View clinical trials related to Restless Legs Syndrome.
Filter by:Our study aimed to examine a possible association between Restless legs syndrome and cerebrovascular disease, by examining patients during hospitalization for acute stroke or transient ischemic attack, in a matched case-control design.
This study is to investigate the long-term safety and efficacy and the information on the proper use of Regnite® under conditions of daily clinical use.
Several studies report association between restless legs syndrome (RLS), HTA and cardiovascular diseases . The mechanisms involved in this relationship remained unknown, but several evidences favor the role of periodic limb movements in sleep (PLMS), patterns frequently associated with RLS. Sympathetic overactivity is associated with PLMS with increased pulse rate and blood pressure coincident with PLMS. PLMS-related repetitive nocturnal blood pressure fluctuations could contribute to the risk of high blood pressure, heart disease, and stroke in patients with RLS, especially in the elderly. Several studies already reported that dopaminergic agonists reduce the severity of RLS and the PLMS index. Do dopaminergic agonists reduce the risk of cardiovascular diseases and associated autonomic dysfunctions in patients with RLS ? Nocturnal BP (blood pressure) decline has major clinical implications, and the loss of normal reduction in BP during sleep is associated with high risk of cardiovascular morbidity and mortality. The main aim of this study was to evaluate the impact of rotigotine patch treatment on validated cardiovascular risk factors ambulatory BP during night, day and night-to-day ratio, and endothelial function in patients with idiopathic RLS compared to placebo.
Restless Legs Syndrome (RLS) research has focused on the sensory features and failed to address an important aspect of RLS; i.e. a 'hyperarousal' or profound chronic sleep loss without significant excessive daytime sleepiness. This hyperarousal produces RLS symptoms by overwhelming the normal inhibitory processes needed to decrease sensory and motor cortical activity for resting and sleep. Thus the hyperarousal produces both the RLS need to move when trying to rest and the inability to maintain sleep. The biological consequences of this hyperarousal process on sleep (increased wake time) and cortical excitability (as demonstrated by transcranial magnetic stimulation (TMS)) are postulated to reflect increased degree of excitatory glutamatergic activity, and therefore affected brain regions will show relatively increased glutamate (Glu) and glutamine (Gln) on MR spectroscopy (MRS). Changes in inhibitory activity and GABA may also occur, but less significantly than the increase in Glu/Gln. Our pilot MRS data discovered a new abnormality in RLS: increased Thalamic Glx (Glu + Gln) that correlated well with sleep measures of hyperarousal. Glx levels are not specific for the neurotransmitter role of Glu. In this project RLS and matching controls subjects will be studied using polysomnograms (PSG) and TMS and 7T MRI for MRS that provides accurate measurement of Gln levels, which reflect mostly neurotransmitter Glu activity. The first aim is to confirm that Gln is increased in the thalamus and to determine if this also occurs in the motor and sensory cortices. The relation between Glu, Gln and GABA will also be evaluated. Second, assessments will be made of the degree of relation between Gln increase and the hyperarousal effects on sleep and cortical excitability (TMS). This would demonstrate that abnormally increased Glu activity is primary to RLS hyperarousal and radically changes the emphasis in RLS to be less on dopamine and more on Glu-hyperarousal as a major feature of RLS.This is an entirely new direction for RLS research and treatment development. The new concept of hyperarousal adds a missing dimension to understanding RLS, namely the discovery of the Glu abnormality and its central relation to the other hyperarousal features.
Firefighters frequently work extended duration shifts and long work weeks which have adverse effects on alertness, health, safety and performance. This protocol uses a survey instrument to examine the effects of extended duration shifts on safety outcomes (e.g., motor vehicle crashes, accidents, injuries), health (e.g., diagnosis and treatment of sleep disorders, improved general health indices, decreased number of sick days), and performance (e.g., decreased response time). This study will expand understanding of the nature, scope, etiology and consequences of firefighter fatigue and increase our ability to develop guidelines that can be generalized across fire departments throughout North America. This study could provide an avenue to make lasting policy improvements that could enhance the safety, health, and performance of firefighters.
Gabapentin enacarbil (GEn; GSK1838262; HORIZANT), at a dose of 600 mg/day, is currently approved in the United States for the treatment of adults with moderate-to-severe primary Restless Legs Syndrome (RLS). The aim of this study is to compare the efficacy, tolerability, and safety of GEn at lower doses (450 and 300 mg/day) as well as the already approved dose of 600 mg/day versus placebo for the treatment of subjects with moderate to severe primary RLS. This study is being conducted as a post-marketing commitment (PMC) as a condition of the approval of HORIZANT tablets (NDA 022399).
The purpose of the study is to determine the precision of an unobtrusive sleep measurement system. The system measures a force sensor signal under the mattress and analyzes sleep quality. The system measures: time in bed, sleep stages, sleep fragmentation, heart rate, respiration rate, sleep related breathing disorders, and limb movements.
A double-blind randomized controlled trial comparing iron plus vitamin C plus probiotic (lactobacillus plantarum 299) to iron plus vitamin C plus placebo in correcting the iron deficiency in children with Restless leg syndrome (RLS) and iron deficiency. One hundred children with diagnosis of RLS will be recruited over a two- year period.
The purpose of the study is to show that Rotigotine improves Restless Legs Syndrome (RLS) symptoms in subjects with moderate to severe RLS during both day and evening.
The aims of the trial are to assess the safety and the efficacy of SPM 962 following once-a-daily transdermal administration within a range of 2.25 to 6.75 mg/day in Japanese patients with restless legs syndrome (RLS) in a multi-center, open-label trial. The maximum treatment period is 53 weeks. The trial is an extension trial from the precedent 6-week, double-blind, randomized, placebo-controlled, parallel-group comparative trial(243-07-003). The trial is also for an exploratory investigation of incidence of augmentation, the most problematic complications in dopaminergic treatment.