View clinical trials related to Parkinson.
Filter by:Inherent with intricate allocation of brain resource and attention shift, postural-suprapostural task is defined as postural control takes place while the other concurrent task is being performed. Recent studies have indicated that attentional focusing alters attention allocation in the brain as well as motor performance of a postural-suprapostural task. Also, most studies have demonstrated benefits of inducing an external focus relative to internal focus for motor performance. However, postural difficulty might be a critical factor for choosing an appropriate focusing strategy, and the strategy used in a particular difficulty level do not always generalize to other difficulty levels. Besides, despite a lot of studies have been done, current findings are confined to behavioral observations in young healthy adults for lacking direct neural evidence. With the uses of H-reflex, event-related potential and behavioral measures, the purpose of the 3-year research project is to investigate the differences in performance quality and intrinsic neural mechanisms of a postural-suprapostural task for older adults and patients with Parkinson's disease, by adopting external and internal strategies for suprapostural task under different posture difficulties. In the first year, the investigators will characterize suprapostural focusing effect on reciprocity of a postural-suprapostural task, with a special focus on modulation of motoneuron excitability in sitting and standing posture for healthy young and older adults using H-reflex technique. In the second year, the adaptive selection of suprapostural focusing strategy will be investigated for patients with Parkinson's disease by varying the standing surface (stable/unstable surface). In the third year, the investigators will investigate suprapostural focusing effect on brain resource allocation for patients with Parkinson's disease, in light of event-related potential and movement-related potential. The present project is expected to have significant contributions not only to gain a better insight to neural correlates of concurrent postural and motor suprapostural tasks with internal/external focusing strategy under different posture difficulty, but to optimize treatment strategy for older adults and patients with Parkinson's disease with balance or multi-tasking disturbances.
The scientific aim of this study is to investigate the efficacy and safety of incobotulinumtoxinA (Xeomin-Merz Pharmaceuticals) in the tremor of Parkinson‟s disease. Our hypothesis is that injection of Xeomin into the muscles of arm, forearm and hand decreases the tremor amplitude and frequency leading to improvement of the patient‟s function.
Subjects diagnosed with Idiopathic Parkinson's Disease, between ages of 40-85 inclusive, who have been referred for gait training. Since there can be subtle differences in the brain organization of left- and right-handed people that may influence some of the measurements, right handed participants are preferred. However, a left handed participant may be considered. Participants will be randomly assigned to one of two groups to undergo two weeks of twice-daily sessions. Group A receiving goggles fitted with lenses that distort vision and Group B patients receiving sham goggles
Single-centre, open-label, randomised, three-part, two-way crossover study in 84 healthy volunteers. In each part, the study consisted of two consecutive single-dose treatment periods separated by a washout period of at least 14 days.
This study is designed to evaluate the high-frequency range deep brain oscillations (HFO) as pathologic markers in patients undergoing deep brain stimulation for epilepsy or Parkinson disease. Newly developed technology allows for the chronic recording of these brain signals at the same time as clinical stimulation is occuring. We will learn both whether these HFO correlate with disease activity and whether the HFO change in response to ongoing stimulation (potentially giving insight into the underlying mechanism of action of DBS).
The objectives of this study were to characterize the effects of food on the pharmacokinetics (PK) and tolerability of BIA 9-1067 in healthy male subjects.
The investigators conducted an intervention based in proprioceptive exercises and balance tasks. The investigators also carried out a brief intervention in manual dexterity. The study hypothesis is that a brief intervention in upper extremities and a exercise program can increase functionality in Parkinson.
The proposed randomized controlled trial will evaluate the effects of treadmill training augmented with virtual reality on fall risk. 300 older adults with a history of falls will be recruited to participate in this study. This will include older adults (n=100), patients with mild cognitive impairment (MCI) (n=100), and patients with Parkinson's disease (PD)(n=100). Subjects will be randomly assigned to the intervention group (treadmill training with virtual reality) or to the active-control group (treadmill training without virtual reality). Each person will participate in a training program set in an outpatient setting 3 times per week for 6 weeks. Assessments will take place before, after, and 1 month and 6 months after the completion of the training.
The purpose of this study is to assess the effects of unilateral deep brain stimulation on upper and lower extremity motor function in advanced Parkinson's disease patients. It is hypothesized the unilateral stimulation will lead to improvements in bilateral motor functioning.
The overall goal of the study is to evaluate how research participants in Parkinson Disease studies that include brain imaging with a dopamine transporter ligand choose to receive the imaging data and what is the impact of the imaging data information on the management of their symptoms.