Using Gait Robotics to Improve Symptoms of Parkinson's Disease
Parkinson DiseaseDementia1 moreThis study evaluates the benefits of exoskeleton-based exercise for improving mood and cognition in people with Parkinson's disease (PD). Participants with PD will be assigned one of three treatments delivered over 8-weeks: exoskeleton exercise (experimental intervention), non-exoskeleton exercise (active comparator), and wait-list control (no treatment).
Non Invasive Neuromodulation for Patients With Motor Control Disorders
Parkinson DiseaseMovement disorders are neurological syndromes leading to excessive movements or to limited control of voluntary and automatic movements. Many of these disorders are not life-threatening but represent serious difficulties in carrying out the activities of daily living and reduce patient's independence and quality of life. This project NeuroMOD (neuromodulation for patients with disorders of motor control) proposes the development of a neuromodulation-based platform for the rehabilitation and restoration of motor and cognitive functions of patients suffering from Parkinson's disease (PD). Our project will focus on the application of a novel neurorehabilitation strategy, its functional and clinical validation, and on the evaluation of the impact of the use of the technologies involved in the musculoskeletal and the nervous system as well as user behavior. Parkinson's disease was selected as target pathology since it represents a paradigm of motor disorder diseases. Parkinson's disease affects adults and has a very high prevalence and a very high functional impact. In order to achieve this objective, we have defined the following research areas: Subproject 1. NeuroMOD: development of a neuromodulation platform composed by a TMS system, and an EMG (electromyography) and EEG (electroencephalography) system in combination with a system of virtual reality based on immersive glasses. Subproject 2. NeuroMOD-PD: development of therapies and evaluation of clinical evidence and motor and cognitive impact of NeuroMOD in the rehabilitation of patients suffering from Parkinson's disease impact. Subproject 3. NeuroMOD-Image: development of neuroimaging techniques to investigate the brain areas affected by the proposed therapies and temporary terms that neural plasticity is induced and evolves in Parkinson´s Disease.
Individualized Precise Localization of rTMS on Primary Motor Area
Parkinson DiseaseParkinson's disease (PD) patients have some problem with self-initiated movement task. Compared with health controls, task meta-analysis found that PD patients showed abnormal activation in pre-supplementary motor area (pre-SMA) and putamen. And the functional connectivity has already been reported between pre-SMA and putamen in 2013. Repetitive Transcranial Magnetic Stimulation (rTMS) is a sage and painless technique to activate cortical areas. The deep brain structure can be activated via stimulating superficial cortex by rTMS. For investigating the mechanism of self-initiated movement, this project is using functional magnetic resonance imaging (fMRI) to individualize the precise localization in motor area and combining rTMS to activate putamen.
Osteopathic Manual Treatment Parkinson's Disease and Truncal Dystonia
Parkinson DiseaseDystonia1 moreThis study will determine if posture and heart rate variability will significantly improve in Parkinsons disease with camptocormia after osteopathic manual treatments dystonia.
A Study That Compares the Extent to Which Apomorphine Becomes Available in the Body After Taking...
Parkinson DiseaseA study that compares the extent to which apomorphine becomes available in the body after taking either an investigational drug containing apomorphine or apomorphine that is injected under the skin in people with PD complicated by "OFF" episodes.
Selegiline for the Treatment of Excessive Daytime Sleepiness in Parkinson's Disease
Parkinson DiseaseThis is a multi-center, open-label, single-arm 8-week investigation of Selegiline for treatment of EDS in PD patients.
Biological Sample Collection for Research and Biobanking
Parkinson DiseaseDiabetes Mellitus6 moreThe New York Stem Cell Foundation (NYSCF) Research Institute is performing this research to study different conditions and diseases by using cells from the body (such as skin or blood cells). NYSCF uses these samples to make stem cells and other types of cells, conduct research on the samples, perform genetic testing, and/or store these samples for future use. Through this research, scientists hope to identify future treatments or even cures.
DTx Algorithms for Personalized Parkinson's Disease Treatment and Medication Plan Optimization
Parkinson DiseaseThe study is aimed at developing Digital Therapeutics (DTx) algorithms for personalized PD treatment and medication plan optimization, based on Real World Data (RWD) collected from patients via digital mobile app and wearable sensors. The study design is observational/noninterventional, prospective, single-arm, aimed at collecting data from wearable sensors for validation of symptom detection algorithms, through (1) a supervised in-clinic motor assessment, performed using validated clinical scales (Visit 3, Visit 4), and (2) an unsupervised, home-based, 6-month (Visit 3 to Visit 4) data collection from wearable devices (passive monitoring) for algorithm cross-validation using patient reported outcomes (PROMs) and remote clinical assessments. The devices used in the study will be a commercial smartwatch (Garmin Vivosmart 5) for inertial data collection and a digital application through which subjects will report PROMs via a digital symptom diary. Screening visits (Visit 1 and Visit 2) will be conducted prior to enrollment to verify eligibility criteria through clinical assessments, the subjects' symptom diary, and by assessing adherence to the use of the study tools provided (i.e., mobile application and smartwatch).
The Correlation of Reduction of Levodopa and Non-motor Symptoms of Parkinson's Disease After Deep...
Parkinson DiseaseVisual ImpairmentPatients with parkinson disease (PD) usually reduced the dose the levodopa after received deep brain stimulation (DBS). However, studies seldomly mentioned about the influences on non-motors systems after the reduction. Our study focused on the changes after DBS and attribute them to the levodopa variety.
Usability Study of a Neuropsychological Intervention Program Based on Virtual Reality in Adults...
Parkinson DiseaseNowadays, several strategies for treating neuropsychologic function loss in Parkinson disease (PD) have been proposed, such as physical activity performance and developing games to exercise the mind. However, few studies illustrate the incidence of these therapies in neuronal activity. This work aims to study the feasibility of a virtual reality-based program oriented to the cognitive functions' rehabilitation of PD patients. For this, the study was divided in intervention with the program, acquisition of signals, data processing and results analysis. The study highlights implementing new technologies to rehabilitate people with neurodegenerative diseases.