92 Clinical Trials for Various Conditions
The goal of this clinical trial is to see if silent brain infarcts (SBIs), or stroke-like symptoms detectable during brain imaging, are a possible contributor to cognitive decline for patients diagnosed with spontaneous intracerebral hemorrhage (sICH), or blood clot in the brain. The main questions it aims to answer are * if SBIs in sICH are associated with a lower cognitive level and more rapid cognitive decline * if SBIs in sICH are associated with certain findings on brain imaging * if SBIs in sICH are associated with higher inflammation measured by certain blood tests Participants will undergo * cognitive testing during hospitalization, and at 3, 6 and 12 months after the sICH * Magnetic Resonance Imaging (MRI) of the brain during hospitalization and 12 months after the sICH * blood draws during hospitalization and at 3, 6 and 12 months after the sICH
This study will evaluate whether non-invasive auricular vagal nerve stimulation lowers inflammatory markers, and improves outcomes following intracerebral hemorrhage.
The investigators propose to perform serial detailed cognitive, motor, behavioral, and blood collection follow-up using longitudinal structured telephone interviews of an anticipated 350 ICH survivors enrolled in Minimally Invasive Surgery Plus Alteplase for Intracerebral Hemorrhage Evacuation (MISTIE) III and ENRICH trials to identify specific cognitive and motor impairment and to perform RNA sequencing to evaluate for evidence of chronic inflammation. The investigators' expected sample size in 2022 accounts for mortality attrition of 10%/year.
Postoperative rebleeding is a major limitation of surgical evacuation for intracerebral hemorrhage (ICH). While computed tomography (CT) is the standard of care for postoperative hematoma cavity monitoring, CT requires significant physical and financial costs. Studies have demonstrated varying degrees of efficacy when using transcranial ultrasound to measure ICH volume. Recently, synthetic implants for cranioplasty have been shown to be safe and sonolucent. This study aims to evaluate the ability of transcranial ultrasound with sonolucent cranioplasty (TUSC) to detect and quantify bleeding in postoperative ICH patients.
This first-in-patient phase 2a pilot study will assess the safety and tolerability of MW01-6-189WH (hereafter called MW189) in patients with Intracerebral Hemorrhage (ICH).
The purpose of this research study is to determine whether blood pressure treatment regimens with spironolactone are better than blood pressure treatment regimens without spironolactone at lowering blood pressure in stroke survivors.
This registry will study the use of the Aurora® Surgiscope to provide surgical access and visualization in minimally invasive removal of hematoma in the brain. Many methods of hematoma removal are available and will be based on surgeon preference. The impact of patient selection and time to surgery from last known well time will be explored.
The purpose of this study is to test the safety and effectiveness of a single dose of fingolimod in patients with primary spontaneous intracerebral hemorrhage (ICH).
This study aims to determine whether in-bed cycle ergometry, early in the hospital course after a brain hemorrhage could balance damaging and reparative inflammation in the brain. Inflammatory factors of two groups of patients with brain hemorrhage will be compared, one group will receive in-bed cycling beginning 3 days after hemorrhage plus usual care and the other group will receive usual care only.
The objectives of the RECONFIG clinical study are to : 1. To identify the time to the first diagnosis of cognitive motor dissociation (CMD) in intracerebral hemorrhage (ICH) patients and to investigate whether these patients will clinically follow commands earlier after the hemorrhage. 2. To determine whether CMD independently predicts long term functional outcomes (6-month mRS scores) in ICH patients, and is associated with long term cognitive and quality of life outcomes. 3. To determine the EEG response to verbal commands of the motor imagery paradigm between patients with and without sensory aphasia. The overall goal is to determine predictors and the trajectory of neurological recovery.
Non-traumatic intracerebral hemorrhage (ICH) affects approximately 100,000 Americans yearly. Up to 30-50% of ICH is fatal, and those patients who survive are often left with significant neurologic dysfunction. In the past, medical management (e.g., control of hypertension, reversal of antiplatelet or anticoagulants) had been the most effective treatment for these patients, given the morbidity and mortality associated with open surgical treatment for evacuation of ICH. However, recent trials have demonstrated that minimally invasive stereotactic neurosurgical procedures to evacuate ICH are safe and result in improved outcomes for these patients. Initial attempts to evaluate the efficacy of surgical evacuation of ICH found no significant difference between medical management and standard craniotomy for surgical evacuation. Indeed, open surgery was often discouraged for these patients due to the significant morbidity and mortality associated with the surgical procedure itself. However, research has demonstrated that minimally invasive, image guided stereotactic frame-based and frameless methods are effective and safe for the placement of catheters for clot aspiration and fibrinolytic therapy of ICH in the basal ganglia and other deep seated regions. Larger randomized controlled trials have demonstrated that these minimally invasive approaches also offer clinical benefit for these patients.
The overall goal of this study is to develop mesenchymal stem cell therapy for treatment of acute spontaneous hemorrhagic stroke.
The primary objective of this multicenter randomized controlled study is to compare the safety and efficacy of minimally invasive hematoma evacuation with the Artemis Neuro Evacuation Device to best medical management for the treatment of intracerebral hemorrhage (ICH).
This is a randomized, placebo-controlled, subject and investigator-blinded study to evaluate efficacy, safety and tolerability of BAF312 in participants with intracerebral hemorrhage (ICH)
The goal of this study is to preliminarily determine/estimate feasibility and whether frequent and early conivaptan use, at a dose currently determined to be safe (i.e., 40mg/day), is safe and well-tolerated in patients with cerebral edema from intracerebral hemorrhage (ICH) and pressure (ICP). A further goal is to preliminarily estimate whether conivaptan at this same dose can reduce cerebral edema (CE) in these same patients. This study is also an essential first step in understanding the role of conivaptan in CE management. Hypothesis: The frequent and early use of conivaptan at 40mg/day will be safe and well-tolerated, and also reduce cerebral edema, in patients with intracerebral hemorrhage and pressure.
This is a multicenter, randomized, adaptive clinical trial comparing standard medical management to early (\<24 hours) surgical hematoma evacuation using minimally invasive parafascicular surgery (MIPS) in the treatment of acute spontaneous supratentorial intracerebral hemorrhage.
This study employs a modified continual reassessment method (mCRM) design to estimate the maximum tolerated dose (MTD) of PF-05230907, defined as a target toxicity rate of 15% based on treatment emergent thromboembolic and/or ischemic events (TIEs). The mCRM design utilizes Bayesian methodology to continuously learn the dose-toxicity relationship, which is characterized by a parametric model. Subjects with a diagnosis of ICH (determined by computed tomography) will be enrolled in cohorts of 3. The total length of time planned for study participation is approximately 3 months; 6.0 hours for screening, a single dose administration with a 4-day minimum hospital confinement period and follow-up visits through Day 91. Severity of adverse events (AEs) and serious adverse events (SAEs) will be graded according to the National Cancer Institute (NCI) Common Terminology Criteria for Adverse Events (CTCAE) version 4.03. All subjects who receive PF-05230907 are evaluable for TIEs. The determination of MTD using mCRM modeling will be based on TIEs which occur through 7 days post-dose (Day 8).
This study evaluates the safety, tolerability, and pharmacokinetics (PK) of a single escalating dose and repeated doses of CN-105 in healthy adult participants. There will be about 48 subjects, 36 active and 12 placebo.
The investigators hypothesize that treatment with the iron chelator, Deferoxamine Mesylate, improves the outcome of patients with brain hemorrhage. The purpose of this study is to determine whether treatment with Deferoxamine Mesylate is of sufficient promise to improve outcome before pursuing a larger clinical trial to examine its effectiveness as a treatment for intracerebral hemorrhage.
Patients with a supratentorial intracerebral hemorrhage will be randomly assigned to either the experimental group which will keep them at a normal body temperature or the standard of care group. The investigators propose to test the hypothesis that prophylactic forced normothermia in patients with ICH leads to less systemic inflammation and decreased perihematomal edema.
This study is determining the clinical outcomes, based on neurological testing, for the parafascicular minimally invasive clot evacuation technique. We will collect data from the time of surgery up until 90 days post procedure. We will also be looking at financial data as well. * H(0): there is no economic benefit to the system with early surgical intervention for ICH * Alternative Hypothesis:H(1) Assuming clinical equipoise, i.e., no benefit in clinical outcome with early surgical intervention (null hypotheses) H(0) is correct), the ability to accelerate the patients care from the entry point to the exit point will result in a significant economic advantage to the system through cost reduction.
The purpose of this study is to determine if cooling the neck of patients with ICH decreases brain temperature. In addition, the investigators will determine if the device improves the delivery of oxygen to the brain. A third goal is to determine if cooling the neck lowers intracranial pressure (which is often times high in patients after ICH).
Early hematoma growth (HG) after spontaneous intra-cerebral/intra-parenchymal hemorrhage (IPH) is common and associated with neurological deterioration and poor clinical outcome. Temperature modulation to hypothermia (Temperature, 32-34°C) has been associated with reduction or improvement of physiopathologic processes associated with inflammatory activation and degradation of blood-brain barrier after all types of brain injury. In this sense, we believe that the initiation of an ultra-early protocol of active temperature modulation or Targeted Temperature Management (TTM) to mild induced hypothermia (MIH, 32-34°C) may be associated with good safety and tolerability profile, less HG and cerebral edema after IPH by modulation of systemic and local inflammatory responses, so we hypothesize that TTM to MIH will be a safe/tolerable and effective therapy to limit HG and cerebral edema after IPH.
The MACH Trial is a pilot study of 400mg minocycline over five days in acute intracerebral hemorrhage patients. The study will evaluation the safety and efficacy of minocycline in intracerebral hemorrhage patients.
The main purpose of this study is to determine whether treatment with deferoxamine mesylate is of sufficient promise to improve outcome before pursuing a larger clinical trial to examine its effectiveness as a treatment for brain hemorrhage.
This trial is conducted in the United States of America (USA). The aim of this trial is to evaluate the safety and preliminary efficacy of activated recombinant human factor VII (NovoSeven®) for preventing early hematoma growth in acute Intracerebral Hemorrhage (ICH).
Intracerebral hemorrhage (ICH) occurs when small arteries in the brain rupture due to weakening by age, high blood pressure, and/or elevated cholesterol. In addition to artery rupture, recent data suggests that patients with ICH are also at risk for developing occlusion of arteries during the acute phase, called ischemic strokes. Data suggests these ischemic strokes can negatively impact patient outcomes. Diffusion weighted imaging (DWI) is a sequence on Magnetic Resonance Imaging (MRI) that is a sensitive marker for ischemic strokes in the brain. In this proposal, our primary aim is examine prospectively the effect DWI abnormalities have on functional outcomes in patients with ICH. Our hypothesis is that the DWI abnormalities found on MRI of the brain lead to worse functional outcomes in patients with ICH
The purpose of this study is to find risk factors for hemorrhagic stroke, specifically intracerebral hemorrhage (ICH), among Caucasians, African Americans, and Hispanics.
The purpose of this study is to find out what effects, good and bad, the medication Albumin has on subjects who have experienced a type of stroke known as an intracerebral hemorrhage (ICH). An ICH is when spontaneous bleeding into the brain occurs due to fragile blood vessels. This research is being done because currently there is no effective treatment for ICH. However, study investigators believe that Albumin, the medication being tested in this study, is safe and may help improve patient recovery from ICH over time. Subjects will be enrolled in the study for a total of 90 days. Following enrollment, subjects will be randomized to receive 3 daily injections of either Albumin or Placebo (liquid with no drug), and will receive 3 brain MRI scans (with and without contrast), as described below. All subjects will be monitored continuously through 96 hours after enrollment (5 days) in the Georgetown ICU. Blood tests and clinical evaluations of neurological status, consisting of questions about subjects' functional abilities and medical history, will occur in the Georgetown ICU once every 24 hours through post-enrollment Day 5. Additionally, subjects will receive daily chest x-rays, and daily EKGs (exams that monitor how your heart is doing by placing electrodes, or small monitors, on your skin in specific locations). Similar clinical evaluations will occur at Day 30 and Day 90. Should subjects be discharged at these time points, day 30 assessments will occur over the phone, and day 90 assessments will occur in-person at Georgetown University Medical Center.
Intracerebral hemorrhage (ICH) is a devastating disease with less than 20% of survivors being independent at 6 months. There is currently no approved treatment for ICH which has been shown to improve outcomes. In an effort to develop a new treatment for ICH, this research focuses on a different aspect of ICH treatment which has not yet been evaluated: enhancing absorption of the blood clot with medication.