View clinical trials related to Parasomnias.
Filter by:Older adults have a high prevalence of sleep disturbances, which negatively and severely impact their health and quality of life. Research indicated that 43% elderly outpatients in Taiwan have used benzodiazepine, which collectively led to great medical expenditure. Non-pharmacological treatments are highly recommended as first priority for sleep disturbance in practice. Music interventions have been reported to modulate the sympathetic nervous system and to improve the elderly's sleeping performance. Proprioceptive interventions can also activate the parasympathetic nervous system, providing calming effects and significantly reducing anxiety, hyperactivity and agitation in various populations. However, the effects of these intervention on the sleep disturbances in the elderly remain unclear. The research purpose is to investigate the effects of two sensory activities that are easily executed in everyday life - auditory (e.g. listening to the music before sleeping) and proprioceptive (e.g. joint compression exercises) interventions on improving the sleep performance of the elderly. Subjective sleeping quality assessment (Pittsburgh Sleep Quality Index & Insomnia Severity Index) and objective physiological records measured by actigraphy are used as outcome measures.
Visceral hypersensitivity is frequent in IBS population up to 60% and is correlated with severity and altered quality of life. Sleeping troubles are most frequent in IBS population. Insomnia is a frequent disorder with an important cost for healthcare. Insomnia could decrease pain threshold. Visceral hypersensitivity was never measure in patients with insomnia. The hypothesis is IBS patients with insomnia probably have lower visceral pain threshold. The objective is to assess pain threshold during a barostat procedure in in IBS patients with or without insomnia in comparison with healthy volunteers or patients with insomnia. If the hypothesis are confirmed, insomnia should be look at in IBS patients and its treatments could improve visceral hypersensitivity and IBS symptoms.
The overall aim of Dr. Levenson's research proposal is to test the acceptability, feasibility, and preliminary outcomes of a sleep promotion program delivered to 13-15 year olds who report insufficient sleep. Dr. Levenson will examine the feasibility and acceptability of the program through a randomized pilot trial (n=40) that uses a two-period, wait-list control design. Then, Dr. Levenson will test whether the program is associated with changes in sleep, motivation, and four outcome domains: academic functioning, attention, risk behavior, and affect. Such a broadly relevant program has the potential for enormous public health impact by improving sleep and facilitating healthy development across a range of domains among typically-developing adolescents who are highly vulnerable to adverse consequences.
The specific aims of this studyare to examine the 1) feasibility; 2) acceptability; and 3) preliminary efficacy of a tailored music intervention in home-dwelling older adults with dementia suffering from sleep disruption. Sixty dyads (older adults with dementia and their caregivers) will be randomized to receive the tailored music intervention immediately or following a four week delay.
Sleep disturbance, especially insomnia (i.e., difficulty initiating and maintaining sleep), affects over half of people with MS. Cognitive behavioral strategies have been shown to improve sleep quantity and quality in several neurologic populations (e.g., traumatic brain injury, Parkinson's disease), and cognitive behavioral therapy for insomnia (CBT-I) is considered the first-line insomnia treatment for adults in the general population. Although cognitive behavioral interventions have historically been delivered in-person, a growing body of literature supports telephone- and internet-delivered approaches. However, more work is needed to understand the effects of internet-delivered CBT-I on patient-reported and objective outcomes. This study is a pilot randomized controlled trial to test the preliminary effects of iSLEEPms, a CBT-I-based online intervention with telephone support for individuals with MS. After completing a baseline assessment (Week 1), 90 participants with MS will be randomized (1:1) to four weeks (Weeks 2-5) of iSLEEPms (intervention group) or treatment as usual (TAU; control group), and complete post-treatment (Week 6) and follow-up (Week 12) assessments. iSLEEPms participants will complete daily sleep diary forms and weekly online educational modules. TAU participants will continue usual care without access to the iSLEEPms materials. The primary outcomes will be patient-reported and actigraphic measures of sleep quality and quantity. Secondary outcomes will be treatment satisfaction, adherence, and integrity (iSLEEPms group only). Exploratory outcomes will be fatigue symptoms, depression symptoms, and cognitive function.
Cognitive Behavioral Therapy (CBT) is treatment of choice for insomnia. Many patients in psychiatric care have sleep problems including insomnia, but are rarely given the choice to participate in CBT to improve their sleep. Patients with Anxiety disorders and Affective disorders display high levels of sleep difficulties. Sleep problems are often general, such as insomnia and sleep phase problems. In a previous pilot study, the investigators of the current study developed a CBT protocol that would target sleep problems in this population. The basis was CBT for insomnia (CBT-i), but also including techniques that would alleviate sleep phase problems, (e.g. the systematic use of light and darkness), and techniques to target more general sleep related problems (e.g. difficulties waking up in the morning), that are also common in psychiatric patients. This treatment was well tolerated and gave moderate effects on insomnia severity in the pilot study. In a naturalistic randomized controlled trial, the investigators now evaluate the effects of this psychological treatment on sleep and anxiety and affective symptoms in patients at the program for Anxiety and Affective disorders, Southwest Psychiatry, Stockholm County Council, Sweden.
Cognitive Behavioral Therapy (CBT) is treatment of choice for insomnia. Many patients in psychiatric care have sleep problems including insomnia, but are rarely given the choice to participate in CBT to improve their sleep. Patients with Bipolar disorder is a patient group with high levels of sleep difficulties. Sleep problems in this patient group can be both more general such as insomnia, but can also be related to the Bipolar disorder. Other research groups have studied the use of behaviorally sleep treatments in patients with Bipolar disorder, but more studies are needed. In a previous pilot study, the investigators of the current study developed a CBT protocol that would target sleep problems in this population. The basis was CBT for insomnia (CBT-i), but with more emphasis on achieving sleep promoting behaviors specific to Bipolar patients, for instance techniques that would also alleviate sleep phase problems, (e.g. the systematic use of light and darkness), and techniques to target more general sleep related problems (e.g. difficulties waking up in the morning), that are also common in patients with Bipolar disorder. This treatment was well tolerated and gave moderate effects on insomnia severity in the pilot study. In a naturalistic randomized controlled trial, the investigators now evaluate the effects of this psychological treatment on sleep and Bipolar symptoms in patients at the departments of Affective disorders, Northern Stockholm Psychiatry and Southwest Psychiatry, Stockholm, Sweden.
The aim of this study is to observe the sleep and activity patterns of pre-menopausal breast cancer patients taking tamoxifen using a wrist-worn internet of things device and questionnaires.
The purpose of this study is to learn about how to provide treatment to cancer survivors who have difficulty sleeping.
Recent findings suggest that sleep disruption may contribute to the generation and maintenance of neuropsychiatric symptoms including anxiety, depression, agitation, irritation, and apathy while treating sleep disruption reduces these symptoms. Impairments in the neural systems that support emotion regulation may represent one causal mechanism mediating the relationship between sleep and emotional distress. However, this model has not yet been formally tested within a sample of individuals with or at risk for developing Alzheimer's Disease (AD) This proposal aims to test a mechanistic model in which sleep disturbance contributes to neuropsychiatric symptoms through impairments in fronto-limbic emotion regulation function in a sample of individuals at risk for developing, or at an early stage of AD. This study seeks to delineate the causal association between sleep disruption, fronto-limbic emotion regulation brain function, and neuropsychiatric symptoms. These aims will be achieved through a mechanistic, randomized 2-arm controlled trial design. 150 adults experiencing sleep disturbances and who also have cognitive impairment with the presence of at least mild neuropsychiatric symptoms will be randomized to receive either a sleep manipulation (Cognitive Behavioral Therapy for Insomnia CBT-I; n=75) or an active control (n=75). CBT-I improves sleep patterns through a combination of sleep restriction, stimulus control, mindfulness training, cognitive therapy targeting dysfunctional beliefs about sleep, and sleep hygiene education. Neuropsychiatric symptoms, fronto-limbic functioning, and sleep disruption will be assessed at baseline and at the end of the sleep manipulation through functional Magnetic Resonance Imaging (fMRI), clinical interviews, PSG recordings, and self-report questionnaires. Neuropsychiatric symptoms (anxiety and depression) and sleep disturbance (actigraphy, Insomnia Severity Index, and sleep diaries) will be assayed at baseline and each week throughout the sleep manipulation to assess week-to-week changes following an increasing number of CBT-I sessions. Wristwatch actigraphy will be acquired from baseline to the end of the sleep manipulation at week 11. Neuropsychiatric symptoms and sleep will be assessed again at six months post-manipulation.