65 Clinical Trials for Various Conditions
Patients born with heart defects often undergo surgical procedures on a heart lung machine. With improvements in medical and surgical management, their survival has significantly improved, but their brain insult has not been paid much attention. This study is to determine the relationship between specific proteins in the blood and brain injury in patients less than 18-year-old undergoing heart surgery.
The investigators aim to prove the feasibility of a non-invasive means to identify temporary neurological impairment resulting from the use of a commonly prescribed opioid by identifying an oculomotor biosignature associated with temporary neurologic impairment in pain-free opioid-naïve subjects, and to initiate the development of such a signature. The investigators also sought to establish the presence of a dose-dependent biosignature for opioid impairment.
To assess the impact of a 12-week virtual seated physical intervention on cardiovascular health and wellness in people with chronic neurological impairments (CNI).
Research is being conducted to better understand the physiologic effects (relating to the action of a drug when taken by a healthy person) of opioid use on oculomotor (relating to the motion of the eye) dynamics and to identify the presence of characteristics consistent with a specific drug or class of drugs.
Measuring the various difficulties patients with spinocerebellar ataxias (SCA) report in an accurate manner is important to be able to test any therapy that may be developed. As basic research identifies some therapy of this type, clinicians are planning studies that can either prove or disprove that such treatments actually have an effect. Walking problems and problems with eye movements that can give rise to visual complaints are common in the SCA's. Existing neurological scales such as the "SARA" are based on the usual neurological examination items that can carry a degree of subjective bias. Also the intervals between numbers on such scores often do not carry the same "weight" so that the difference between a score of 1 and 2 may not be equal to difference between 2 and 3. Lastly, such scales done in the clinic setting capture only a brief period of a patient's day. We propose that examination of home based gait monitoring, timed tests of motor function and quantitative measures of visual problems in patients with SCA are more useful in measuring the disability in these patients.
The primary purpose of this study is to assess whether hyperbaric oxygen treatment improves neurological function in patients who exhibit white matter hyperintensities on MRI examination. The secondary goal of this study is to determine if it is possible using MRI to discern a difference in perfusion of central nervous system tissue in regions of white matter hyperintensities after hyperbaric oxygen administration as compared to hyperbaric air.
To estimate the impact of having a child with serious illness (SI) on the health and healthcare of other members of the child's family.
The purpose of this research is to create and evaluate the efficacy of an exciting (fun to use), and potentially disseminable computer-based prevention program, Click City®: Alcohol, for use by 7th graders with a booster in 8th grade students. The ultimate goal of Click City®: Alcohol is to prevent the onset of heavy drinking during high school and post-high school. Secondary goals of the program include decreasing students' intentions and willingness to engage in heavy drinking in high school. The proposed program is unique both in its delivery system and the development process. Aim 1: The investigators plan to develop and test approximately 24 components over the first two years of the study. Aim 2: The final Click City®: Alcohol program will consist of 12 effective components delivered in six sessions over a three-week period in 7th grade. This is followed by two booster sessions, consisting of a total of 5 components delivered over a one-week period in 8th grade. Educational newsletters to parents and teacher guides will accompany the program. Aim 3: Following development, the investigators will conduct a group randomized trial to evaluate the efficacy of this program as compared to schools' usual alcohol prevention curriculum. The investigators plan to recruit, stratify and randomly assign 26 middle schools to one of the two conditions, Click City®: Alcohol and Usual Curriculum (UC). Students in the Click City®: Alcohol and yoked UC schools will be assessed prior to the beginning of the 7th grade program, following the 7th grade program, following the 8th grade booster, which would occur approximately one year after the 7th grade program, and a follow-up assessment in the 9th grade to assess long-term outcomes, one year after the 8th grade assessment.
The goal of this pilot randomized controlled trial is to test the feasibility of running a full scale randomized controlled trial that compares the effect of the PQ-ResPOND intervention versus usual care to improve recurrent pain in children, adolescents, and young adults with severe neurologic impairment. The main questions it aims to answer are: * Is the study feasible and acceptable for participants? * Does PQ-ResPOND have a potential to be effective? Participants will: * answer surveys (their parents will) telling us about the child's pain, symptoms, and use of complementary therapies, and about their own psychological distress and satisfaction with care. * a group will receive the PQ-ResPOND intervention which consists of: * activating parents and providers by using the PediQUEST system, a web platform that administers surveys and generates feedback reports alerting parents and providers about the child's experience, AND * responding to child pain or discomfort by incorporating the Response team (members of the hospital's palliative care team) into the child's care to privde a standardized approach to managing recurrent pain. Researchers will use a comparison (control) group consisting of participants who will answer surveys and receive usual care (no feedback reports or consult with palliative care in this group) to see if a randomized design is feasible.
This study plans to learn about how to measure symptoms (like tiredness or rash) in children with special healthcare needs who take 5 or more medications. Sometimes symptoms change in severity over time or new symptoms develop. This can happen after a new medication is started. This can also happen after the dose of an existing medication is changed. The Investigators believe that parents will be able to provide the best assessment of any symptoms that their child might be experiencing. This study asks parents to report any symptoms their child is currently experiencing.
The purpose of this study is to assess the safety and fusion rates following posterior lateral fusion with the Dynesys Spinal System used as an adjunct to fusion and compare to literature control.
The purpose of the Post-Market Surveillance study is to evaluate safety.
The primary purpose of this study is to track and document the clinical outcomes of patients with radicular pathology following posterior lateral fusion with the Dynesys Spinal System. Secondary purpose of this study is to assess outcomes with historical controls along a continuum of motion and anatomy sparing procedures.
This is an open-label clinical research study of an oral glycopyrrolate liquid for the treatment of chronic moderate to severe drooling in patients with cerebral palsy or other neurological conditions. Patients participating in the study will receive oral glycopyrrolate liquid (1 mg/5 ml) three times a day (TID) for study duration of 24 weeks. After a washout, screening, and 2-day baseline period, patients will be enrolled in a 4-week dose titration period. Glycopyrrolate liquid doses will be titrated using dose levels in the Dose Titration Schedule. Titration will begin at 0.02 mg/kg per dose TID and sequentially increased in 0.02 mg/kg per dose increments TID every 5-7 days during the first four weeks until optimal individualized response is obtained for each patient or a maximum dose of 0.1 mg/kg TID is reached, not exceeding 3 mg TID or Dose-level 5 in the Dose Titration Schedule, whichever is lesser. Optimal dose for each patient is the dose at which he/she is receiving the maximum benefit from the study drug (greatest improvement in drooling) while experiencing minimum side effects. All patients will receive close attention by study staff throughout the study.
1. We expect to find that the silent cerebral infarct (SCI) rate is two fold higher in patients treated without caplacizumab. We also expect to find that the rate of mild and major cognitive impairment in patients treated with caplacizumab within 3 days of starting plasma exchange will be lower than patients treated without caplacizumab. 2. We expect that the differences in cognitive impairment in cases (caplacizumab) versus controls (no caplacizumab) will persist on serial evaluation 1 year later. We also expect that there will be differences in these groups even after adjusting for time since episode and severity of presentation. 3. We expect to find that SCI and cognitive impairment is associated with worse scores on the health related quality of life instrument (SF-36) 4. Based on studies in non-TTP populations, we expect to find that the rate of incident stroke over the period of follow up is at least 2 fold higher in patients that have SCI compared with patients who do not have SCI
The purpose of this study is to evaluate the clinical performance of the investigational REEV SENSE gait tracker to measure gait features in subjects with post-stroke gait impairment. REEV SENSE is intended to be used by trained healthcare professionals as a simple procedure adapted to clinical routine. The reference method for performance comparison will be motion capture.
The purpose of the study is to investigate the use of a special radioactive drug called 123I-MIBG and myocardial MIBG scintigraphy. This scan may be able to help determine who may have a certain kind of neurologic disorder called Lewy Body Disease. The overall purpose of this study is to correlate myocardial MIBG scintigraphy findings with clinical diagnosis. Myocardial MIBG scintigraphy imaging will be combined with other clinical, neuropsychological and neuroimaging findings to improve the prediction for underlying Lewy Body Disease.
The goal of this study is to examine olfactory function in preclinical subjects or individuals with neurological diseases such as Probable Alzheimer's Disease (PRAD), Frontotemporal Dementias (FTD), Dementia with Lewy Bodies (DLB), Traumatic Brain Injury (TBI), and Amyotrophic Lateral Sclerosis (ALS).
This proof-of-concept study examines whether the acute brain dysfunction that occurs in critically ill patients is improved by administration of intravenous guanfacine.
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.
The objective of this research is to investigate the feasibility of delivering gait treatment using the Moterum iStride Solution™ to individuals with hemiparetic gait impairments using a telemedicine modality, the Moterum Digital Platform.
The LUCINDA Trial is a three-site, phase II, randomized, double-blind, placebo-controlled study of leuprolide acetate (Eligard) in women with Mild Cognitive Impairment or Alzheimer's Disease taking a stable dose of a cholinesterase inhibitor medication like donepezil. Its objective is to assess the efficacy of a 48-week regimen of leuprolide (22.5 mg per 12 weeks) compared to placebo on cognitive function, global function and plasma and neuroimaging biomarkers.
The ongoing opioid epidemic is a public health crisis, and surgical patients are particularly vulnerable to opioid-dependency and related risks. Emerging data suggest that caffeine may reduce pain after surgery. Thus, the purpose of this study is to test whether caffeine reduces pain and opioid requirements after surgery. The investigators will also test whether caffeine improves mood and brain function (e.g., learning, memory) after surgery.
This is a human clinical study involving the isolation of autologous bone marrow derived stem cells (BMSC) and transfer to the vascular system and inferior 1/3 of the nasal passages in order to determine if such a treatment will provide improvement in neurologic function for patients with certain neurologic conditions. http://mdstemcells.com/nest/
Armodafinil is an FDA approved medication with wakefulness-promoting properties. It is a relatively safe agent with interesting neurochemical effects on the catecholamine system, producing an improvement in cognitive function, particularly working memory in humans. When combined with intensive task-related training, armodafinil may accelerate motor recovery in chronic stroke patients. The primary aim of this study is to determine whether administration of armodafinil during subacute post-stroke rehabilitation will augment cortical plasticity and enhance motor recovery. The primary hypothesis suggests that cortical plasticity will be enhanced by armodafinil and, therefore, will induce an improvement in motor function and better performances on measures of motor control.
Ventilated ICU patients frequently have sepsis and the majority have delirium, a form of brain dysfunction that is an independent predictor of increased risk of dying, length of stay, costs, and prolonged cognitive impairment in survivors. Universally prescribed sedative medications-the GABA-ergic benzodiazepines-worsen this brain organ dysfunction. The available alternative sedation regimens, the shorter acting GABA-ergic propofol, and the alpha2 agonist, dexmedetomidine, have both been shown to be superior to benzodiazepines, and yet are different with regard to their effects on innate immunity, bacterial clearance, apoptosis, cognition and delirium. The MENDS2 study will compare propofol and dexmedetomidine, and determine the best sedative medication to reduce delirium and improve survival and long-term brain function in our most vulnerable patients- the ventilated septic patient.
The long-term objective of the MIND-USA (Modifying the Impact of ICU-Induced Neurological Dysfunction-USA) Study is to define the role of antipsychotics in the management of delirium in vulnerable critically ill patients. We and others have shown that delirium is an independent predictor of more death, longer stay, higher cost, and long-term cognitive impairment often commensurate with moderate dementia. The rapidly expanding aging ICU population is especially vulnerable to develop delirium, with 7 of 10 medical and surgical ICU patients developing this organ dysfunction. Antipsychotics are the first-line pharmacological agents recommended to treat delirium, and over the past 30 years they gained widespread use in hospitalized patients globally prior to adequate testing of efficacy and safety for this indication. Haloperidol, the most commonly chosen antipsychotic, is used by over 80% of ICU doctors for delirium, while atypical antipsychotics are prescribed by 40%. Antipsychotics safety concerns include lethal cardiac arrhythmias, extrapyramidal symptoms, and the highly publicized increased mortality associated with their use in non-ICU geriatric populations. The overarching hypothesis is that administration of typical and atypical antipsychotics-haloperidol and ziprasidone, in this case-to critically ill patients with delirium will improve short- and long-term clinical outcomes, including days alive without acute brain dysfunction (referred to as delirium/coma-free days or DCFDs) over a 14-day period; 30-day, 90-day, and 1-year survival; ICU length of stay; incidence, severity, and/or duration of long-term neuropsychological dysfunction; and quality of life at 90-day and 1-year. To test these hypotheses, the MIND-USA Study will be a multi-center, double-blind, randomized, placebo-controlled investigation in 561 critically ill, delirious medical/surgical ICU patients who are (a) on mechanical ventilation or non-invasive positive pressure ventilation or (b) in shock on vasopressors. In each group (haloperidol, ziprasidone, and placebo), 187 patients will be enrolled and treated until delirium has resolved for 48 hours or to 14 days (whichever occurs first) and followed for 1 year.
This study will investigate the efficacy of the Flutemetamol (18F) Injection PET tracer in identifying abnormal (18F) flutemetamol uptake patterns which predict the conversion from aMCI to a b-amyloid associated clinically probable Alzheimer's disease.
A combined strategy of Richmond Agitation and Sedation Scale (RASS) clinical targeting plus bispectral index (BIS) guided sedation in mechanically ventilated, critically ill patients will decrease time on mechanical ventilation, decrease the duration of intensive care unit (ICU) delirium and coma, and will improve subacute neurocognitive function when compared to sedation guided by RASS targeting alone.
The primary objective of the study is to assess the safety and tolerability of intravenous (IV) infusions of E2814 in participants with dominantly inherited Alzheimer's disease (DIAD), and to evaluate target engagement (TE) of E2814 on microtubule binding region (MTBR)-tau species in cerebrospinal fluid (CSF) in participants with DIAD.