View clinical trials related to Parkinson Disease.
Filter by:Studies have shown that non-contact boxing benefits individuals with Parkinson disease. Yet, the content of such sessions, has not yet been investigated. The following research question has therefore been asked: What is the physical intensity, in terms of both movement quality and quantity, as well as cardiovascular demand, in a group of individuals with Parkinson's disease during a one-hour session of Parkiboks? Though the study is exploratory, the investigators hypothesize to observe increases in cardiovascular activity during the session, as well as a high number of upper-limb repetitions of near maximal range of motion.
This study is a double blind comparative study exploring the neural underpinnings of taVNS modulating PD motor deficits. We hypothesize that taVNS might improve PD motor deficits by regulating the balance between excitation and inhibition in the primary motor cortex.
Parkinson's disease (PD) has been traditionally considered a movement disorder. In fact, it is now recognized as a multisystemic disease involving not only the central nervous system and presenting with a constellation of motor and non-motor features. While the dopaminergic therapy used to control motor symptoms can lead to the development of motor fluctuations, characterized by wearing-off, ON-OFF phenomenon, delayed-ON, dose failure, and dyskinesias, it has been demonstrated that also many non-motor symptoms can have daily fluctuations, according to the response to dopaminergic therapy. Therefore, non-motor symptoms may fluctuate in parallel with motor symptoms and their relationship to plasma dopamine concentration, although the exact mechanism of non-motor fluctuations (NMF) remains speculative. Non-motor features tend to worsen during disease progression and prove to severely impact the quality of life of patients, sometimes more than motor symptoms. The Non-Motor Fluctuation Assessment (NoMoFA) Questionnaire is a patient-derived and self-administered questionnaire, recently developed and validated by the International Parkinson and Movement Disorder Society (MDS), that identifies and quantifies the severity of static and fluctuating non-motor symptoms in people with PD. The NoMoFA scale is constituted of a total of 27 items investigating several non-motor features, such as fatigue (the most reported), sleepiness, and confusion. Considering the self-administered nature of the scale, patients must understand the questions, and it should be available in the patient's native language. However, the NoMoFa has not yet been translated into the Italian language. Considering that NoMoFA is a relevant scale in the assessment of patients with PD, we believe it is important to perform a translation and cross-cultural adaptation of the NoMoFA questionnaire in Italian, following the scales translation protocol from the international movement disorders society (MDS), and to analyze the reliability and construct validity of the translated scale in Italian patients with PD who experience non-motor fluctuations. The aim of the study is to translate and validate the adapted Italian version of NoMoFA questionnaire.
Balance problems and falls are among the most common complaints in Veterans with Parkinson's Disease (PD), but there are no effective treatments and the ability to measure balance and falls remains quite poor. This study uses wearable sensors to measure balance and uses deep brain stimulation electrodes to measure electric signals from the brain in Veterans with PD. The investigators hope to use this data to better understand the brain pathways underlying balance problems in PD so that new treatments to improve balance and reduce falls in Veterans with PD can be designed.
The aim of this interventional study is to compare the response to alcohol in patients with essential tremor (ET), essential tremor plus (ETplus), dystonic tremor (DT), tremor associated with dystonia (TaD) and tremor in Parkinson´s disease (PD). The main question to be answered is: • Is there a difference in the objective alcohol responsiveness of patients with ET, DT, TaD and PD? Participants will receive either vodka with rum-flavoured orange juice with a target blood alcohol of 0.4 ‰ or a non-alcoholic rum-flavoured orange juice (vice versa on the second study day). Before and 30, 60 an 120 minutes after the study drink the participants will undergo a clinical examination of the tremor and accelerometry will be performed. Researchers will compare alcohol and placebo in a randomized cross over way to see if the effect of alcohol on tremor exceeds the placebo effect.
The goal of this observational study is to identify targetable neural substrates of depression in Parkinson's Disease for the first time in people with Parkinson's between the ages of 40 and 80, who are experiencing symptoms of depression.
Parkinson's disease (PD) ranks second among neurodegenerative diseases and is a major cause of neurological motor disability. The number of PD cases doubled between 1990 and 2016. The consequences of PD, including an increased risk of falls, loss of autonomy and reduced quality of life, contribute to increased morbidity and mortality. The costs associated with falls in the elderly (a fortiori those with PD) and their consequences represent between 0.85% and 1.5% of total healthcare expenditure. There is currently no cure for PD. Treatment is symptomatic and depends on the degree of functional impairment and the age of onset. After a period of stabilization (state phase) of varying length, the clinical situation worsens because of treatment-related motor complications (motor fluctuations, on/off phenomena, dyskinesias, under/overdosing) and the appearance or worsening of disease-specific signs linked to the pathogenic process. Treatment of motor complications involves constantly adjusting doses and dosing schedules to suit each individual case, and to take account of variations in the patient's motor status over the months. These adjustments must also take into account the non-motor signs of the disease, notably thymic fluctuations, treatment-related behavioral disorders, fatigue, sensory and pain disorders. Regular follow-up of patients is therefore essential to assess the evolution of their symptoms, adjust treatment, adapt therapeutic interventions and improve their quality of life. However, most consultations with the neurologist are bi-annual, and because of the long time lapse between two consultations, the practitioner often has only incomplete information on the evolution of symptoms. To help fill these gaps, advances in digital health technologies, with the development of telemonitoring solutions, enable patients to be monitored remotely and provide a potentially more robust amount of information relating to the severity of the disease and its evolution over time. In this sense, remote monitoring in PD would enable the neurologist to readjust treatment at the right time and in the most appropriate way. This will be done by means of a weekly questionnaire (adapted from the clinical examination via the MDS-UPDRS scale) completed by the patient via a mobile application. Remote monitoring of patients should improve their symptom management and quality of life, hence the interest in an intervention offering a remote monitoring service: DIGIPARK MONITOR.
Project name: The mechanism and application of deep brain stimulation in the treatment of Parkinson's disease Objective: To test the hypothesis that electrical stimulation of substantia nigra regulates cognitive dysfunction in Parkinson's disease and to reveal its electrophysiological mechanism. Study design: This study is a self-controlled prospective cohort study. By comparing the behavioral characteristics of the memory paradigm under microelectrode stimulation during DBS operation and the characteristics of the underlying electrophysiological signals, and the behavioral characteristics of the memory paradigm and the characteristics of brain network activity under electrical stimulation when DBS is turned on 1 month after surgery. The regulatory effect of substantia nigra DBS on memory network was analyzed. Cases: 60 Case selection: Inclusion criteria: 1)Voluntarily participate in the clinical study and sign the informed consent; 2) Age 50-70 years old, gender unlimited; 3) The clinical diagnosis is consistent with typical PD, and the medical history is less than 20 years; 4) Patients who intend to use 3.0T magnetic resonance compatible dual-channel DBS device (G106R or G106RS, Beijing Pinchi Company) for bilateral subthalamic nucleus DBS surgery to control PD symptoms; 5) MRI excluded patients with obvious structural changes; 6) The visual acuity and hearing of the subjects were basically normal, and the compliance was good, and they could complete the tasks listed in the experimental scheme in accordance with the standards. Exclusion criteria: 1)Serious mental, cognitive and psychological disorders, unable to sign informed consent or cooperate with the operation and various tasks; 2) There are contraindications for neurosurgery, such as hydrocephalus, cerebral atrophy, cerebrovascular sequelae, heart disease and other cardiovascular and cerebrovascular diseases; 3) There are concomitant diseases that seriously affect health, such as tumors, serious abnormalities of liver and kidney function (indexes more than 3 times normal); 4) There is intracranial space occupation, cerebrovascular disease, mental illness, other neurological diseases, claustrophobia, or there is an implant in the body, which affects the nuclear magnetic scan; 5) The results of the Mini-Mental State Scale (MMSE) <24 or the Montreal Cognitive Assessment Scale (MoCA) <18 in the preoperative assessment, or the results of other scales indicate the presence of severe dementia. therapeutic schedule: This study did not change the patient's overall treatment regimen, and only electrical stimulation was tested during and 1 month after DBS surgery Efficacy evaluation: Effectiveness evaluation index (primary efficacy index and secondary efficacy index) : accuracy of memory paradigm, response speed Safety evaluation indicators: blood pressure, heart rate, dual frequency index, patient complaints and symptoms Statistical methods: The group t test was used to compare the normal distribution between the measurement data groups. For measurement data with non-normal distribution, Wilcoxon rank sum test was used for comparison between groups. The study period is January 1, 2024 - December 31, 2026.
This cross-over pilot study aims to study the acceptability of two methods of non-invasive brain stimulation for the treatment of Parkinson's disease mild cognitive impairment (PD-MCI) - repetitive transcranial magnetic stimulation (rTMS) and transcranial direct current stimulation (tDCS) targeted at the left dorsolateral prefrontal cortex (DLPFC). Twenty participants will undergo both interventions in a cross-over design. They sequentially undergo four consecutive phases (4 weeks each), 1) no-intervention baseline, 2) rTMS ór tDCS, 3) no-intervention, 4) second intervention. The primary outcome measure will be acceptability of the interventions, and secondary outcomes include feasibility, cognitive function, neuropsychiatric symptoms, motor function. We will use MRI to explore personalized targeting.
1. Analysis of the correlation between imaging and electrophysiological signals. 2. Real time analysis method for optimal implantation position. 3. Simultaneous Imaging and electrophysiology navigation. 4. Accuracy and security verification of navigation system. Expectation(Hypothesis): Develop an automated DBS surgical navigation system based on multimodal brain imaging data and neural electro-physiological signals, which can achieve real-time linkage navigation between imaging and electrophysiology, and automatically generate the optimal implantation position of DBS electrodes based on imaging and electrophysiological information through deep learning algorithms, thereby reducing DBS electrode implantation position errors and improving surgical efficacy.