View clinical trials related to REM Sleep Behavior Disorder.
Filter by:This project will test the hypotheses that people with 5-HT RBD have systemic alpha- synuclein pathology, prodromal DLB signs, and brainstem lesions in regions that control REM sleep. AIM 1 will seek to detect abnormally phosphorylated alpha- synuclein aggregates on targeted skin biopsy in a cohort of people with 5-HT RBD and matched controls (taking SSRIs but without RBD). Aim 2 will use ultra-high field MRI at 7T to examine the pontine region of the coeruleus/subcoeruleus complex for evidence of neurodegeneration as well as segment and parcellate REM sleep related neuronal structures. Aim 3 will test for speech deficits. While these aims are independent we suspect that the severity of autonomic, speech and cognitive deficits will correlate with loss of neuromelanin signal on MRI and pathology on skin biopsy. The investigation is a longitudinal designed study to examine histopathology, neuroimaging changes and speech function from baseline (Time 1) to a follow-up after 30 months (Time 2). A total of 60 individuals, 30 with 5-HT RBD and 30 controls, will be recruited at Time 1, brought back at Time 2, and tested across all Aims at both study visits.
The purpose of this study is to ascertain the functional profiles of the immune cells within the gastrointestinal tract and to determine how these cells contribute to autoimmune and neurologic diseases.
The goal of this observational study is to investigate concussions and contact sports practices in REM sleep behaviour disorder (RBD). The main questions it aims to answer are: - What is the proportion of patients with RBD that have a history of concussions or exposure to contact sports? - Is this proportion higher to that in control patients without a diagnosis of RBD? Participants will undergo an interview with a sleep medicine specialist to answer questions about history of concussions and contact sports practices. Researchers will compare an RBD group and a control group (without RBD) to see if the proportion of concussions and exposure to contact sports differ.
The goal of this clinical trial is to investigate the feasibility if a remotely administered smartphone app can increase the volume and intensity of physical activity in daily life in patients with isolated Rapid Eye Movement (REM) sleep behaviour disorder over a long period of time (24 months). Participants will be tasked to achieve an incremental increase of daily steps (volume) and amount of minutes exercised at a certain heart rate (intensity) with respect to their own baseline level. Motivation with regards to physical activity will entirely be communicated through the study specific Slow Speed smartphone app. Primary outcomes will be compliance expressed as longitudinal change in digital measures of physical activity (step count) measured using a Fitbit smartwatch. Exploratory outcomes entail retention rate, completeness of remote digital biomarker assessments, digital prodromal motor and non-motor features of PD, blood biomarkers and brain imaging markers. Using these biomarkers, we aim to develop a composite score (prodromal load score) to estimate the total prodromal load. An international exercise study with fellow researchers in the United States and United Kingdom are currently in preparation (Slow-SPEED). Our intention is to analyse overlapping outcomes combined where possible through a meta-analysis plan, to obtain insight on (determinants of) heterogeneity in compliance and possible efficacy across subgroups
By 2030 the number of patients with Parkinson's Disease (PD) would increase by 56% affecting 1 out of 120 people older than 45 years-old. It is known that 10-15 years before the onset motor symptoms such as tremor, rigidity and akinesia, patients often experience a specific sleep trouble called REM sleep behaviour disorder (RBD). Follow-up of those subjects showed there was a conversion rate to PD and related disorders (called synucleinopathies) over 80%. The pathophysiology of RBD is poorly understood. The development of cutting-edge technologies such as 7 Tesla MRI and the optimisation of image processing methods made it possible to non-invasively explore in vivo small brain structures involved in sleep and movement disorders. The investigators hypothesize that brain and brainstem microstructure, composition, sodium homeostasis and connectivity may change in 15 isolated RBD (iRBD) subjects compared with 15 healthy controls and that these changes may be correlated with clinical scores. This study would help fill the gap in early diagnosis of synucleinopathies, by contributing to better targeting patients who could be included in therapeutic trials with a neuroprotective effect. Besides, the exploration of original pathophysiological pathways such as sodium homeostatis could provide the necessary arguments for the development of new target therapeutics.
This study is to investigate the safety and efficacy of PXS-4728A as an intervention therapy in participants with iRBD. This study will be conducted in participants aged 50 to 80 years of age and will investigate a single dose level.
This study will enroll participants with idiopathic REM sleep behavior disorder (RBD) and healthy controls for the purpose of preparing for a clinical trial of neuroprotective treatments against synucleinopathies.
In collaboration with approximately 8 centers that specialize in iRBD we will recruit a total of 80 individuals for the study. All subjects will be enrolled into a 2-year longitudinal study where skin biopsies will be performed at 3 sites on each patient at 12-month intervals (baseline, year 1, year 2). Plasma blood collection will be performed at 12-month intervals (baseline, year 1, year 2). Detailed quantified examination, cognitive evaluation, medical history, and questionnaires will be performed at each visit. Additional biomarker, imaging and clinical information (if available) will be obtained for the purpose of determining phenoconversion to clinically apparent synucleinopathy. Subjects enrolled in the study will have baseline evaluations and follow up visits at 12 and 24 months to define any changes to clinical diagnosis (clinical phenoconversion). Skin biopsies will be repeated at the 12- and 24-month follow up visits to determine the rate of P-SYN accumulation over time and the rates of nerve fiber degeneration within punch skin biopsies.
REM sleep behavior disorder is a novel and distinct parasomnia characterized by recurrent dream enactment behaviors (DEBs) and polysomnographic features of REM sleep without atonia (RSWA), with typical onset age at early 60's. Idiopathic RBD (iRBD) has been suggested as a most specific precursor of α-synucleinopathy-related neurodegeneration (e.g. Parkinson's disease (PD)). There are increasing reports of positive familial cases in both iRBD and PD. In the past few years, the investigators have established the baseline data of a case-control family cohort of iRBD (208 first-degree relatives (FDR) of patients with iRBD and 204 FDRs of controls). Not only did the investigators confirm the familial aggregation of iRBD with neurodegeneration and iRBD cases, the investigator also found that the FDRs harbored a spectrum of isolated RBD features (including DEBs, REM- sleep behavioral events, and RSWA). Besides, when compared with control-FDRs, iRBD-FDRs patients showed more prodromal markers of neurodegeneration (including possible/probable RBD, excessive daytime sleepiness, constipation, and subthreshold parkinsonism) as suggested by the International Parkinson and Movement Disorder Society (MDS) research criteria. The promising baseline findings paved the way for the current proposed prospective study of this unique family cohort. In addition, around 85 unaffected FDRs from each group has repeated the assessments at a mean follow-up duration of about 4 years (early termination of the study supported by RGC- ECS Ref no. 24117018; reason for early termination - ECS PI applicant left the University at early 2020), the preliminary data indicated a persistent familial aggregation of RBD symptoms, loading of prodromal markers (e.g. possible RBD, subthreshold parkinsonism), and a seemingly faster progression into prodromal RBD among the FDRs of iRBD than that of control. This current proposed study is a prospective study with a mean of 7-year follow-up interval to monitor the progression of α- synucleinopathy neurodegeneration and related markers. With the rolling recruitment, the investigators now have 230 control-FDRs and 250 iRBD-FDRs, from which the investigators expect 200 FDRs of each group may respond to the follow-up study. A series of prodromal markers related to neurodegeneration including clinical and sleep assessment (e.g. autonomic symptoms, motor signs, neurocognitive function, sleepiness, vPSG and one-week actigraphy) that were measured at baseline will be reassessed. Specifically, home PSG with a body-movement monitoring system will be additionally implemented in the proposed study to empower the identification of RBD features, especially during the COVID pandemic period at which hospital accessibility is restricted. In addition, the development of clinical neurodegenerative diseases will be ascertained. This proposed study, by recruiting FDRs of iRBD patients (and controls) with prospective study design, will provide novel and important information on the progression of prodromal makers of α-synucleinopathy neurodegenerative diseases in a high-risk population and facilitate further genetic/omics and future neuroprotective intervention study of the familial iRBD.
REM sleep behavior disorder is a novel and distinct parasomnia characterized by recurrent dream enactment behaviors (DEBs) and REM sleep without atonia (RSWA) during polysomnographic assessment, with a male predominance and typical onset age at early 60's. The majority of patients with idiopathic RBD (iRBD) will eventually develop α-synucleinopathy, for instance Parkinson's disease (PD). Thus, iRBD has been considered as a highly specific precursor of α-synucleinopathy-related neurodegeneration. Recently, increasing studies have found that some participants present with only RSWA or DEBs (but without sufficient RSWA), which does not meet the diagnostic criteria for RBD. It has been suggested that these participants with subclinical features (either DEBs or RSWA) might represent a condition known as prodromal RBD. Several emerging evidence, including our own study, have implied a link between isolated RSWA (RSWA without DEBs) and markers of α-synucleinopathy-related neurodegeneration. However, it is still unclear whether the other condition related to RBD, i.e. recurrent DEBs but without sufficient RSWA, is related to a certain degree of α-synucleinopathy. In this regard, the novel concept of recurrent DEBs but without sufficient RSWA, also termed as prodromal/isolated RBD by some researchers, requires validation by further evidence in terms of clinical feature and neurodegenerative prodromal markers perspectives.