View clinical trials related to Parkinson's Disease.
Filter by:This study will investigate the clinical, functional and neurophysiological effects of automated mechanical peripheral stimulation (AMPS) via the Gondola device administered to patients with chronic stroke, cerebral palsy and Parkinson's Disease. Results will be collected using standardized outcome measures and a transcranial magnetic stimulation assessment protocol including electrical stimulation and electromyographic recording.
Sleep benefit (SB) consists of a spontaneous, transient and inconsistent improvement of the mobility occurring on morning awakening in approximately 40% of Parkinson's disease (PD) patients, before taking the first morning dose of dopaminergic drugs. The SB could represent a pathway for the development of new therapeutic strategies for motor symptoms in PD. Being a seemingly unpredictable phenomenon and a great variability daily, inter- and intra-subject, the SB study requires multiple and repeated assessments of mobility for several days. An experimental home setting would be optimal for this purpose in terms of cost-effectiveness and patient acceptability. In addition, since the extent and nature of SB have not been well characterized so far, and the magnitude of its variability is unknown, a reliable assessment method, independent of observers and situation, the SB is a requirement of further research in this area. A recently developed technique combining machine learning algorithms with wireless portable sensors (accelerometers and gyroscopes) and software applications could be particularly promising for characterizing the complexity and multiplicity of SBs in. With this technique, repeated and multiple assessments of mobility can be performed in the homes of patients without the constant presence of a researcher. This approach offers several advantages in terms of cost-effectiveness, feasibility and acceptability of study protocols by patients. It also improves the ecological validity of subjective and objective estimates of mobility in these patients. The investigators chose to conduct this preliminary study on patients with PD rather than on healthy subjects, because SB is a phenomenon that has been described so far only in this population. Investigators also consider that the feasibility of the study will depend mainly on the patients' ability to move and the context of their own illness. SB is a phenomenon induced by sleep. The propensity and timing of sleep depend on the coordinated interaction of the duration of the previous awakening (homeostatic process) and a circadian signal (circadian process). In order to better understand SB, it is necessary to study the reciprocal influences of the circadian and homeostatic process. Investigators have devised a new paradigm to "shift" the circadian process phase around the homeostatic process, maintained under constant conditions, in order to observe the effect of the synchronism or desynchronization of these two processes on the awakening mobility of patients with an MP. This experimental approach was approved by Professor Aleksandar Videnovic (Harvard University School of Medicine, USA), opinion leader on circadian rhythmicity in the MP and scientific collaborator of this study. As a first step, the investigators plan to implement a technology-assisted home-based methodology, to validate it in PD patients and to verify the logistic feasibility of this method-assisted approach in a small group of patients, in order to to be able to apply this paradigm in larger scientific projects.
Background: Parkinson Disease (PD) is a nervous system disorder that affects movement. Dopamine is an important neurotransmitter in the brain. As PD progresses, there is less and less dopamine in the brain. Researchers think there may be a relationship between differences in attention and dopamine in people with PD. Objective: To learn if people with PD that is worse on one side also have differences in how much attention they pay to the two sides of space on their left and right. Eligibility: English-speaking, right-handed people age 35-80 with PD. Design: Participants will be screened with medical and neurological history and exam, and medicine review. Participants will have 1 study visit. It will last 7-8 hours. They will stop taking their Parkinson medicine 12 hours before the visit. Participants will complete questionnaires. Participants will do tasks on a computer screen. They will judge the middle of lines, react to stimuli, and search and identify items that appear on the screen. Participants may have functional and structural magnetic resonance imaging (MRI). MRI uses a strong magnetic field and radio waves to take pictures of the brain. During the MRI, participants will lie on a table that slides in and out of the MRI scanner. While inside the scanner, they will look at a cross on a screen, relax, and think about nothing. Participants will undergo prism adaptation. They will sit in front of a board while their chin rests on a support. They will point to 1 of 2 dots on the board while they wear prism glasses that shift their vision to the left or right....
This study evaluates the differences in cognitive function between healthy older adults, older adults with mild Alzheimer's type dementia and older adults with Parkinson's disease and if there are differences in valence assessment and activation that produce them a mood induction task. Subjects are assessed using neuropsychological tests and then a mood induction task based on movie clips is applied.
This study will evaluate the safety and tolerability of ABBV-0805 in adult participants with Parkinson's Disease and results from it will help guide the design of future clinical studies. ABBV-0805 is administered every 28 days by intravenous (IV) infusion.
This is a Phase 2, multicenter, double-blind, placebo-controlled, parallel-group study consisting of a screening period of up to 4 weeks, a 4 week randomized double-blind, dose-titration treatment period, followed by a 1 week safety follow-up period after the last dose of study medication, and a scheduled follow-up safety telephone call one week later.
Background: Parkinson s disease (PD) is a neurologic disorder that causes slowness, tremor, rigidity, and imbalance. Gait impairment is also common. There are 2 substudies: (1) Physiology of Freezing and Gait; (2) Vibratory Cueing. Healthy participants can join only Substudy 1. Objective: To study gait disorders in PD. Also, to test the effect of specific interventions for gait in people with PD. Eligibility: People ages 18 and older who: Have PD with bilateral symptoms but can walk without a cane or walker Are healthy Design: Participants will be screened in Protocols 93-N-0202 and 01-N-0206. Both substudies include a physical exam and medical history. Substudy 1: Participants will have one 6-hour visit. They must wear a tank tops and shorts with tennis shoes during the visit. They will perform gait tasks. Markers placed on the skin will record movements. They will have an EEG: They will wear an electrode cap to record brain waves. They will wear special glasses to record eye movements. Participants with PD will hold their morning dose of PD drugs. They can choose to be admitted to the hospital the previous evening. Otherwise someone else or a taxi must bring them to the visit. They will first perform the study tasks off their drugs. Then they will take their drugs and repeat them. Substudy 2: Participants will have one 3-hour visit. A small vibratory device will be attached to their ankle. Reflective markers placed on the skin will record movements while they walk: Without the device With the device, but the vibrator off With the device, with the vibrator on With a magnet attached to the ankle
This is a prospective study to demonstrate the safety and efficacy of differentiated neurons-derived from adult CNS progenitors cells transplanted in selected patients with Parkinson's disease.
The purpose of this study is to characterize the intestinal flora in subjects with Parkinson's Disease (PD) and to determine safety and trends in improvements in diversity of colonic microbiome following fecal microbiota transplantation.
The overall goal of this research proposal is to develop an adjunct to standard treatments that 'correct' disrupted neural circuitry in Parkinson's Disease (PD) patients. Directly treating these core deficits via targeted behavioral training should slow the progression of PD, assure greater resilience against future decline, and improve the quality of life of many living with PD. The purpose of this exploratory research study is to determine the benefits, if any, of the mobile device-based treatment described above in individuals with PD.