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Active clinical trials for "Parkinson Disease"

Results 3411-3420 of 3533

Study for the Early Diagnosis of Parkinson's Disease

Parkinson's DiseaseIdiopathic

The main objective of the study is to design and validate the blood based PDx gene expression and miRNA assay for the early diagnosis of Parkinson's disease patients. Differential diagnosis includes patients with Multiple System Atrophy, Progressive Supranuclear Palsy, Corticobasal Degeneration, Lewy Body Dementia, Essential Tremor and Normal Controls.

Unknown status7 enrollment criteria

Electrophysiological Activity of the Subthalamic Nucleus During the Processing of Emotional and...

Parkinson

The role of the basal ganglia in the processing of information with emotional or motivational content has been demonstrated by several lesion and functional imaging studies in humans and animals. Deep brain stimulation surgery provides an opportunity to study these structures in humans in electrophysiological terms. The aim of this study is to investigate modifications in the electrophysiological activity of the subthalamic nucleus (STN) during the perception of auditory and visual stimuli with emotional or motivational connotations in patients with Parkinson's disease who have just undergone implantation of a deep brain stimulator in the STN.

Unknown status8 enrollment criteria

Prevalence of Abnormal Postures in Parkinson's Disease

Parkinson Disease

Postural abnormalities represent disabling and painful complications in patients with Parkinson's disease (PD). The stooped posture is a typical feature of PD but with advancing of disease more severe body abnormalities can affect people with PD. These deformities include Pisa syndrome, camptocormia, antecollis, scoliosis and striatal deformities related to hand (striatal hand) and/or toes (striatal toes).

Unknown status6 enrollment criteria

Self-motion Perception in Parkinson's Disease

Parkinson Disease

Parkinson's Disease as well as being a disorder of motor function also causes a wide range of non-motor disturbances many of which are involved in the prodromal stage prior to the onset of motor symptoms. Abnormal perception in the visual and in other domains is increasingly being recognized. Control of the movement of our bodies in space involves perception of self-motion which is dependent on the processing and integration of multimodality information from the kinesthetic, proprioceptive, visual (mostly optic flow) and vestibular systems. Dysfunction in this process may contribute to disturbed postural control and thus result in gait abnormalities and falls which are common as Parkinson's disease progresses, is difficult to treat and causes disability and a loss of independence. The integration of information from different modalities ("multisensory integration") is vital for intact perception of the world. Theoretical studies, based on Bayesian statistics, have provided a framework to study multisensory-integration with predictions for an 'optimal' strategy. Many human and animal studies have demonstrated near optimal cue-integration. Yet, while multisensory integration is an active topic of research in normal brain function, with well-established tools, it has not been studied in PD. The investigators hypothesize, based on the apparent over-dependence in PD on visual cues that PD patients will demonstrate defective multisensory integration. This can have profound effects on basic motor functions. Furthermore, based on both visual and vestibular abnormalities (described above) the basic (uni-sensory) performance may also be degraded in PD. In this study the investigators will observe the basic (uni-sensory) and the multisensory integration of visual and vestibular perception of self-motion within the same experiment.

Unknown status4 enrollment criteria

Automated Deep Brain Stimulation Programming Using Functional Mapping

Parkinson Disease

Participants will undergo DBS programming guided by the DBS-Expert system and by a clinician per standard care.

Unknown status6 enrollment criteria

PET/MR Imaging in Patients With Short and Long Standing Parkinson's Disease

Idiopathic Parkinson's Disease

Parkinson's disease (PD) is a chronic, progressive, neurodegenerative disease that affects 1% of the population older than 60 years. The disease presents as a movement disorder manifesting mainly with resting tremor, bradykinesia, cogwheel rigidity and postural instability along with cognitive and behavioral disturbances and symptoms of other non-motor systems dysfunction. The pathophysiology of the motor dysfunction in PD is related to gradual loss of nigrostriatal dopaminergic neurons (originating from the substantia nigra (SN) compacta to the striatum) leading eventually to depletion of dopamine in the striatum. Striatal fluorine-18 isotopologue for L-3,4-dihydroxyphenylalanine([18F] F-DOPA) uptake follows a typical spatiotemporal pattern along the course of disease starting with a decreased uptake in the dorso-caudal putamen (contralateral to the side of predominant motor involvement) that progress to the caudate nucleus. The role of traditional magnetic resonance imaging (MRI) in the evaluation of PD is aimed mainly to differentiate idiopathic PD from secondary parkinsonism (e.g. vascular) and from other degenerative but atypical parkinsonian syndromes (e.g.Progressive supranuclear palsy ( PSP), Multiple system atrophy (MSA) etc.) that are associated with distinct structural features and therefore help establishing the diagnosis. However, new MR sequences such as diffuse tensor imaging (DTI) and susceptibility-weighted imaging (SWI) are now being investigated to evaluate the nigrostriatal dopaminergic neurons and iron accumulation in the SN, respectively. Resting-state functional magnetic resonance imaging (fMRI) that depicts brain network organization has been shown to be altered in patients with PD. In this technique, temporally synchronous, spatially distributed, spontaneous low frequency blood-oxygen level-dependent signal fluctuations in task-free settings are further clustered into maps of functional large-scale neural networks. Lower network efficiency that worsens as disease progresses has been shown in patients with PD. Recently, it has been shown that the integration of MRI and PET is technically feasible. The investigators believe that PET/MRI offers true multimodality imaging by combining anatomy, function and molecular processes that will allow more accurate identification of disease progression. To the best of our knowledge, this will be the first study to evaluate idiopathic PD (IPD) with 18F FDOPA PET/MRI. The aim of the study is to assess the feasibility of the modality and to evaluate both visually and quantitatively the association between the dopamine metabolism measured in the striatum by 18F-FDOPA PET with structural and functional MR findings in patients diagnosed with IPD with asymmetrical motor signs.

Unknown status12 enrollment criteria

Evaluation of Clinical Perfectionism in Parkinson Disease

Parkinson Disease

Scientific studies show that almost half of the people with Parkinson's Disease (PD) suffer of depression and / or anxiety.

Unknown status10 enrollment criteria

Effects of Lactobacillus Plantarum PS128 on Symptoms of Early-onset Parkinson's Disease: a Pilot...

Early Onset Parkinson Disease

This study is designed to examine L. plantarum PS128 can improve symptoms in early onset PD patients. L. plantarum PS128 is a psychobiotic that regulates the level of dopamine in specific brain regions. Patients with early onset PD will receive PS128 treatment for 12 weeks. Symptoms of PD will be clinically evaluated before and after the treatment, and the results will be compared.

Unknown status15 enrollment criteria

Balance Performance and Corticomotor Inhibition in PD

Parkinson Disease

Postural instability is one of the motor features of Parkinson's disease (PD). Most patients will develop balance dysfunction, and they may get worse with disease progression. According to previous studies, people with PD had abnormal changes in corticomotor excitability, especially disinhibition in the primary motor cortex (M1). Some evidence had shown that the cortical function in the M1 is crucial for the pathophysiology of the underlying motor symptoms in PD. Furthermore, neurostimulation over the M1 could modulate the corticomotor excitability in individuals with PD, and then improve their motor and also balance performance. However, whether the impaired corticomotor inhibition relates to balance dysfunction in people with PD is still unknown. In this study, the purpose is to investigate the possible relationship between corticomotor inhibition and balance performance in individuals with PD. However, the postural position during TMS measurement may affect the corticomotor excitability. To further establish the above-mentioned relationship, the secondary purpose is to explore and confirm whether the postural position will influence the correlation.

Unknown status8 enrollment criteria

Brain Activity During Gait in Parkinson's

Parkinson Disease

Lay Summary: Walking problems, such as slow and short steps, are very common in Parkinson's disease and lead to increased falls risk, as well as reduced mobility and quality of life. Walking issues are difficult to treat as medication interventions do not restore walking ability in people with Parkinson's, therefore physiotherapy approaches are used to help improve walking. Various physiotherapy strategies have been used, such as internal (thinking about bigger steps) or external prompts. External prompts include auditory (a metronome beat to step in time to), visual (lines to step over on the floor) and tactile (metronome-like vibration to step with) prompts that are very commonly used to improve walking in Parkinson's. However, the reason why walking improves in people with Parkinson's with these physiotherapy strategies is unknown, which has led to not all patients benefiting and only short-term walking improvements being seen. The main issues are that it is unclear if these various internal or external prompt strategies are effective with the progression of Parkinson's disease, and it is unknown which type of strategy is most effective at different disease stages or with more severe walking impairment, such as freezing (the inability to progress walking for short periods despite wanting to do so). Being able to use specific brain regions to pay attention to different internal or external prompts has been suggested to be the reason why people with Parkinson's can overcome their walking problems, but this has not been tested. Therefore, this study will use state-of-the-art digital technology to measure walking and brain activity changes with different internal and external prompts. The investigators think that the walking improvement with different prompt strategies relies on the ability to activate specific brain regions, and that brain region activity in response to internal or external prompts will change at different stages of Parkinson's disease. Ultimately, understanding the reasons why people benefit from these physiotherapy strategies and who benefits most from specific strategies will enable clinicians to provide more timely and efficient treatment for people with Parkinson's, and to develop more effective strategies to further improve walking.

Unknown status13 enrollment criteria
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