View clinical trials related to Parasomnias.
Filter by:Previous studies have indicated a high incidence of sleep disturbances and anxiety symptoms in individuals with colorectal cancers prior to undergoing surgery, leading to worsened postoperative pain, slower recovery, and higher risk of chronic pain. The enhancement of sleep quality is intricately linked to reducing stress. Preoperative drugs that combine hypnosis and anti-anxiety have not been studied in colorectal cancer patients. Midazolam oral solution is safe and effective for short-term hypnotic and anti-anxiety effects in clinical preoperative settings. In the current randomized controlled clinical trial, 280 patients experiencing sleep disturbance or anxiety prior to colorectal cancer surgery will receive midazolam solution to assess its potential efficacy in reducing postoperative pain, expediting recovery, and decreasing the likelihood of chronic pain. Additionally, the study aims to explore the potential connections between midazolam administration and reductions in stress and inflammation.
The goal of this study is test the hypothesis that sleep problems for children with ADHD are linked to sensory over-responsivity, a type of sensory processing difference that causes a person to interpret daily sensory input as stressful. This study examines the impact of sensory over-responsivity on bedtime arousal levels in 30 children with ADHD (ages 6-10). We will also test a bedtime intervention targeting sensory over-responsivity at bedtime and examine how it impacts bedtime arousal levels and sleep difficulties.
The platform protocol is designed to be flexible so that it is suitable for a range of study settings and intervention types. Therefore, the platform protocol provides a general protocol structure that can be shared by multiple interventions and allows comparative analysis across the interventions. For example, objectives, measures, and endpoints are generalized in the platform protocol, but intervention-specific features are detailed in separate appendices. This platform protocol is a prospective, multi-center, multi-arm, randomized controlled platform trial evaluating potential interventions for PASC-mediated sleep disturbances. The hypothesis is that symptoms of sleep and circadian disorders that emerge in patients with PASC can be improved by phenotype-targeted interventions. Specific sleep and circadian disorders addressed in this protocol include sleep-related daytime impairment (referred to as hypersomnia) and complex PASC-related sleep disturbance (reflecting symptoms of insomnia and sleep-wake rhythm disturbance).
The platform protocol is designed to be flexible so that it is suitable for a range of study settings and intervention types. Therefore, the platform protocol provides a general protocol structure that can be shared by multiple interventions and allows comparative analysis across the interventions. For example, objectives, measures, and endpoints are generalized in the platform protocol, but intervention-specific features are detailed in separate appendices. This platform protocol is a prospective, multi-center, multi-arm, randomized controlled platform trial evaluating potential interventions for PASC-mediated sleep disturbances. The hypothesis is that symptoms of sleep and circadian disorders that emerge in patients with PASC can be improved by phenotype-targeted interventions. Specific sleep and circadian disorders addressed in this protocol include sleep-related daytime impairment (referred to as hypersomnia) and complex PASC-related sleep disturbance (reflecting symptoms of insomnia and sleep-wake rhythm disturbance).
Post-stroke fatigue (PSF) was defined as 'a subjective feeling of physical and/or mental exhaustion that is unrelated to exertion and does not typically improve with rest'. About 25~85% of first stoke patients had PSF in the first year. Literature review from animal studies suggested the mechanism of post-stroke fatigue may be due to prolonged production of inflammatory cytokines process after stroke. Acupuncture therapy which regulates the inflammatory process may have the potential to ameliorate fatigue symptoms alone with sleep disturbance after stroke. Acupressure which stimulating the same acupoints by manually pressure may make it easy to perform in anytime and anywhere. The effect of circadian based acupressure application on post-stroke fatigue and sleep disturbances need be further examined. The purpose of this two-year study is to (1) explore the distribution of inflammatory cytokines (blood and urine IL-1β, IL-6, TNF-α, IL-8) and post-stroke fatigue and sleep, and (2) examine the effect of circadian-based acupressure application on the inflammatory cytokines (urine and blood IL-1β, IL-6, TNF-α, IL-8), and post-stroke symptoms fatigue and sleep) in ischemic stroke patients with post-stroke fatigue during rehabilitation. Ischemic stroke patients (N=240) will be assessed from the rehabilitation wards. Patients with fatigue (FAS>=24) at assessment (n=78) will be further randomly assigned to the circadian based acupressure application group (AA), or the routine care control group (RC) for 2 weeks. Data of inflammatory cytokines (of IL-1β, IL-6, TNF-α, IL-8), post-stroke fatigue (Fatigue assessment scale), and sleep (Pittsburg Sleep Quality Index and consumer tracker) will be collected. Descriptive statistics, t-test, repeated measure ANOVA, linear/logistic regression or appropriate nonparametric equivalent will be used to compare pre-post differences and to compare differences between groups. Study results will provide information about the mechanism and effect of acupressure application on inflammation and post-stroke fatigue and sleep disturbances in ischemic stroke patients.
The gut-brain axis plays a crucial role in the regulation and development of psychological and physical processes. The first year of life is a critical period for the development of the gut microbiome, which parallels important milestones in establishing sleep rhythm and neurodevelopment. Growing evidence suggests that the gut microbiome influences sleep, cognition, and early neurodevelopment. For term and preterm-born infants, difficulties in sleep regulation can have major consequences on infants' health, attachment between infants and their caregivers, and can even lead to life-threatening consequences such as shaken-baby syndrome. Preterm born infants are at even higher risk for sleep and neurodevelopmental problems. Although neonatal care has improved over recent decades, preterm birth rates continue to rise and lead to a wide range of neurodevelopmental disabilities that are unaddressed with current therapies. Given the importance of sleep and the gut microbiome for brain maturation, neurodevelopment, and behavior, identifying effective interventions within the gut-brain axis at the beginning of life is likely to have long-term implications for health and development of at-risk infants. The aims of this project are to I) demonstrate the association between the gut microbiome, sleep patterns and health outcomes in children up to two years of age; and II) to leverage gut microbiome-brain-sleep interactions to develop new intervention strategies for at-risk infants. The investigators hypothesize that the establishment of a healthy gut microbiome during early life is crucial for both short- and long-term child health outcomes, as dysbiosis can harm sleep regulation, brain maturation, and neurobehavioral development. The investigators predict that the administration of synbiotics improves microbiota establishment, sleep rhythm, and neurodevelopmental outcomes. This project integrates a randomized controlled trial (RCT), ex vivo, and in silico experiments with I) key technology platforms for computational modeling to capture the ontogenic norms of gut microbiota; II) neuronal and actimetry-based quantification of multidimensional aspects of infant sleep; III) breath metabolomics (exhalomics) of host and microbiome metabolism; and IV) high-throughput ex vivo models for investigating host-microbiome interactions. Outcomes include I) an understanding of age-normative microbiome composition, its variation (circadian, inter-individual), and the factors that influence the microbiome's plasticity throughout infancy; II) actionable knowledge of microbial species and metabolism that can be targeted to modify sleep regulation and improve neurodevelopmental outcomes, especially in at-risk infants (e.g., preterm-born); III) microbial and metabolic biomarkers with diagnostic potential for later regulatory and behavioral problems; and IV) an open-source analytical "toolbox" for microbial multi-omics that can be immediately applied in other areas of microbiome-host research. To achieve these goals, our strategy combines multiple disciplines focusing on factors that exert the greatest influence on health during infancy: the gut microbiome, sleep regulation, and neurodevelopment. The impact of this project is substantial and globally relevant, as it advances possible treatment options for supporting neurodevelopmental health in preterm- and term-born infants, explores novel translational approaches for addressing regulatory difficulties, and provides key information for tailored prophylactic synbiotics and possible development of "post-biotics". Further, the study supports the investigation of biomarkers for neurodevelopment and advances early prevention of developmental and mental illnesses.
Many people with atopic dermatitis (AD) experience sleep disturbances. Greater sleep disturbances are associated with greater burden including increased sick days and impaired cognition. Patient focused research has found that sleep was one of the 3 most problematic symptoms for people with AD and their families. Upadacitinib demonstrated clinically meaningful sleep improvement based on patient-reported outcome measures such as the Atopic Dermatitis Impact Scale (ADerm-IS) Sleep Domain score in Phase 3 registrational trials, but objective data on upadacitinib's effect on elements of sleep disturbance such as Wake After Sleep Onset, or Sleep Efficiency, have not been collected. Upadacitinib is an approved drug for the treatment of moderate to severe atopic dermatitis (AD). This study is conducted in 2 Periods. During Period 1, participants are randomly assigned into 1 of 2 groups called treatment arms to receive upadacitinib or Placebo. In Period 2, participants will be switched to receive open-label upadacitnib. Approximately 112 adult participants ages 25 to 63 with moderate to severe AD who have moderate to severe sleep disturbance will be enrolled at up to 32 sites worldwide. This study consists of a 35-day Screening Period; a 2-week randomized, double-blinded period (Period 1); a 22-week open-label extension period (Period 2); and a 30-day follow-up visit/call. Participants will receive oral tablets once per day of Upadacitinib or Placebo for 2 weeks followed by Upadacitinib oral tablet for 22 weeks There may be higher treatment burden for participants in this trial compared to their standard of care. Participants will attend regular visits during the study at a hospital or clinic. The effect of the treatment will be checked by medical assessments, blood tests, checking for side effects and completing questionnaires.
To explore the efficacy of a single low dose of esketamine during surgical abortion in patients with sleep disturbance
The goal of this pilot intervention study is to examine the feasibility and acceptability of a novel bedtime manipulation protocol called "The Power Down" for autistic youth, ages 6-10. The main questions it aims to answer are: 1. Is the Power Down feasible for caregivers to do each night? 2. Do the families find the Power Down an acceptable intervention to address their child's difficulties settling down to fall asleep?
The main objective will be to assess the effect of Lactium® on sleep efficiency in volunteers presented with persistent subclinical insomnia.