Evaluation of Anticholinergic Load
Parkinson DiseaseDrugs with anticholinergic properties may cause central and peripheral side effects. Several scales have been developed to evaluate the anticholinergic effect of drugs. Numerous studies have been published, showing a link between the anticholinergic load and the occurrence of adverse effects in the elderly. Anticholinergic Cognitive Burden is a scale that identifies the severity of adverse effects of anticholinergic drugs specifically on cognition including cognitive decline, mental confusion, mild cognitive impairment, and dementia. It was developed from reviews of the medical literature and the calculation of drug affinities for muscarinic receptors. This list of drugs was presented to a team of experts including geriatricians, psychogeriatrists geriatric nurses and pharmacists, who assigned these drugs three scores ranging from 1 to 3: score 1: drugs with a possible anticholinergic effect on cognition demonstrated in vitro by its affinity for the muscarinic receptor or by calculation of the ASA level (anticholinergic activity of the serum), but without relevant clinical evidence of cognitive adverse effects; scores 2 and 3: drugs whose moderate or severe anticholinergic effect on cognition has been clearly established clinically. The drugs of scores 2 or 3 are differentiated by their ability to cause confusion and their properties to penetrate or not the blood-brain barrier. The sum of the scores of the different drugs taken by the patient determines the cumulative cognitive risk score related to anticholinergics. This ACB scale seems to be the most relevant in Parkinsonian patients. Parkinson's disease (PD) is described for the first time in 1817 by an English doctor who gives it his name. Parkinson's disease is a chronic, slowly progressive condition defined by the presence of motor symptoms (resting tremor, slowness and difficulty of movement or bradykinesia, muscle rigidity, equilibrium disorders) associated with variable non-motor symptoms ( such as constipation, fatigue, depression and anxiety, sleep disorders, impaired sense of smell, cognitive disorders). Age is the main risk factor for the disease (?). There is a significant increase in the number of cases due to the aging of the population and the improvement in life expectancy. By 2030, the number of Parkinson's patients could increase by 56% with 1 in 120 people over 45 with the disease. Parkinsonian patients are subjected to a higher anticholinergic load, by the therapeutics used in their pathologies (antidepressants, neuroleptics, antiparkinsonians, etc ...). These central and peripheral anticholinergic effects may add to the symptomatology in Parkinson's patients and aggravate their pathology. My study project aims to improve the management of elderly patients with Parkinson's disease. Hypothesis: People involved in the management of Parkinson's patients are not always aware of the potential anticholinergic effects of drugs. Indeed, anticholinergic effects can be responsible for many hospitalizations in the elderly. This is why we want to make an inventory of treatments in Parkinson's patients at the entrance of hospitalization by evaluating the anticholinergic load using the ACB scale and the hospitalization exit in order to know if this score changed after informing the doctors responsible
The Ontario Neurodegenerative Disease Research Initiative
Alzheimer DiseaseAmyotrophic Lateral Sclerosis3 moreThe Ontario Neurodegenerative Disease Research Initiative (ONDRI) is a province-wide collaboration studying dementia and how to improve the diagnosis and treatment of neurodegenerative diseases including: Alzheimer's disease (AD) Parkinson's disease (PD) amyotrophic lateral sclerosis (ALS or Lou Gehrig's disease) frontotemporal lobar degeneration (FTD) vascular cognitive impairment, resulting from stroke (VCI)
Dance Exercise as Novel Complementary Therapy for Parkinson's Disease
Parkinsons DiseaseThe purpose of this study is to gather data to see if so-called enriched forms of exercise programs such as dance is more effective in improving balance and quality of life in patients with idiopathic Parkinson's disease than regular exercise programs that are currently provided by physical therapists.
Kinetic Tremor in Parkinsons Disease: Its Course Under Pramipexole (Mirapexin®) Treatment and Impact...
Parkinson DiseaseThe study will compare the effect of pramipexole on different types of tremor and particularly kinetic tremor in early and advanced Parkinson's disease patients and will evaluate the course of tremor measured with spiralometry under pramipexole treatment.
Post Market (Libra/LibraXP System) Deep Brain Stimulation (DBS) Parkinson's Disease Study
Parkinson's DiseaseThe objective of this study is to evaluate the effectiveness of Deep Brain Stimulation as an adjunctive treatment for reducing some of the symptoms of advanced, levodopa-responsive Parkinson's disease that are not adequately controlled with medication. It is the first study in Parkinson patients outside the US with a Deep Brain Stimulation system using constant current instead of constant voltage and using a lead with an active electrode tip.
Tele-diagnostics for Remote Parkinson's Monitoring
Parkinson's DiseaseThe purpose of this research study is to design, implement, and clinically assess a portable, user worn system for monitoring Parkinson's disease (PD) motor symptoms. The current standard in evaluating symptoms is the Unified Parkinson's Disease Rating Scale (UPDRS), a subjective, qualitative ranking system. The main goal of this research is to develop a quantitative system, Kinesia HomeView, to assess tremor as well as different features of bradykinesia in a home based system which can capture those symptom changes over the course of a day and aid in evaluating treatment protocol efficacy.
Shanghai Parkinson's Study
Parkinson's DiseaseBackground: Parkinson disease (PD) is the second most prevalent neurodegenerative disease, affecting more than 1 percent of the elderly population in the United States and other Western countries. Although effective treatments can alleviate symptoms in early PD, no cure or treatment slowing disease progression has been identified, and patients will eventually develop severe physical and mental disabilities and often die of complications. More research is needed on the causes of and appropriate preventive strategies for PD. The Shanghai Women s Health Study (SWHS) was established 10 years ago by investigators from the Vanderbilt University, the Shanghai Cancer Institute (SCI) and the National Cancer Institute (NCI) of the US. Their primary aim was to examine several unique dietary hypotheses on cancer among Chinese women. Researchers from the National Institute of Environmental Health Sciences and SWHS investigators are now interested in studying PD patients from SWHS to evaluate biological and environmental factors that may have put them at risk for PD. Objectives: To initiate a long-term prospective study on PD in Chinese women from the Shanghai Women s Health Study. To examine a set of biological and environmental factors that may raise or lower risk of developing PD. Eligibility: - All participants of the SWHS cohort are eligible. Design: Researchers will contact self-reported PD cases from the SWHS, confirm (or reject) the self-report, and invite them to a clinical examination at a coordinating hospital in Shanghai. Cases that confirm the self-report will be invited to visit the coordinating hospital for clinical examinations, including a PD clinical workup, blood and urine collections, a cognitive assessment and relevant neuropsychological testing, and an interview on additional risk factor exposures that are not available from baseline surveys. For those who could not participate in the clinical examination, researchers will ask for a few details about the diagnosis and treatment history and ask for permission to obtain medical records relevant to PD diagnosis from government or hospital agencies. For self-reported PD cases who are now deceased, researchers will follow a similar procedure by asking for consent and help from the next-of-kin.
Follow Up Study for Treatment of Parkinson's Disease With Deep Brain Stimulation
Parkinson DiseaseFollow up of patients enrolled in CSP 468, a study of deep brain stimulation treatment for Parkinson's disease
First Presentation of Parkinson Disease Patients to Neurologist
Parkinson DiseaseIn this study information is gathered about the treatment of Parkinson patients who present themselves in a neurological practice for the first time
European Compliance Study in Parkinson's Disease
Parkinson's DiseaseIn both symptomatic and asymptomatic disease, only about half of medicines are taken as prescribed1. Relatively little is known about how patients with Parkinson's disease take their medication. One of the challenges in the management of Parkinson's disease is the prevention and treatment of involuntary movements2,3 and wild fluctuations between being mobile and able to function against being slow, stiff and unable to move which recurs as a delayed (several years) effect of taking antiparkinson medication. One theory of why this occurs is that it is due to pulsatile rather than continuous delivery of medication to the brain4. If patients take their medicines erratically and irregularly, this causes more fluctuations in blood and therefore brain drug levels may prime patients for complications in the future. This project will define the extent of irregular medication taking in Parkinson's disease, examine associated clinical and demographic characteristics and examine the ease of adherence to different drug regimes. Knowledge of therapy adherence will help support patients in using their medicines to best effect. In the present document the terms compliance and adherence are used with equal meaning.