to provide initial evidence of use of the noninvasive vagus nerve stimulator for treatment in patients recovering from concussion and moderate traumatic brain injury to improve clinical recovery. The study compares the safety and effectiveness of an active gammaCore treatment against a sham treatment.
The use of aerobic exercise treatment in the chronic phase of concussion recovery is well-described in the literature but there are limited existing data on the effect of exercise treatment in the acute phase after sport-related concussion (SRC). This study will compare the outcomes of adolescents with a recent SRC who are randomized to sub-threshold aerobic exercise versus those randomized to placebo stretching to evaluate the effect of aerobic exercise in the acute recovery phase.
Optic Nerve Ultrasound (ONUS) is a promising non-invasive tool for the detection of raised Intracranial Pressure (ICP). Variability in the optimal Optic Nerve Sheath Diameter (ONSD) threshold corresponding to elevated ICP in multiple studies limits the value of ONUS in clinical practice. The investigators goal is to develop and validate an automated image analysis algorithm for standardization of ONSD measurement from ultrasound videos. Patients with acute brain injury requiring invasive ICP monitoring will undergo bedside ONUS, with blinded ONSD measurement by an expert investigator. The image analysis algorithm will then be used to measure ONSD and accuracy determined compared to the "reference standard" expert measurement.
The goal of this observational study is to explore the relationship of heart function with the course and outcomes after traumatic brain injuries and nontraumatic intracerebral hemorrhage. The goal is to explore association between routinely collected hemodynamic and brain monitoring data. Participants already taking intervention A as part of their regular medical care and the investigators will follow up with participants 6 months after discharging the hospital.
This is a Phase 1, multi-center, randomized, double-blind, placebo-controlled, multiple-ascending- dose trial to evaluate the safety, tolerability, immunogenicity, and pharmacokinetics of intravenous PNT001 in hospitalized patients with traumatic brain injury.
The study includes people who have recently had a traumatic brain injury (TBI) and healthy controls who have not had a TBI and is designed to measure brain blood flow serially after a TBI. Studies have shown that small blood vessels in the brain may be injured during a TBI. The goal is to learn about brain blood vessel function from as early as the first week to 6 months after a TBI . The study uses Near Infrared Spectroscopy (NIRS) which uses small lights that detect oxygen levels in the blood, measuring blood flow in the brain. This is compared with magnetic resonance imaging (MRI). When blood flow increases in the brain in response to a stimulus, this is called cerebral vascular reactivity (CVR). The study aims to learn about CVR using a few minutes of special breathing similar to breath holding while in an MRI (magnetic resonance imaging), and CVR measures after one dose of a common drug called sildenafil (generic Viagra) 50 mg taken once during CVR measurements at each of up to 4 visits. The investigators will measure CVR at different times during a 6-month period in participants who have had a TBI to see how CVR measures and blood vessels function during the first 6 months after a brain injury.
The objective of this study is to evaluate the efficacy of magnesium in symptomatic reduction of mild traumatic brain injury in the adolescent population in the acute setting of injury.
Sports-related concussions are a serious problem in football, boxing, and other full contact sports. After experiencing consecutive concussions, there is an increase in neurological deficits that can lead to long-term cognitive problems (Dementia pugilistica). To combat this increase in brain damage, novel strategies need to be developed to protect athletes that are participating in these full contact sports. The purpose of this study is to elucidate whether resveratrol decreases brain injury and improves brain function after experiencing a concussion in boxers.
Induction of hypothermia to \< 35˚C by \< 2.5 hours after severe traumatic brain injury, reaching 33˚C by 4 hours after injury and maintained for 48 hours in patients aged 16-45 will result in an increased number of patients with good outcomes at six months after injury compared to patients randomized to normothermia.