Methylphenidate for Apathy in Veterans With Parkinson's Disease
Parkinson DiseaseApathyApathy is one of the most common behavioral symptoms of Parkinson's disease. Patients with apathy show diminution in motivation and goal-directed behaviors, which is a fundamental aspect of human functioning, affecting dependency and quality of life. Although apathy is thought to be potentially treatable currently there are no effective treatments for apathy. Given the higher incidence of medical and psychiatric comorbidities, the Veterans Affairs health system represents a unique population for which medication response may be different from the general population. This study aims to evaluate if a medication that has already been proven to be useful in Alzheimer's disease patients with apathy, could be helpful in Parkinson's disease as well as decreasing its debilitating consequences and reducing patients' dependency on caregivers, providing well-deserved relief to patients and their loved ones.
A Longitudinal Evaluation of Oculometric Measures and Clinical Assessment Over Time in PD Patients...
Parkinson DiseaseThis is a prospective study in a cohort of about 30 patients with Idiopathic Parkinson's disease, who will be evaluated with a clinical assessment and an oculometric examination during a time period with specific intervals. This study aims to evaluate the correlation between oculometric measures and clinical assessment over time.
Cognitive Decline Following Deep Brain Stimulation
Parkinson DiseaseMovement DisordersThis research study aims to identify MRI-based brain biomarkers that predict an individual's response to Deep Brain Stimulation (DBS). In particular, this study will focus on changes in cognition associated with DBS. A total of 55 participants with Parkinson's Disease planning to undergo DBS will be recruited from MUSCs Clinical DBS Program. Participants will undergo four visits, including a 1-hour screening visit, a 1.5-hour pre-DBS MRI scanning visit, and a 3.5-hour post-DBS cognitive assessment visit.
Free-living Monitoring of Parkinson's Disease Using Smart Objects
Parkinson DiseaseParkinson's disease, one of the most common neurodegenerative diseases of the central nervous system, presents motor symptoms, including tremor, rigidity, bradykinesia, and postural instability. Assessments of patients with Parkinson's disease are typically performed using clinical scales, compiled by the healthcare staff or by the patient. Although commonly used in clinical practice, they have some limitations, including the low temporal resolution of the scales, the low granularity of the scores and the possible low inter- and intra-operator reliability. The recent development of digital technologies has led to the creation of IoT (Internet of Things) devices capable of providing quantitative indicators, potentially useful for an accurate differential diagnosis, as well as for monitoring the effects of therapeutic interventions. The peculiarity of these systems is the ability to provide indicators not only during periodic visits to the clinic, but also the ability to remotely monitor the patient's daily life activities. In this scenario, this study wants to test the hypothesis that the IoT devices like smart-ink pens and insoles are usable options for monitoring patients with Parkinson's disease.
Dementias and Microbiota Composition: Is Possible to Revert the Dementia Symptoms Reverting the...
Dementia AlzheimersDementia With Lewy Bodies3 moreDementia is the major cause of disability and dependency among older adults worldwide affecting memory, cognitive abilities and behavior, interfering with one's ability to perform daily lives activities. Although age is the strongest known risk factor for the onset of dementia, it is not a natural or inevitable consequence of aging. Dementia not only affects older people, since up to 9% of the cases appear before 65 years. The impact of dementia is highly important in financial terms also in human costs to countries, societies and individuals. Dementia is an umbrella term for several diseases, being Alzheimer's disease (AD) the most common form, contributing to 60-70% of cases. Other major forms include Lewy bodies Dementias (LBDs) and frontotemporal dementia (FTD). The role of the gastrointestinal microbiota in human brain development and function is an area of increasing interest and research. A large number of studies suggest that the gut microbiota can influence the brain, cognition and behavior of the patients, and also modulate brain plasticity, modifying brain chemistry via various mechanisms like neural, immune and endocrine Within these last two years some studies have showed differences in the microbiota of the AD patients from healthy controls. In this sense, increasing number of studies, most of them in animal models, support the notion that probiotics have significant benefit in maintaining homeostasis of the Central Nervous System. And recent studies try to replicate this finding in AD patients with controversial results. The main objective of DEM-BIOTA project is to improve the knowledge of the relationship between microbiota and dementia. DEM-BIOTA will explore the microbiota differences between dementias: AD, LBDs, that includes: Parkinson disease dementia (PDD) and Lewy Body Dementia (LBD) and FTD-behavioral variant, also in Mild Cognitive Impairment (MCI) to study the progression; in our context (Mediterranean diet and lifestyle) and characterize them in relation to neurocognitive and neuropsychiatric symptoms as well as patient functionality (dependency level). Moreover, the capacity of a probiotic compound in reverting or improving neurocognitive and neuropsychiatric symptoms and patient functionality in a sample of AD patients will be also studied.
Molecular Imaging of Inflammation in Parkinson's Disease Using LPS and TSPO-PET/MR
Neurodegenerative DiseasesParkinson DiseaseIt is not known what causes Parkinson's disease and what makes it worsen over time. Research conducted in the past few years has highlighted the possible role of inflammation on this process but its actual mechanisms are still obscure. In this study, the investigators aim to gain understanding on how inflammation is increased in Parkinson's disease and what are its mechanisms, by performing two Positron Emission Tomography (PET) scans using the tracer [11C]PBR28, that takes pictures of the brain highlighting the areas of inflammation, before and after the administration of a compound called Lipopolysaccharide or LPS, that is known to cause a mild degree of inflammation. The investigators will couple this study with two venous blood draws to measure the levels of circulating molecules of inflammation.
Walking and Thinking - Brain Activity During Complex Walking in Aging and Parkinson's Disease
Parkinson DiseaseGait Disorders2 moreEvery-day life means being part of a complex environment and performing complex tasks that usually involve a combination of motor and cognitive skills. However, the process of aging or the sequelae of neurological diseases such as Parkinson's disease (PD) compromises motor-cognitive interaction necessary for an independent lifestyle. While motor-cognitive performance has been identified as an important goal for sustained health across different clinical populations, little is known about underlying brain function leading to these difficulties and how to best target these motor-cognitive difficulties in the context of rehabilitation and exercise interventions. The challenge of improving treatments of motor-cognitive difficulties (such as dual-tasking and navigation) is daunting, and an important step is arriving at a method that accurately portrays these impairments in an ecological valid state. The investigators aim therefore to explore brain function during complex walking in healthy and PD by investigating the effects of age and neurological disease on motor-cognitive performance and its neural correlates during three conditions of complex walking (dual-task walking, navigation and a combination of both) using non-invasive measures of brain activity (functional near infrared spectrometry, fNIRS) and advanced gait analysis in real time in young, older healthy adults and people with PD.
Evaluating Safety, Tolerability, and Efficacy of Autologous MitoCell Transplantation in Subjects...
Idiopathic Parkinson's DiseasePrimary Objective: To assess the safety profile of autologous MitoCell administered to subjects with idiopathic Parkinson's disease (PD) Secondary Objective: To explore the efficacy and safety of MitoCell given as the recommended dose by stereotactic intrastriatal implantation
Effect of Medical Cannabis for Non-motor Symptoms of Parkinson's Disease
BladderOveractive1 moreMedical cannabis (MC) is a standard treatment in Israel to Parkinson's disease (PD) patients suffering from pain. Nevertheless, it is not known about MC effectiveness for other non-motor symptoms of the disease. Our aim is to prospectively observe patients with PD before and after initiation of MC, for non-motor symptoms effect. In specific, relying of data from multiple sclerosis patients and basic science showing cannabinoid receptor 1 (CB1) is abundantly expressed in the sub epithelial layer of the bladder, we will explore the impact of MC on bladder function and urinary symptoms.
The Motor Network in Essential Tremor: Mechanisms of Therapy
Essential TremorParkinson's DiseaseEssential tremor (ET) is among the most common movement disorders, and is the most prevalent tremor disorder. It is a progressive, degenerative brain disorder that results in increasingly debilitating tremor, and afflicts an estimated 7 million people in the US (2.2% of the population) and estimates from population studies worldwide range from 0.4% to 6.3%. ET is directly linked to progressive functional impairment, social embarrassment, and even depression. Intention (kinetic) tremor of the arms occurs in approximately half of ET patients, and is typically a slow tremor (~5-10Hz) that occurs at the end of a purposeful movement, and is insidiously progressive over many years. Based on direct and indirect neurophysiological studies, it has been suggested that a pathological synchronous oscillation in a neuronal network involving the ventral intermediate nucleus (Vim) of the thalamus, the premotor (PM), primary motor (M1) cortices, and the cerebellum, may result in the production of ET. In spite of the numerous therapeutic modalities available, 65% of those suffering from upper limb tremor report serious difficulties during their daily lives. Deep brain stimulation (DBS) has emerged as an effective treatment option for those suffering from medically refractory ET. The accepted target for ET DBS therapy is the Vim thalamus. Vim projects to PM, M1, and supplementary motor areas (SMA) and receives afferents from the ipsilateral cerebellum. Moreover, electrophysiological recordings from Vim during stereotactic surgery have identified "tremor cells" that synchronously discharge with oscillatory muscle activity during tremor. Clinical and computational findings indicate that DBS suppresses tremor by masking these "burst driver" inputs to the thalamus. The overall goal is to investigate the neural signatures of tremor generation in the thalamocortical network by recording data during DBS implantation surgery. Investigators will record data from the macroelectrode implanted in the Vim for DBS therapy, and through an additional 6-contact subdural cortical strip that will be placed on the hand motor cortical area temporarily through the same burr hole opened for the implantation of the DBS electrode.