View clinical trials related to Arrhythmia, Sinus.
Filter by:Trauma-related nightmares in Veterans are associated with poor clinical outcomes, greater substance use, and increased risk of suicide. In spite of an urgent need to reduce the burden of trauma-related nightmares, the underlying physiological changes associated with them are poorly understood, and there are no clear evidence-based recommendations for their treatment. Limitations of current assessment procedures represent a barrier to improved care. In-laboratory sleep studies rarely capture nightmares, limiting the knowledge about them and their response to treatment. This study addresses these limitations by using extended, in-home sleep monitoring to capture sleep data associated with nightmare reports in Veterans, and assessing how these features are altered throughout a cognitive-behavioral nightmare treatment. Results from this study will increase understanding of trauma-related nightmares, and advance strategies for personalizing symptom management for Veterans.
Background: Sinus node dysfunction is a major cause of bradycardia necessitating pacemaker implantation. Evidences of genetic study supported that some genes involved in the pacemaker current or renin-angiotensin system were related to sinus node dysfunction. However, the influence of gene polymorphisms on sinus node dysfunction was not well studied. Methods: A group of 100 patients with documented sinus node dysfunction and 100 age- and sex- matched healthy control patients will be enrolled into this study. Gene polymorphism study includes the angiotensin-I converting enzyme gene, angiotensin II type 1 receptor gene, HCN1-4, SCN5A, KCNE and other possible gene polymorphisms which are related to sinus node function based on previous reports. Genetic polymorphisms are identified with polymerase chain reaction-based restriction analysis. Comparison of multiple haplotype analysis and single-locus analysis will be analyzed between the cases and controls. Estimated Results: Some genetic polymorphisms of these genes which are related to sinus node function or rennin-angiotensin system will show association with sinus node dysfunction. In multilocus haplotype analysis, some genetic haplotype profiles may demonstrate significant difference between cases and controls. In single locus analysis, some genetic polymorphisms may be associated with sinus node dysfunction. Estimated Conclusion and Clinical Implication: This study will demonstrate the genetic polymorphisms in RAS genes or some other genes associated with sinus node dysfunction. These results will support the roles of these genetic polymorphisms in determining the risk of sinus node dysfunction among the Chinese population in Taiwan.