search

Active clinical trials for "Parkinson Disease"

Results 3401-3410 of 3533

Beam Walking Across the Lifespan for Falls Prediction

AgingParkinson Disease5 more

Background: Dynamic balance keeps the vertical projection of the center of mass within the base of support while the center of mass moves. The age-related decrease in dynamic balance is a risk factor for falls. Dynamic balance tests are used to predict the risks for falls and eventual falls but the psychometric properties of most tests assessing dynamic balance are unsatisfactory and comprise no actual loss of balance while walking. Objectives: Using beam walking distance as a measure of dynamic balance, we will determine the psychometric properties, lifespan and patient reference values, the relationship with selected 'dynamic balance tests', and the accuracy of beam walking distance to predict falls. Methods: This cross-sectional observational study will examine healthy adults in 7 decades (n=432) at 4 centers. Center 5 will examine patients (n=100) diagnosed with Parkinson's disease, multiple sclerosis, stroke, and balance disorders. At Test 1, all participants will be measured for demographics, medical history, grip and leg strength, short physical performance battery, static balance on a force platform, and dynamic balance using beam walking (4m-long, 4, 8, and 12 cm wide) under single (beam walking only) and dual task conditions (beam walking while concurrently performing an arithmetic task). In addition, cognitive function (global cognition, attention, executive function, processing speed, memory) will be assessed. Patients and healthy participants age 50+ will be additionally measured for fear of falling, history of falls, miniBESTest, functional reach on a force platform, timed up and go, and reactive balance. At Test 2, 7-10 days after Test 1, healthy adults young and age 50+ (n=40) will be re-tested for reliability of beam walking performance. All participants age 50+ will be re-called to report fear of falling and fall history 6 and 12 months after Test 1. Conclusion: The investigators expect to find that beam walking performance vis-à-vis the traditionally used balance outcomes predicts more accurately fall risks and falls.

Unknown status2 enrollment criteria

The CloudUPDRS Smartphone Software in Parkinson's Study.

Parkinson's Disease

This study compares the validity and usability of smartphone software for home monitoring of symptoms and signs in Parkinson's disease as compared to the current clinical gold standard - the Unified Parkinsons Disease Rating Scale.

Unknown status9 enrollment criteria

Influencing Factors on Gait Variability in PD

Parkinson Disease

The principal motor features of Parkinson's disease (PD) include rigidity, tremor, bradykinesia, and postural instability. These motor deficits might cause gait dysfunction including reduced gait velocity, stride length, arm swing, and increased gait variability. Among these, increase in gait variability increased fall risk and served as a marker of disease progression. Previous studies reported that some factors might influence gait variability. However, which one contributes most has not yet been verified. Therefore, the purpose of the present study is to identify the more related influencing factors on gait variability in people with PD.

Unknown status6 enrollment criteria

Study on the Relationship Between Environmental and Occupational Exposure to Metals and Parkinson's...

Parkinson DiseaseSecondary

The Department of Experimental Medicine - Section of Hygiene, Occupational Medicine, Forensic Medicine of the Second University of Naples, the Section of Neurology of the Second University of Naples and the Mediterranean Neurological Institute NEUROMED, IRCCS are involved in the realization of a research project aimed at studying the correlation between environmental and occupational exposure to metals (copper, iron and manganese) and Parkinson disease in order to increase the knowledge of these possible risk factors and highlight an eventual predictive-diagnostic meaning of possible discrepancies in the content of these elements; secondly the collected data could be used for assessing the association (odd ratio-OR) between pathologies and different risk factors (for example smoking habits, professional exposure and so on).

Unknown status6 enrollment criteria

Role of Dopamine on Loss Aversion Behaviour: Study on Parkinsonian Patients

Parkinson's Disease

Use lay language. Many decisions involve the possibility of gaining or losing relative to the status quo. The loss aversion behaviour is a cognitive concept explaining that people are more sensitive to the possibility of losing objects or money than they are to the possibility of gaining the same objects or amounts of money. We hypothesised that dopamine could be involved in the loss aversion behaviour. To highlight this, we have chosen a model of dopaminergic depletion : the Parkinson's disease The primary purpose of this protocol is to study the role of dopamine in the loss aversion phenomenon by comparing brain activity in parkinsonian patient with and without treatment with L Dopa, when they are exposed to mixed (gain/loss) gambles using money. The second purpose is to highlight the role of a dopamine depletion by comparing patient without treatment vs healthy paired control. 2 groups : 20 parkinsonian patients (tested two times : with and without treatment by L dopa) 20 healthy paired control Description of the protocol for patients : J0 : Inclusion visit (duration : 4h): motor assessment (UPDRS) neuropsychological and psychiatric assessment (MMS, MATTIS, BREF, Stroop, Ardouin scale, UPPS, MADRS, Hamilton, LARS). J0+1 day and J0 +2 days : 2 visits of MRI (magnetic resonance imaging) acquisition (with or without treatment) : Each acquisition was composed by an orientation sequence+ an anatomic sequence + a functional sequence. For healthy subjects, they have only one visit of 2 hours including a MMS, a MADRS and the MRI acquisitions.

Unknown status29 enrollment criteria

Perceptual Decision Making Under Conditions of Visual Uncertainty

Parkinson's DiseaseDystonia1 more

In this proposal the investigators have three Specific Aims using human patient populations as model systems; 1) identify a role for the Basal Ganglia (BG) in perceptual decision making; 2) determine whether the Basal Ganglia contribute to decision making under conditions of visual uncertainty; 3) determine whether the cerebellum plays a role in perceptual decision-making under conditions of visual uncertainty. The investigators designed experiments using healthy humans and humans with diseases known to affect the Basal Ganglia and the cerebellum, Parkinson's Disease, dystonia and non-dystonic cerebellar damage. With this approach the investigators will test the following hypotheses: 1) Patients with Parkinson's Disease and dystonia will have more difficulty than healthy controls making perceptual decisions when faced with sensory uncertainty; when sensory information is certain, patients will show improved decision-making but will still be impaired relative to healthy humans. Hypothesis 2: If ambiguous sensory information is aided by prior information, patients with Parkinson's Disease and dystonia will be unable to use the prior (bias/memory) information to inform their decisions. Hypothesis 3: Deep Brain Stimulation (DBS) of Basal Ganglia structures will improve the ability of patients to use prior information to inform their decisions when faced with sensory uncertainty. Hypothesis 4: Both cholinergic and dopaminergic medical therapies will improve the ability of patients to use prior information to inform their decisions. Hypothesis 5: Patients with non-dystonic cerebellar damage will be similar to healthy controls in performance of a perceptual decision making task in conditions of visual uncertainty. The overarching framework of this application is that the same mechanisms (D1 striatal synaptic plasticity) that operate in reward learning play a role in learning and using stimulus priors in a perceptual decision-making task when faced with uncertainty. Because Parkinson's Disease and dystonia share deficits in striatal circuitry, the patient deficits on this task will be similar. Because non-dystonic cerebellar patients do not have dysfunction of striatal circuits, they will show no deficits in the ability to use stimulus priors to guide choices in uncertain conditions. In the event these patients do show deficits, this is will provide evidence for an unexplored role for the cerebellum in perceptual decision-making.

Unknown status37 enrollment criteria

Biofeedback to Ameliorate Freezing of Gait

Parkinson's Disease

The freezing burden will be quantified in subjects with Parkinson's Disease (PD)before and after 6 weeks of training. Two types of interventions (20 subjects in each group) will be tested: 1) Open-loop group (OLG); 2) Closed-loop group (CLG). Each session of the OLG training includes walking courses aimed at provoking freezing episodes. The experimenter will trigger an auditory rhythmic stimulation (RAS) in walking conditions likely to invoke freezing (e.g., turning) and the subject will learn to synchronize his/her gait with the auditory cues, i.e., to keep the walking pace and coordination and, as a result, to avoid freezing. Similar principles will apply for the CLG training; however, the RAS will be elicited automatically by a device that recognizes an approaching freezing episode.

Unknown status5 enrollment criteria

Ioflupane I123 (DaTSCAN) and Positron Emission Tomography-computed Tomography Fludeoxyglucose (PET-CT...

Parkinson Disease

Parkinson disease is one of the most common neurodegenerative illnesses. The disease is characterized by decrease in dopamine levels and decrease in the number of dopaminergic neurons and dopamine receptors. There are gene mutations that increase the risk for the disease. Two of those mutations are on the LRRK2 gene and on GBA gene. It is yet unknown if there is a difference between the metabolic brain function of Parkinson patients that carry one of the two mutations to Parkinson patients with no known mutation. Participants: diagnosed Parkinson patients that carry a gene mutation in either LRRK2 or GBA genes, Parkinson patients with no known mutation and healthy volunteers as a control group. The participants will go through both examinations DAT SCAN and PET CT SCAN at the Tel Aviv Sourasky Medical Center Nuclear Medicine Institute. The examination results will be given to the participants by a doctor from the neurology department.

Unknown status4 enrollment criteria

Alternating DBS for Stepping Control in Parkinson's Disease

Parkinson Disease

Parkinson's disease (PD) is a disabling, progressive condition characterised by severe problems with movement for which medical treatment in the longer term can be unsatisfactory. Deep brain stimulation (DBS) is a treatment, which directly stimulates the nerve cells affected inside the brain to help overcome the difficulties with movement. Classically, DBS stimulates in a manner that is constant. Many patients develop severe problems with walking, so-called freezing of gait, which can be unresponsive to constant DBS. In this study the investigators will test if left-right alternating DBS helps to improve gait problems by potentially promoting left-right alternating up- and down-modulated brain activity, which was found during walking in a previous study. The investigators will test if alternating DBS improves the ability to adjust walking speed and to walk freely compared to constant DBS.

Unknown status4 enrollment criteria

Temporal Expectations in Parkinson's Disease

Parkinsons DiseaseHealthy

Although major progresses were realized during recent years, temporal cognition is still poorly understood. However, abnormal temporal cognition is an underestimated aspect of several neurological disorders, particularly if basal ganglia (BG) are affected. Therefore, the interest of studying temporal cognition is double: firstly, it is an essential function necessary to guide all behavior; secondly, it seems to be very sensitive to the integrity of dopaminergic pathways. It is well known that Parkinson's disease (PD) is partly due to a degeneration of neurons producing dopamine in the Substantia Nigra pars compacta (SNc). Therefore, in this project, PD patients and healthy volunteers will be used as a model to study the role of dopamine in temporal expectation. An expectation is an internal representation of an event that is likely to occur in the future. Temporal expectation builds-up as time elapses before the upcoming event. The role of temporal expectation in the oculomotor domain has often been studied using anticipatory eye movements as a tool. Indeed, expectation evokes anticipatory eye movements. However, to the knowledge of the investigators, expectation and anticipation have so far been studied in experimental tasks where temporal information is essential but not voluntarily controlled. This is usually referred to as 'automatic' or 'emergent' timing: the timing of the eye movement adapts to the timing of the target, implicitly and without voluntary control of the subject. However, anticipatory movements can also be based on an explicit estimation of time, e.g. during music playing. In summary, timing can be based on cognitive (explicit) or automatic (implicit) processing. The originality of the behavioral task the investigators will use in this study is that it will require an explicit comparison of a memorized duration with elapsing time in order to anticipate target appearance. In this task, expectation of the upcoming event will build up on explicit temporal information. Same PD patients will be tested under treatment ("ON") and without treatment ("OFF") to determine the effect of dopamine in time expectation . Only levodopa responsive Parkinson patients will be included and among them only those receiving levodopa and/or dopa agonists three times daily at a stable dosis since 30 days. the investigators hypothesize that eye movements latency will not linearly covary with objective time in "OFF" PD patients. In treated PD patients, a recovery of the linear relationship between subjective and objective time is expected. This would clearly demonstrate the role of dopamine in temporal expectation in humans.

Unknown status17 enrollment criteria
1...340341342...354

Need Help? Contact our team!


We'll reach out to this number within 24 hrs