106 Clinical Trials for Various Conditions
This registry study will investigate the incidence of and outcomes associated with clopidogrel hyper-responsive patients treated at Methodist Dallas Medical Center, beginning in January 2018, who suffered cerebral aneurysms.
The study aims to evaluate the safety and probable benefit of a medical device to treat wide-neck ruptured brain aneurysms.
The primary aim of the SwissNeuroFoundation AneurysmDataBase Project is to implement information technology based tools to create and use a holistic reference database specific to intracranial aneurysms (IA). The SwissNeuroFoundation AneurysmDataBase are concerned with generating the data with which to populate this database. The purpose for populating the database are to: * Screen for and evaluate markers of risk for intracranial aneurysm formation and aneurysm rupture. Are considered as markers the following: genetics factors, microbiota, environmental factors, congenital factors (ie: cerebrovascular anatomical variants), transcriptomics signature, proteomics signature,shape characteristics, haemodynamics characteristics. * Screen for and evaluate prognostic factors of outcome regarding different management strategies including watchful observation, microsurgical treatment, endovascular treatment or any combination thereof. * Implement and evaluate patient-specific management protocols integrating all available information. * Evaluate the impact of the database and use of tools to improve care, reduce costs, support knowledge discovery and promote new industrial developments.
The objective of this study is to explore the effects of Sirolimus on the underlying molecular alterations of cerebral aneurysms.
AneurysmFlow R1.0 is an approved (i.e. CE labeled, 510k, Health Canada), software tool intended to provide relevant information on the blood flow in a cerebral aneurysm and its parent artery based on angiography. It calculates the Mean Aneurysm Flow Amplitude (MAFA) ratio to measure the volumetric flow rate quotient before and after Flow Diverter Stent (FDS) implantation in the region of interest. The current study is a prospective, single arm, observational, multicenter cohort study to assess the prognostic value of the MAFA ratio for predicting full aneurysm occlusion 12 months after flow diverter placement.
Identifying and making a decision about the best health treatment or screening option can be difficult for patients. Decision aids can be used when there is more than one reasonable option, when no option has a clear advantage in terms of health outcomes, and when each option has benefits and harms that patients may value differently. Decision aids may be pamphlets, videos, or web-based tools. They make the decision explicit, describe the options available, and help people to understand these options as well as their possible benefits and harms. This helps patients to consider the options from a personal view (e.g., how important the possible benefits and harms are to them) and helps them to participate with their health practitioner in making a decision. Cerebral aneurysms are common and potentially very dangerous. However, there are important treatment choices that may prevent bleeding and stroke before aneurysm rupture.Current procedural options are clipping and endovascular coiling. The anatomy of most aneurysms is amenable to either treatment. The treatment decisions are not simple, since each choice has its own trade-offs. How the benefits and trade-offs are valued varies across different patients, and, therefore, the right treatment decision needs to include greater patient participation. This starts with better communication of the probabilities associated with the outcomes of each option in terms that can be understood by patients. Equally important is helping the patients clarify their own treatment goals, as well as legitimizing patients' partnership in the decision-making process. Tools (e.g., decision aids) to achieve shared decision-making, are lacking in this area of medicine. We propose to investigate the impact of such decision aids on patient satisfaction and the outcomes of cerebral aneurysm coiling and clipping. Aim 1. To determine whether structured decision aids offered to cerebral aneurysm patients are associated with increased patient participation in the decision making process as indicated by the OPTION score Aim 2. To determine whether structured decision aids offered to cerebral aneurysm patients are associated with improved quality of life and patient satisfaction outcomes immediately preoperatively, and 30 days postoperatively.
Test single nucleotide polymorphisms (SNP's) in ruptured and unruptured aneurysm tissue to identify a genetic difference between the two types of aneurysms; and to test SNP's in arteriovenous malformation tissue to identify a genetic link.
Hypothesis: aspirin attenuates inflammation in cerebral aneurysms and hence reduces the incidence of rupture. This effect can be monitored using the signal generated by macrophages (inflammatory biomarker) in ferumoxytol-enhanced MRI. Study aims: 1. Determine if daily aspirin intake (for three months) would obliterate/reduce ferumoxytol-enhanced MRI signal changes generated by macrophages in cerebral aneurysm wall. Fifteen patients with cerebral aneurysms \> 7 mm will be selected to enroll in this pilot study. 10 patients will be imaged at base line with ferumoxytol-enhanced MRI. Following that, they will take aspirin 81 mg daily and then re-imaged again at three months. This group will be compared to a control group of 5 patients where they will have the imagings studies performed at base line and at three months but will NOT take aspirin.
This trial is being conducted in order to compare angiographic outcomes in patients receiving 0.014-0.0155" platinum framing and filling coils (larger diameter coils) versus those treated solely with coils less than 0.014" (with a standard diameter). Hypothesis: Angiographic occlusion at follow-up imaging will be more frequent in patients receiving 0.014-0.0155" platinum coils during embolization compared to those receiving smaller-diameter coils.
The study will compare clinical and angiographic outcomes in patients receiving Hydrocoil aneurysm treatment versus patients receiving non-HydroCoil aneurysm treatment.
We hypothesize that in patients undergoing surgical treatment of unruptured intracranial aneurysms, the increase in blood sugar as a result of surgical stress is detrimental to outcome, as measured by blood levels of proteins associated with systemic inflammation and 7 day, 90 day, and 1 year postoperative neurologic and neuropsychiatric outcomes. Because insulin itself is an anti-inflammatory agent, we anticipate that normalizing blood sugar levels with insulin doses higher than normally produced by the body (i.e., "supraphysiologic" insulin doses) will have a greater benefit on these outcomes than equally normalizing blood sugar levels using normal insulin doses. Based on the results of this study, we will be able to determine if a more laborious strategy to normalize blood sugar levels (i.e., "supraphysiologic" insulin therapy) offers any additional benefits to normal insulin dosing strategies. In addition, we will obtain a robust assessment of postoperative neuropsychiatric and neurologic outcomes of surgically repaired unruptured intracranial aneurysms that will serve as the basis for future studies to decrease morbidity of these patients
This study will investigate cerebral (brain) aneurysms and their possible inheritance patterns in families. It will try to determine how often brain aneurysms occur in families in which more than one member has had an aneurysm and to find the gene or genes that contribute to their development. People in families in which more than one family member had a cerebral aneurysm are eligible for this 1-day study. They will undergo the following procedures: * Blood will be drawn (no more than 3 to 4 tablespoons) for research to identify genes that contribute to the development of brain aneurysms. * A magnetic resonance angiograph (MRA) scan will be done to examine a specific brain area where aneurysms typically occur. Magnetic resonance imaging uses a strong magnetic field and radio waves to produce images of the brain and detect abnormalities. If a more detailed picture of the brain is needed than can be obtained with MRA, a more specific MRA scan will be done using a contrast dye to enhance the images. Patients may be invited to participate in related NIH research studies.
Background: Following acute brain injury (ABI), patients are monitored in the intensive care unit (ICU) where providers rely on frequent neurological examinations ("neurochecks") to assess for neurodeterioration. Serial neurochecks are part of guideline recommendations, but there is equipoise between hourly (Q1) and every-other-hour (Q2) evaluation. In the ICU, care-related awakenings occur frequently, but it is unclear if differential neurocheck frequencies result in differential sleep, providing the scientific premise for this proposal. Population: Thirty patients (N=15 per group) who have undergone elective aneurysm coiling will be enrolled. On post-operative day (POD) 0, patients will be screened and approached for informed consent if they do not meet exclusion criteria, e.g., prior intracranial injury, sleep disorders, cognitive impairment, mechanical ventilation. Patients with elective aneurysm coiling are being chosen because they require ICU level of care following their intracranial procedure, but do not have structural brain injury or ongoing sedation needs that might impact sleep measurements. Methods: Usual care: Patients are monitored every 15-30 minutes for up to 6 hours post-procedure, then Q1 or Q2 for up to 24 hours. If these patients remain stable, they are discharged home on post-operative day (POD) 1. Proposed Intervention: Enrolled patients will be randomized to Q1 or Q2 neurochecks following the institutionally required 6 hours of stable neurological and vascular checks. Once randomized, patients will undergo placement of electroencephalogram (EEG) with video, electrooculogram, and chin lead. The video EEG will be in place for at least 8 hours to include the overnight (10PM-6AM) time period. Following completion of the recording, the signals obtained will be reviewed by a blinded polysomnographic sleep technician for sleep characteristics including quantitative assessments of wakefulness, deep (N3) sleep, REM sleep, sleep efficiency, and sleep fragmentation and arousals. On POD1, patients and their nurse will fill out the Richards-Campbell Sleep Questionnaire to rate subjective sleep quality.
Intracranial aneurysm rupture is a leading cause of hemorrhagic strokes which carry high mortality and disability rates as well as high healthcare costs. Unruptured intracranial aneurysms (UIA) are common in the general population, occurring in 1-2% of individuals. Previous studies have shown that UIA growth and rupture are strongly associated with each other, with growing aneurysms 9-12 times more likely to rupture, and nearly all aneurysms growing prior to rupture. Thanks to advanced medical imaging, UIA are now more and more often detected incidentally. However not all aneurysms qualify for preventive surgical or interventional procedures according to current International Study of Unruptured Intracranial Aneurysms (ISUIA) guidelines, and some must therefore be monitored for growth. Current guidelines are based heavily on size, an inconsistent predictor of future growth. To improve management strategies for individual patients and more comprehensively assess aneurysm risk, the investigators propose to identify risk factors related to growth. Aneurysm etiology is multifactorial, with both genetic and environmental contributions to aneurysm formation, growth, and rupture. Exploring new risk factors based on aneurysm natural history and understanding the mechanisms underlying aneurysm rupture have been extensive research areas. As previous studies have shown that quantitative imaging biomarkers (QIB) can provide a more accurate assessment of the characteristics of aneurysms, the investigators propose a combined study which identifies QIB associated with aneurysm growth to identify factors related to growth.
This study aims to determine the inter- and intra-variability of Transcranial Doppler (TCD) ultrasound in neuro-critical care patients who are planned for consecutive daily TCD evaluations.
The purpose of this study is to learn about protecting the brain from low blood flow (ischemia) with limb preconditioning. From human studies the investigators know that the brain can be protected from dangerous low blood flow by reducing the blood flow to an arm or leg for just a short period of time. This is called limb preconditioning. The investigators are studying the safety and feasibility of preconditioning and their effect of protecting the brain from ischemia in two different groups. This is a Phase 2, randomized, double-blind, sham-controlled, design. Up to 50 male and female patients undergoing elective endovascular repair of unruptured brain aneurysm who are randomized to the remote ischemic preconditioned or sham group will be enrolled. This study consists of one 3-9 month study period for each patient plus up to 14 days for enrollment activities. Subjects are required to return between 3-9 months for end-of-study procedures.
The purpose of the study is to investigate if briefly stopping blood flow to the patient's leg will lead to the patient's body being better able to tolerate possible decreased blood flow to regions of the brain which otherwise frequently happens after subarachnoid hemorrhage. Previous studies show that various organs such as the heart, brain or kidney can tolerate longer periods of decreased blood flow if prior to that insult shorter periods of decreased blood flow were experienced.
Objectives: The objective of this clinical study is to determine if the use of the SRP will lead to improved effort and time efficiency in cerebral aneurysm surgery. For this preliminary study, the investigators will assess key time and effort variables associated with prospectively assessed SRP neurosurgery cases in comparison with cases with no SRP rehearsal. This is a single site study with one enrolling site. This study will include a total of 40 cases 20 SRP cases and 20 control cases). SRP and control cases will be randomly selected according to a predetermined alternating sequence.
Endovascular treatment with platinum coils is safe and effective in preventing rebleeding of intracranial aneurysms. Unfortunately, endovascular treatment of aneurysms with coils has been associated with incomplete occlusion at initial treatment (remnant) or at follow-up (recurrence). This in some studies has been as high as 20%. While many such aneurysm remnants or recurrences exhibit benign behavior, many require retreatment to prevent future hemorrhage. A recent randomized controlled trial of aneurysm coiling revealed that aneurysms between 2 and 9.9 mm diameter were more likely to have an improved angiographic and composite clinical outcome when treated with hydrogel-coated coils, an improvement inferred to result from higher packing density afforded by hydrogel expansion(1). The use of hydrogel coils is associated with technical difficulties related to expansion and limited time for deployment. The investigators theorize that similar results could be achieved by using more voluminous bare platinum coils, leading to improved packing density compared to smaller caliber coils, and thus result in lower incidence of remnants or residuals. The relationship between packing densities and composite clinical endpoints having never been shown in a robust fashion, the investigators therefore propose a randomized clinical trial opposing coiling with soft 15-caliber coils to 10-caliber bare platinum coils in aneurysms varying in size from 3 to 9.9 mm. To test the hypothesis that 15-caliber coiling systems are superior to standard 10-caliber coils in achieving better composite outcomes, the investigators propose the DELTA trial: Does Embolization with Larger coils lead to better Treatment of Aneurysms trial, a randomized controlled blinded trial with 2 subgroups of 282 patients each, 564 total: Subgroup 1: Coiled with a maximum proportion of 15-caliber coils as conditions allow Subgroup 2: Coiled with 10-caliber coils.
This study aims to determine if hormone replacement therapy, given during perimenopause may prevent the progression of saccular cerebral aneurysms.
Phase 1/2a Multicenter, Controlled, Randomized, Open Label, Dose Escalation, Safety, Tolerability, and Pharmacokinetic Study Comparing EG-1962 and Nimodipine in Patients with Aneurysmal Subarachnoid Hemorrhage
This clinical research study is designed to determine safety and effectiveness of the Surpass Flow Diverter (Surpass System), an investigational device developed to treat wide-neck, large or giant intracranial aneurysms. An intracranial aneurysm is a bulge in the wall of a blood vessel in the brain. The bulge is caused by a weakening of the vessel wall. If left untreated, the bulge may continue to grow larger and ultimately the vessel may break open (rupture), resulting in serious bleeding into or around the brain. The information collected from this study will be used to evaluate how well patients do when treated with the Surpass System both immediately after treatment of an aneurysm and over a long period of time (5 years).
With evolving endovascular technologies there is a growing debate centered on the relative safety and efficacy of the currently accepted alternatives for the treatment of ruptured cerebral aneurysms in the face of acute subarachnoid hemorrhage (SAH). The purpose of this study is to compare the safety and efficacy of microsurgical clipping and endovascular coiling of acutely ruptured cerebral aneurysms in a prospective, randomized fashion.
The primary objective of this retrospective study is to determine the incidence of important safety outcomes in patients who have undergone Pipeline Embolization Device placement for intracranial aneurysms (IAs). This study does not effect patient care, simply it is designed to observe and capture information from numerous hospitals. Data collection will be initiated starting March 2012 and continue until approximately April 2017.
The primary objective of this study is to further expand the body of clinical knowledge in patients undergoing Pipeline Embolization Device (Pipeline or PED) placement for intracranial aneurysms (IAs or ICAs) according to Pipeline's labeled indication.
The purpose of this prospective registry is to determine if patients harboring intracranial aneurysms have any predictive markers between aneurysm wall tissue, cerebrospinal fluid and blood plasma.
This research study is being done to test the effectiveness of a new generation FDA approved device for treating aneurysms compared to the current standard device for endovascular aneurysm treatment which is bare platinum coils. Endovascular procedures are a form of minimally invasive surgery, which is performed on blood vessels. The technique involves the introduction of a catheter which is a long, thin, flexible, hollow plastic tube through the skin into a large blood vessel. Typically the chosen blood vessel is the femoral artery found near the groin. The catheter is then maneuvered through the body to the location of the aneurysm in the brain using image guidance. Coils are delivered into the aneurysm through the catheters. Once the coils are delivered in the aneurysm, they are detached from the catheter. This is repeated until enough coils fill the aneurysm, blocking the blood flow to the aneurysm. The body responds by forming blood clots around the coil(s), which helps block the flow of blood into the aneurysm and keeps the vessel from rupturing or leaking. This study will compare the study device to the standard bare platinum coil to see which is better at preventing future rupturing or leaking. The study device is called the HydroCoil Embolization System and this study is a post-market clinical trial. About 600 subjects from multiple institutions will take part in this study.
The current proposal describes a post-market, clinical registry of HydroSoft, aimed at gaining robust clinical data in a large set of patients to better define the advantages, and potentially, the disadvantages of the HydroSoft, and to inform future randomized trials.
The purpose of this study is to identify the healing of aneurysms in three month use Optical Coherence Tomography image to measure outcomes in post coiled aneurysms. Endovascular therapeutic coiling is a widely used procedure in the management of aneurysms, which is an angiogram .
The management of patients with unruptured aneurysms is controversial. Patients with unruptured aneurysms may suffer intracranial hemorrhage, but the incidence of this event is still debated. Endovascular treatment can prevent rupture, but involves immediate risks; furthermore, successful treatment does not eliminate all risks. A randomized trial may be the best way to demonstrate the potential benefits of endovascular over conservative management of unruptured aneurysms.