View clinical trials related to Huntington Disease.
Filter by:Long-term follow-up of Huntington's disease patients treated with intrastriatal allografts is essential to assess the benefit/risk ratio of grafts as well as their effectiveness. Indeed, some patients are likely to develop adverse effects and the impact of alloimmunisation phenomena remains to be explored.
Cell-free fetal DNA (cffDNA) is present in the maternal blood from the early first trimester of gestation and makes up 5%-20% of the total circulating cell-free DNA (cfDNA) in maternal plasma. Its presence in maternal plasma has allowed development of noninvasive prenatal diagnosis for single-gene disorders (SGD-NIPD). This can be performed from 9 weeks of amenorrhea and offers an early, safe and accurate definitive diagnosis without the miscarriage risk associated with invasive procedures. One of the major difficulties is distinguishing fetal genotype in the high background of maternal cfDNA, which leads to several technical and analytical challenges. Besides, unlike noninvasive prenatal testing for aneuploidy, NIPD for monogenic diseases represent a smaller market opportunity, and many cases must be provided on a bespoke, patient- or disease-specific basis. As a result, implementation of SGD-NIPD remained sparse, with most testing being delivered in a research setting. The present project aims to take advantage of the unique French collaborative network to make SGD-NIPD possible for theoretically any monogenic disorder and any family.
Huntington's disease (HD) is a rare neurodegenerative condition caused by increased CAG trinucleotide repeats in the HTT gene, on chromosome 4. The estimated global prevalence is 2.71 cases per 100,000 inhabitants. In Brazil, it is estimated that 13,000 to 19,000 people carry the gene and 65,000 to 95,000 are descendants at risk. HD usually manifests itself in the fourth decade of life with motor, cognitive and behavioral symptoms, such as chorea. This condition profoundly affects quality of life and there is no treatment that can modify its course. Tetrabenazine is the only medication approved to control chorea. A partnership between the Butantan Institute and Cellavita investigates the use of Human Dental Pulp Stem Cells (hDPSCs) to treat HD. NestaCell® was developed, a product based on these cells, which express high levels of BDNF, an important neurotrophic factor for neuronal survival. Preclinical tests showed that NestaCell® is distributed to several organs, including the central nervous system, being well tolerated in toxicological tests in rats. In phase I (SAVE) and phase II (ADORE) clinical trials, NestaCell® was administered to patients with HD. The results indicated a significant improvement in motor scores and functional capacity compared to placebo, demonstrating a clinically significant benefit. NestaCell® also presented a good safety and tolerability profile, with few adverse events related to the product. The results support the conclusion that NestaCell® is safe and well tolerated in HD patients, within the doses tested.
The primary objective of this study is to discover blood-based biomarker of brain Huntingtin (HTT) protein using extracellular vesicles to be used in evaluating target engagement in HTT lowering clinical trials. Secondary objectives of this study include developing more accurate biomarkers of Huntington disease (HD) progression or conversion and to develop standard practices for extracellular vesicle biomarker discovery research. The investigators hypothesize that brain-derived extracellular vesicles (EVs) isolated from human biofluids contain biological cargo specific to their tissue of origin that could allow their use as brain biomarkers for HD. EVs are lipid bilayer-delimited particles that are naturally released from cells in the brain. The investigators will investigate if EVs contents reflect the pathological alterations occurring with disease progression when compared with EVs isolated from biofluids of healthy non-HD persons.
This is an open label, dose escalation clinic trial of ER2001 intravenous injection to evaluate safety, tolerability and pharmacokinetics of ascending single and multiple doses of intravenously administered ER2001 in patients with early manifest Huntington's Disease. Furthermore, pharmacodynamics in particular target engagement, and early clinical signs of efficacy will be assessed. This study will evaluate increasing doses of ER2001 in sequential cohorts. ER2001 was escalated over 4 dose levels . The planned duration of this treatment is 14 weeks.
Time processing is fundamental to survival and goal reaching in humans. Different time scales (seconds, minutes, and beyond) are processed through specific cognitive processes involving different neural representations. It is generally agreed that time scale in seconds-to-minutes range named "interval timing" would be anatomically linked to the striatum. Indeed, it is possible to demonstrate a deficit of interval timing processes in patients suffering from striatal damage (Huntington's disease). However, recent findings show involvement of a second brain structure, the hippocampus, in interval timing processing in the minutes range, suggesting an interaction between the striatum and hippocampus. Presumably, patients with hippocampal damage (Alzheimer's disease) would specifically show a decrease in performance for this minutes-range time scale. This study aims to provide a better understanding of the role of the striatum in the treatment of time and its interactions with other brain structures such as the hippocampus. More specifically, it is unclear whether the striatum plays a platform role that would always be involved regardless of the time scale, as suggested by the unified model of time or whether different brain structures is solicited according to the time scale, as suggested by the modular system model. In order to elucidate these issues, a potential double dissociation between brain structures and time scales will be tested.
Huntington's disease (HD) can affect motivation. People with HD may not wash often, keep their house clean and tidy, or eating healthy food. This loss of motivation, or apathy, can also affect the way they talk to people and how willing they are to be in social situations. There are thought to be four different subtypes of apathy. These include reduced (1) motivation for planning and organising, (2) emotional reactions, (3) thoughts and actions and (4) social interaction. It is clear from talking to patients and their families in clinic that apathy has a big impact. It is often a source of distress for the people around the patient, who are trying to support and care for them. We know from previous research, that having good social support helps people with Huntington's disease to live independently for longer. This research aims to understand the ways in which apathy can impact the levels of burden felt by caregivers of people with HD. Caregivers will be asked to take part in a single interview. They will be asked questions about caring for someone with apathy. There will also be the opportunity to share their own first-hand experiences. These interviews will be analysed for common themes using framework analysis. Attention will be given to the relationship between burden and the different types of apathy. Understanding the factors that lead to increased caregiver burden is the first step towards finding way to support caregivers of people with HD.
The survey and full study information can be accessed here: https://southampton.qualtrics.com/jfe/form/SV_8iEedDJZy4xaiI6 The goal of this anonymous survey is to benchmark integrated care from the perspective of service users in adults living with Huntington's Disease, including informal caregivers. The main question it aims to answer is: Is standard of care for people living with HD in England person-centred integrated care from the perspective of service users? Participants will complete a one-time anonymous survey either online or on paper, according to their preference, that takes an average of 20-30 minutes. Participants can take breaks as needed, picking up the survey from where it was paused.
The goal of this first-in-human clinical trial is to assess the safety and tolerability of four doses of a new study drug called VO659 in people with genetic disorders called spinocerebellar ataxia type 1, type 3 or Huntington's disease. Another aim is to determine the concentrations of the study drug in the cerebral spinal fluid and blood after single and multiple doses. Study drug will be administered by lumbar intrathecal bolus injections.
Intro Huntington's disease (HD) patients suffer from motor, cognitive and behavioral impairments, with heterogeneous phenotypes and variable time course. This leads to a high variance of HD markers, none of which is currently sensitive enough to 1) measure disease progression from small cohort data, 2) predict disease entry in carriers of the HD mutation (during the prodromal phase or in patients considered asymptomatic: pre-HD patients), and 3) measure a significant evolution of the state of pre-HD patients over a time window compatible with the realization of clinical trials (about 2/3 years). Moreover, the markers of HD do not allow a fine stratification of the patients. Hypothesis/Objective Our objectives are 1) to evaluate the sensitivity of new markers and assessment tools for symptomatic (HD) and presymptomatic (pre-HD) patients, 2) to define a model of disease progression, and 3) to establish an enrichment strategy to improve patient selection for future therapeutic trials. Method We will evaluate newly developed cognitive tests, multimodal imaging techniques, biological markers and use innovative statistical approaches. We will follow 60 patients with the mutation responsible for MH (40 presymptomatic pre-MH patients, 20 symptomatic MH patients) and 20 healthy volunteers (controls) over a 24-month period.