10 Clinical Trials for Various Conditions
This study seeks to establish the sensitivity and specificity of what appears to be a unique brainstem biomarker of Parkinson's Disease (PD) - an electrically induced olygosynaptic nasotrigeminal reflex response - in differentiating early stage PD from normal controls and from patients with various other neurodegenerative diseases. This study will additionally compare the biomarker to olfactory testing.
This open-label study is designed to assess the long-term safety and tolerability of dipraglurant in PD patients for up to 52 weeks (at doses of 150-300 mg per day) for patients that have completed an Addex sponsored double-blind clinical trial of dipraglurant.
This study is designed to evaluate the safety and efficacy of dipraglurant in PD patients with dyskinesia (randomized 1:1 to receive active or placebo) for 12 weeks (1 week at 150 mg per day and 11 weeks at 300 mg per day). The primary efficacy assessment will be based on the Unified Dyskinesia Rating Scale (UDysRS). Patients who complete the 12-week blinded treatment period may have the option to roll into an open-label safety extension study for an additional 12-month treatment period.
In this study, the investigators will examine the association of statin use and dyskinesia in a convenience sample Parkinson's disease patients in the Veterans Administration Health Care System.
Parkinson's disease (PD) and Drug-induced Parkinsonism (DIP) can be clinically indistinguishable and DIP sometimes represents "unmasking of underlying PD. The objective of this study is to determine the relationship of underlying Parkinson's disease (PD) to the incidence and clinical outcome in DIP using non-motor assessments as a marker for nigrostriatal degeneration. Research Design: This is a nested case-control design to investigate risk factors associated with the development of DIP and persistent Parkinsonism after antipsychotic (AP) withdrawal (a potential clinical marker of underlying PD). Target enrollment is 45 subjects. Methodology: We will examine objective olfactory function (via objective olfactory testing), other non-motor symptoms of PD (via standardized validated questionnaires), and motor findings (via clinical exam and quantitative gait analysis) in: 1) DIP patients (30 subjects) compared to AP-treated patients without Parkinsonism (15 subjects) and 2) patients with persistent Parkinsonism compared to those whose symptoms resolve in the DIP cohort followed prospectively after a change in AP treatment. Additionally, in patients where it was performed clinically, we will evaluate dopamine transporter SPECT imaging (DaTI) as a marker of nigrostriatal integrity examining the ability of qualitative and semi-quantitative analysis to distinguish between pharmacologic and degenerative Parkinsonism. We will also measure serum uric acid and Apolipoprotein A1, two putative biomarkers in early PD, and examine their relationship with clinical and radiologic status.
The study will involve an eighteen-week, double-blind, placebo-controlled parallel designed comparison between add-on topiramate and add-on placebo to stable treatment with amatadine in the treatment of Parkinson's disease (PD) patients who continue to have dyskinesia on amantadine.
This study will assess the safety, tolerability and efficacy of AQW051 in treating moderate to severe L-dopa induced dyskinesias (movement disorders) in patients with Parkinson's disease.
The purpose of this study is to generate long-term safety, tolerability and efficacy data for AFQ056 in patients who have participated in and completed any AFQ056 phase II study in PD-LID (Parkinson's disease, L-dopa induced dyskinesias).
This Phase IIb exploratory study is designed to determine whether AFQ056 is safe and effective and whether it can increase the therapeutic window of L-dopa in patients whose control of their Parkinson's Disease symptoms is limited by the development of dyskinesia induced by use of L-dopa.
Parkinson's disease (PD) is a common neurodegenerative disorder affecting approximately 80,000 Veterans, representing a priority area for VA research. Current medicines for PD only improve symptoms, treatments that slow disease progression are needed, and earlier diagnosis of PD may be the key to their development. PD symptoms can be mimicked by medicines (most commonly antipsychotic drugs that block dopamine), and some of these patients actually have underlying "prodromal" PD that was "unmasked" years before it would have caused symptoms. This problem is increasing as these medicines are now used for common conditions including post-traumatic stress disorder and depression. The investigators will identify prodromal PD in patients with drug-induced symptoms using brain scans. These patients will be enrolled in a randomized clinical trial of aerobic exercise which slows progression in animal models of PD and has other health benefits. The investigators will measure the effect of exercise on symptoms, disease progression (using brain scans) and markers of PD risk (using blood tests). These studies will improve early PD diagnosis and potentially identify a way to slow progression of PD.