View clinical trials related to Huntington Disease.
Filter by:To determine if memantine in doses of 10 mg BID affects memory, cognition, and behavior in patients with Huntington's disease (HD).
Huntington's disease (HD) is autosomal dominant neurodegenerative disease, starting in average (with high variability) in the fourth decade. The disease progression is classically characterized by a cognitive deterioration (cortical-frontal dementia), motor disorders (associating chorea, dystonia and bradykinesia), psychiatric disturbances (combining depression and irritability) and metabolic disorder (cachexia). The disease is fatal within 15 to 20 years in most patients. HD has no cure. Neuroleptics are the main drug used and the only to demonstrate its efficacy on chorea in clinical trials. But neuroleptics have also beneficial and adverse effects on other disease characteristics (motor, psychiatric, cognitive or metabolic). Their profile between beneficial and adverse effects could be different according the neuroleptics and their classification. The aim of this study is to compare beneficial and adverse effects of 3 different neuroleptics in HD.
The goals of this trial are to determine if coenzyme Q10 is effective in slowing the worsening symptoms of Huntington's disease and to learn about the safety and acceptability of long-term coenzyme Q10 use by determining its effects on people with Huntington's disease.
PRECREST is a two phase protocol for Huntington's disease in which 60 premanifest and at-risk subjects will first be randomized into a double blind placebo controlled dose titration study bringing them to 30 grams daily or their highest tolerated dose. This phase will establish the highest tolerable doses in premanifest HD and permit the detection of toxicity and intolerability with attribution to active compound versus placebo, and enable a dose response assessment of biomarkers. In the second phase, all subjects will enter a year long open-label treatment on 30 grams daily (or their highest dose) of creatine to assess long term exposure to high dose creatine and its long term impact on various biomarkers.
This exploratory study will examine ways in which individuals approach a positive genetic test for Huntington Disease (HD). HD is a neurodegenerative disorder that causes emotional, cognitive, and movement problems, and currently there is no way to prevent, stop or reverse the progression of the disease. It is passed down through a mutation in a normal gene, and each child of an HD parent has a 50-50 chance of inheriting the HD gene. The study is designed to explore how individuals adjust to their new genetic status and evaluate any perceived mental or emotional barriers to that adjustment. Currently, little is known about how individuals come to terms with a positive genetic test result for a condition that has no known cure or effective treatment. The results of this study may give health care providers and counselors more information about how to help patients who are at risk for developing HD make sense of their new genetic status. Candidates will be prescreened and referred to the study by clinics that specialize in genetic testing and counseling. Candidates must be 18 years old or older and must have received a positive genetic test result for HD at least one month prior to the study. They must also perceive themselves to be asymptomatic-that is, without existing HD symptoms. During the study, participants will be interviewed and asked a series of questions about their decision to pursue testing, their life since the testing, and the things that they have found helpful or unhelpful since receiving the test results. The interviews will be recorded and will last approximately 60 minutes. Participants also will receive a follow-up phone call within two to three days to ensure their general psychological well-being after the interview.
The purpose of this study is to evaluate the safety of the drug ursodiol (ursodeoxycholic acid, UDCA) in people with Huntington's disease (HD) and to explore how the compound is processed by the body.
This study will evaluate the safety of 3 months of Dimebon dosing and the efficacy of Dimebon in improving cognitive, motor, and overall function in subjects with Huntington's Disease.
This study will examine the ways in which people reveal their status as a carrier of Huntington s disease (HD) or of being at risk for the disease. It will explore factors that influence decisions about disclosure and how disclosure is made to family members, partners, and close friends. HD is an inherited, progressive disease. It causes nerve degeneration, motor disturbance, loss of awareness, and psychiatric symptoms. Currently, no effective treatment is available to prevent or delay HD progression. The mean age of onset is 35 to 44 years, and the median survival rate after onset is 15 to 18 years. HD affects about 1 in 10,000 people in the United States, so about 30,000 have HD and more than 200,000 are at risk. Predictive testing for HD has been available since 1993. It can be a life-changing event to learn of being at risk for HD. Disclosure has been studied among people with HD and other diseases, but knowledge about the extent of nondisclosure and disclosure is limited. There is evidence that a person s psychological adaptation to AD may be a factor. Adaptation involves processes that help a person search for meaning in what has happened, attempt to gain control of his or her life, and improve self-esteem in light of the threatening situation. Participants ages 18 and older who have had a positive genetic test result more than 6 months earlier regarding HD or who have a family history of HD but no predictive testing and who do not have symptoms of HD may be eligible for this study. Recruitment is done through HD clinics, support groups, and online websites and mailing listservs. About 260 people will be in the study. Participants will complete a survey taking 30 to 40 minutes to do. Two survey versions are available: for those who are gene carriers and for those at risk. Participants are asked to complete the version applying to them. The survey can be done online or through a hard copy to complete at home and send to NIH. This survey is anonymous. Participants will list the adults with whom they have a relationship and up to 10 people they interact with. They will indicate those who know about the HD gene or risk status. They will also list those to whom they have personally made disclosure. The goal is to distinguish if knowing the status or the act of disclosure is more important. Questions also involve discussing the inheritance and features of HD, and participants feelings or concerns about HD gene or risk status. Participants will be asked about their first disclosure experience, most recent experience of it, and timing of disclosure the time between learning of HD status and telling another person about it. There are also questions on decisions of nondisclosure, negative and positive aspects of disclosure for participants, and what health care professionals can do to help participants disclosure decisions.
The main goal of the GENEPARK consortium is to employ innovative haemogenomic approaches to determine gene expression profiles specific for genetic and idiopathic Parkinson's disease (PD) patients. These gene expression signatures will be utilised clinically as non-invasive diagnostic tests for PD. The sensitivity of the newly developed diagnostic test will be determined by extensive validations on an independent cohort of PD patients, whereas the specificity will be assessed by testing patients with atypical parkinsonisms, including multiple system atrophy, progressive supranuclear palsy and diffuse Lewy body disease. In order to test the specificity of the diagnostic set in other disorders that affect basal ganglia, Huntington's disease and dopa responsive dystonia patients will be analysed. The second objective of the proposal is to determine correlations between gene expression signatures and different stages of PD and thus provide the basis for early diagnosis and monitoring of disease progression. These changes in blood gene expression will be correlated with alterations detected by neuroimaging in the brain of PD patients. Such combinations of molecular and morphological markers of disease may ultimately facilitate the selection and monitoring of neuroprotective therapies for PD. Finally, GENEPARK aims to develop new bioinformatic software tools for selection of genomic biomarkers using microarray data. A set of established computational tools will be applied and novel methods, some of them based on mechanistic modelling of the neurodegenerative diseases, will be developed in order to study the advantages and limitations of the different methodologies. With special emphasis on the careful clinical selection of patients and sufficient power regarding patient numbers, as well as extensive quality control and validation of the data, GENEPARK aims to develop a standardised approach to development and validation of haemogenomic biomarkers of disease.
This study is being conducted to determine the safety and tolerability of Dimebon in people with Huntington's disease after short-term exposure (one week) and after longer exposure (three months). Also, the study will assess whether or not there is an effect of Dimebon on the symptoms of Huntington's disease, including cognitive (thinking abilities), motor (movement), behavior, and overall functioning.