Active clinical trials for "Parkinson Disease"

Small exploratory pilot study to assess effects of a transcutaneous vibro-acoustic therapy device (Apollo Neuro) in people with Parkinson's disease (PD).

The purpose of this study is to evaluate the combined effects of non-invasive neuromodulation (specifically transauricular Vagus Nerve Stimulation) with exercise interventions to improve physical function and quality of life in individuals with Parkinson's Disease.

The project aims to evaluate the clinical and biological effects on patients with Parkinson's disease of an innovative treatment characterized by the use of transcranial Direct Current Stmulation (tDCs) with Dual Task (DT), i.e. including the performance of motor activities in conjunction with the request of cognitive performance, such as executive functions (creative flexibility, working memory and divided attention). Randomized controlled, double-blind, non-pharmacological study using device.The project involves the enrollment of 30 patients.Participants will be randomized into 2 groups: 15 / group and will carry out activities in DT associated with tDCS real (test group) or sham (control group). Each will carry out 12 rehabilitation sessions (2 / week) of 30 minutes. A follow-up is foreseen for all 12 weeks after the end of the treatment. Patients will undergo, at baseline (T0), at the end of the session (T1) and at 12 weeks (T2), a motor and a cognitive profile, moreover a blood sample will be taken. The project intends to improve the state of Parkinson's patients both thanks to the type of protocol that associates DT and tDCS, and thanks to the verification of the treatment through personalized biological analyzes. In detail, improvement in clinical performance, space-time variables in gait and cognitive tests are expected; the variability of synaptic and pathological markers will serve to verify the effect of the treatment.

Study Period: Approximately 35 months from the date of approval by the Institutional Review Board (IRB) (However, it can be extended depending on the subject enrollment period or the time to study closure) Indication: Patients who were diagnosed with Parkinson's disease ≥ 5 years ago Purpose: To find the maximum tolerable dose and evaluate the safety and exploratory efficacy of allogenic embryonic stem cell-derived A9 dopamine progenitor cell (A9-DPC) therapy in patients who were diagnosed with Parkinson's disease ≥ 5 years ago, as a treatment for delaying or stopping the progression of Parkinson's disease or inducing recovery of damaged brain. Number of Subjects: It aims to recruit up to 12 subjects for the dose-escalation study with two phases. [Low dose] Dose: 3.15X10^6 cells/body | Study group(A9-DPC): 6 subjects [High dose] Dose: 6.30X10^6 cells/body | Study group(A9-DPC): 6 subjects Study Design: Single center, open, single dosing, dose-escalation, phase 1/2a study Endpoints: [Primary Safety Endpoints] Occurrence of treatment-emergent adverse events (TEAEs) after administration of the IP Failure or rejection of transplantation and occurrence of bleeding and infection at Week 12 (3 months), Week 24 (6 months), Week 48 (12 months) and Week 96 (24 months) after administration of the IP Occurrence of adverse event of special interest (AESI)* after administration of the IP AESI: a) death, b) generation of a neoplasm or malignant tumor in tissues or organs, c) onset of an immune reaction including worsening of a previous autoimmune disease or new occurrence, and d) other delayed adverse events related to this embryonic stem cell treatment. [Exploratory Efficacy Endpoints] Change in the following clinical endpoints at Week 4 (1 month), Week 12 (3 months), Week 24 (6 months), Week 36 (9 months), Week 48 (12 months), Week 72 (18 months) and Week 96 (24 months) after administration of the IP compared to screening ① MDS-UPDRS Total Score, part Ⅲ & part Ⅳ (defined on/off) Defined-on condition: condition that the most positive functional effect, as agreed by the subject and the tester, after treatment with drugs for controlling the symptoms of Parkinson's disease Defined-off condition: condition after 12 hours off drugs for controlling the symptoms of Parkinson's disease ② K-MMSE ③ Seoul Neuropsychological screening battery (SNSB, Screening & Week 96 (24 months)) Change in the following clinical endpoints at Week 4 (1 month), Week 12 (3 months), Week 24 (6 months), Week 36 (9 months), Week 48 (12 months), Week 72 (18 months) and Week 96 (24 months) after administration of the IP compared to baseline K-MoCA Parkinson's Questionnaire (PDQ-39) Schwab and England ADL scale (SEADL) Non-Motor Symptoms Scale for Parkinson's Disease (NMS) Change in Graft size through MRI at Week 12 (3 months), Week 24 (6 months), Week 48 (12 months) and Week 96 (24 months) after administration of the IP compared to baseline Change in Cerebral FDG uptake and Striatal FDG uptake at Week 48 (12 months) and Week 96 (24 months) after administration of the IP compared to baseline Change in density of dopamine transporters as measured by FP-CIT PET at Week 48 (12 months) and Week 96 (24 months) after administration of the IP compared to screening Percentage of subjects who used concomitant medication related to Parkinson-mobility or Parkinson-Non-mobility during the whole clinical trial period and change in dose of each concomitant medication (per component) at 12 week intervals compared to the dose of each concomitant medication (per component) from the date of administration of IP to Week 12. [Other Safety Endpoints] Vital signs Laboratory tests Physical examination

The purpose of our study is to evaluate Vibrotactile Coordinated Reset stimulation (vCR) and its effects on motor function in people with Parkinson's disease (PD). vCR will be administered with a device called the Vibrotactile (VT) Touch device. vCR can be used in conjunction with medication and is expected to delay the need to increase dopamine medication. It also provides a more flexible alternative to deep brain stimulation (DBS) in that the vCR therapy can be easily stopped or modified to better suit the patients' needs.

The purpose of the study is to investigate the effects that Osteopathic Manipulative Medicine has on lower extremity muscle characteristics in PD. Muscle stiffness, range of motion, and gait will be measured. Participants will be asked to attend one in person session at the NYIT Academic Health Care Center. Participants will be randomly assigned to a control or experimental group. After a visit with the treating physician, both groups will have muscle stiffness tested using a myotonometry meter via a MyotonPRO device, gait measured while walking on a treadmill for 2 minutes before and after treatment, and range of motion tested using a goniometer. One week after the visit, participants will be asked to complete a brief survey over the phone with one of the study investigators.

A prospective, open-label, multi-center pilot study designed to evaluate the safety and effectiveness of the Felix system in the relief of upper limb tremors in adults with essential tremor and Parkinson's disease.

Parkinson's disease (PD) is a progressive neurological disorder characterized by motor and non-motor symptoms such as rigidity, bradykinesia, resting tremor, cognitive and autonomic dysfunctions, gait and balance difficulties. The impairment of gait, balance and cognitive performances is partially responsive to dopaminergic medications. This emphasizes the importance of non-pharmacological interventions for people with PD (pwPD). Intensive multidisciplinary motor and cognitive rehabilitation has been proposed as a complementary and effective treatment for managing pwPD. Several structural and physiological mechanisms have been suggested to underpin exercise-induced neuroplastic changes in PD, such as enhanced synaptic strength and preservation of dopamine neurons. To date, studies on brain changes induced by motor and cognitive exercises in pwPD have been small-scaled and uncontrolled. Identifying accessible and measurable biomarkers for monitoring the events induced by intensive motor and cognitive rehabilitation program would help in testing the treatment effectiveness and would allow personalization of rehabilitation strategies by predicting patients' responsiveness. Based on validated clinical assessments of intensive multidisciplinary rehabilitation treatment, the project will test the ability of a new set of biomarkers to evaluate rehabilitative outcomes in a cohort of people with PD.

The study will explore if coupling speed and cadence during treadmill training elicit more benefits than controlling speed alone in individuals with Parkinson's disease.

Deep brain stimulation (DBS) represents the treatment of choice for advanced stages of Parkinson's disease (PD). Currently, adaptive closed-loop stimulation systems that apply disease-specific biomarkers, such as local field potentials (LFPs), are being actively examined to facilitate DBS programming. However, the most suitable feedback signal, still remains to be determined. The investigators previously tested the usefulness of the patient's subjective rating on a visual analogue scale (VAS) as a potential feedback signal for DBS adjustment and found that VAS-based programming lead to similar results as our standard approach. One of the practical advantages of using VAS-based programming strategies - in addition to saving time - is the principal applicability of such an approach to a remote programming setting, although a validation of such an approach is required. Within the scope of a prospective, randomized multicenter clinical trial (the REMOTE Trial), the investigators will examine the effectiveness and safety of VAS-based remote DBS programming in PD by using a novel and recently introduced software platform (Abbott NeurosphereTM Virtual Clinic) that allows for the programming through a smartphone-based video connection with the patient. Therefore, n = 50 PD patients undergoing STN-DBS surgery will be randomized and subsequent to surgery will have their IPG settings adjusted either during regular visits at the hospital or alternatively be programmed remotely through a VAS-based approach. Prior to surgery and after a 90 days follow-up period, we will assess specific clinical (MDS-Unified Parkinson's Disease Rating Scale = UPDRS, Parkinson's Disease Questionnaire-39 sum index = PDQ-39 SI, Beck Depression Inventory = BDI, Montreal Cognitive Assessment Scale = MOCA) parameters to determine the effectivity and safety of the two different strategies on the patient outcome and to correlate it with VAS ratings and MRI data. The results will support the examination of remote-based DBS programming and evaluate the patient's subjective judgment as a valid feedback signal.