View clinical trials related to Prion Diseases.
Filter by:The purpose of this study is to evaluate the safety, tolerability, pharmacokinetics and pharmacodynamics of intrathecal (IT) delivery of ION717.
We are doing this research to identify biomarkers in individuals who are at-risk for familial prion disease. We hope to use these biomarkers to predict timing of disease onset in pre-symptomatic individuals and to guide the direction of future clinical trials.
The human Prion diseases can be classified into sporadic, acquired and inherited forms. Inherited forms usually manifest in higher age so there have to be factors preventing Prion propagation in young mutation carriers. Antibodies against the flexible tail of Prions have been shown to be protective in mice. The investigators intend to screen mutation carriers and controls for the presence of Prion autoantibodies.
The purpose of this study to investigate if cases of Creutzfeldt-Jakob Disease (CJD) and other forms of prion disease are being missed in older adults living within Lothian.
The study hypothesis is that that the deleterious effect of prions on the brain may be mediated (at least partially) by activation of serine proteases involved in the coagulation system. If this is true, then measurement of the activity of the coagulation system may be a marker of disease onset (in at higher risk individuals such as E200K* carriers) and for disease progression or activity in affected individuals. In addition, modulation of the coagulation system activity may be a potential tool for therapeutic intervention. *E200K- E200K mutation (Glu to Lys substitution) in the prion protein gene
PRION-1 aims to assess the activity and safety of Quinacrine (Mepacrine hydrochloride) in human prion disease. It also aims to establish an appropriate framework for the clinical assessment of therapeutic options for human prion disease that can be refined or expanded in the future, as new agents become available.