View clinical trials related to Dementia With Lewy Bodies.
Filter by:Deep brain stimulation has been developed as a substitute for the classical lesioning methods previously used in stereotactic and functional neurosurgery. Recent, anecdotal cases reports suggested that electrical stimulation of the cholinergic output of the Nucleus Basalis of Meynert (NBM) may improve cognitive performances, especially the memory tasks. The present study aims to assess the effect of bilateral electrical stimulation of the NBM on the mnesic performance [assessed by the sum of the three free recalls of the Free and Cued Selective Recall Reminding Test (FCSRT)] in patients diagnosed with probable, moderate, Dementia with Lewy Bodies.
The present study aims at combining biochemical methods with various types of imaging techniques to identify the pathophysiology of Alzheimer's disease (AD). The main interest is to find markers associated with the very early steps in the pathology of this disease. The investigators shall thus screen for i) molecules in cerebrospinal fluid (CSF) and plasma specific for AD, and ii) brain imaging markers (e.g. MRI and PET) that correlate to detailed clinical assessments. Biomarkers of interest would then be useful to: 1. Enable accurate detection of the disease early on. Such biomarkers need to specifically reflect the very early pathophysiology of AD and distinguish it from disorders with similar symptomatology, such as other types of dementia and major depression. The sensitivity and specificity of these biomarkers in combination with clinical assessment should be of at least 90%. 2. Enable prediction of the course of events of the disease, such as the disease rate in individual patients. Biomarkers that can predict the pattern of future symptoms will be extremely valuable. 3. Allow monitoring of early effects of new disease-modifying therapies (so-called surrogate biomarkers). Currently clinical therapeutic trials for AD require large patient groups together with long-term treatment. Both size of the groups and treatment time will be reduced with the help of surrogate biomarkers. 4. Study the pathogenesis of the disease. Biomarkers can be used to investigate in detail early alterations in AD patients. For instance, changes in the levels of certain molecules in CSF together with genetic predisposition could then be correlated to clinical signs and changes detectable by brain imaging. This can lead to identification of new therapeutic targets that could easily be monitored in future trials.
This research study is to examine the effects of the study medication Armodafinil in patients with dementia with Lewy bodies (DLB). DLB is associated with memory and other thinking problems, excessive daytime sleepiness, hallucinations, delusions, apathy, and reduced quality of life. One type of medication that could potentially improve daytime sleepiness, memory and thinking skills, hallucinations, delusions, apathy, and quality of life is known as a wake-promoting medication. Armodafinil is a wake-promoting medication that has been developed for treatment of patients with narcolepsy, sleep apnea, and other disorders which cause excessive daytime sleepiness. The drug used in this study is considered investigational, which means it has either not been approved by the Food and Drug Administration (FDA) for routine clinical use or for the use described in this study. However the FDA has allowed the use of this drug/device in this research study. In this study, patients with DLB will receive daily oral Armodafinil tablets, and their response to treatment will be assessed over 12 weeks. This study does not involve any placebo medication, so all patients will receive Armodafinil treatment.
This is a prospective, open label, non-therapeutic, diagnostic imaging study. The purpose of this study is to utilize Pittsburgh Compound B positron emission imaging (PiB PET) to ascertain the relationship between change in amyloid burden over time, and concurrent change in clinical status.
The general aim of this research project is to determine the relationships between alterations of central cholinergic (ACh) and dopaminergic (DA) systems and neurobehavioral features of dementias with Lewy bodies (DLB). Both clinical and neurochemical data support the view that DLB is not a homogeneous entity and it can be hypothesized that differential alterations of central ACh systems (i.e. anterior vs posterior vs striatal interneurons) in association or not with a DA nigrostriatal dysfunction could partly support the clinical heterogeneity observed in this disease. ACh in vivo imaging has been relatively underutilized to date and to our knowledge only on the postsynaptic side. Furthermore, ACh/DA interactions and their relationships with the symptomatology of DLB and related pathologies (PDD) had never been investigated.
The proposed study is a double-blind, placebo controlled pilot study of HD, PD, and DLB subjects with sleep disturbances. This study is designed to determine the effects of 4 weeks Ramelteon treatment on the sleep patterns of people with basal ganglia disorders such as HD, PD and DLB. The study also aims to look at the sleep patterns of caregivers of people with HD, PD and DLB.
The purpose of this exploratory study is to determine whether memantine can provide benefits on clinical symptoms in patients with Parkinson's Disease Dementia or Dementia with Lewy Bodies.
A 24-week placebo-controlled parallel group multicentre trial to study the safety and efficacy of memantine in patients with dementia associated with Parkinson's disease and dementia with Lewy bodies. It is hypothesized that memantine will be safe and well tolerated, and more effective than placebo.