View clinical trials related to Sleep Disordered Breathing.
Filter by:The participants in the study will be adult patients with suspected sleep-disordered breathing. A one-night polysomnography will be performed using the NOXA1 device (NOX Medical, Reykjavík, Iceland). During the polysomnographic examination, sleep, breathing, heart rate and activity of the masticatory muscles will be recorded. Blood sample will be taken from each of the participants qualified to the study and control group to determine the level of dopamine and used to perform genetic tests of selected single nucleotide polymorphisms occurring within the genes regulating the concentration of dopamine and genes encoding dopamine receptors.
Given the critical role of sleep in enhancing neural recovery, motor learning, neuroprotection, and neuroplasticity, interventions to enhance sleep that target sleep could improve recovery and rehabilitation outcomes for stroke patients. In this proposal, a multidisciplinary group of researchers with expertise in rehabilitation medicine, sleep medicine, nursing, physical therapy, wearable technologies, and implementation science will adapt, implement and evaluate a state-of-the-art intervention to promote sleep for stroke patients undergoing acute rehabilitation. SIESTA-Rehab, adapted from a previous unit-based intervention, bundles two sleep-promoting interventions to address the unique sleep challenges stroke patients face during acute rehabilitation: (1) nursing education and empowerment to reduce unnecessary disruptions; (2) a systematic protocol to screen, diagnose, and treat sleep-disordered breathing if present during acute stroke rehabilitation.
Our goals are to demonstrate an active leukotrienes (LTs) mediated inflammatory response is involved in pathophysiology of sleep-disordered breathing (SDB), and to provide a theoretical evidence for LTs modify therapy in treating pediatric patients with SDB. The investigators have hypothesized that the pathophysiology of pediatric SDB involves specific systemic and local upper airway inflammatory response mediated by LTs. 1. LT concentration assays reveal higher levels in serum for both leukotriene B4 (LTB4) and cysteinyl leukotrienes (CysLTs) and in morning urine for LTE4 of SDB children, in comparison to healthy ones, and LTs productions emerge disease severity-dependent increases. There is a positive correlation between LTs production and other systemic markers such as neutrophil counts and high sensitive C-reactive protein (hsCRP). 2. Children with SDB have higher leukotriene receptor-1 (LT1-R) and leukotriene receptor-2 (LT2-R) expressions in adenotonsillar tissues of SDB children compared to recurrent infectious tonsillitis subjects. 3. Levels of LTs are positively correlated with body mass index (BMI) z-score, waist height ratio (WHtR), adenotonsillar size and polysomnography (PSG) indices including apnea-hypopnea index (AHI), obstructive apnea index (OAI), oxygen desaturation index (ODI), arousal index, percentage of time spend saturation lower than 90% (SLT90%) and negatively correlated with mean and minimal pulse oximetric saturation (SpO2), which indicates synergistic role of obesity and hypoxia are the determinants of LTs production in SDB. 4. In adenotonsillar mixed cell culture system, the addition of LTs can increase cellular proliferation rates and exhibit dose-dependent responses, whereas leukotriene receptor antagonists (LTRAs) elicit dose-dependent cellular reductions.