View clinical trials related to Obstructive Sleep Apnea of Child.
Filter by:This study is aimed to validate the questionnaire called Pediatric Sleep Questionnaire on a Swedish cohort of children from 18 months to 15 years old with obstructive sleep disordered breathing.
Obstructive sleep apnoea (OSA) in children is a prevalent sleep disorder, and is characterised by repetitive complete or partial upper airway obstruction during sleep. It is an important disease as it is associated with a large spectrum of end-organ morbidities. Adenotonsillar hypertrophy is the commonest cause of OSA in children, however, the cause of the lymphoid tissue hypertrophy in some individuals but not the others remains unknown. To address the cellular heterogeneity and immune cell involvement in adenotonsillar hypertrophy, here, we propose to employ single-cell sequencing analysis to identify the cell-specific expression patterns associated with the disease, which will enhance our understanding of the pathogenesis of tonsillar hypertrophy in children with OSA and may provide directions for development of novel therapy.
Obstructive sleep apnea (OSA) and attention-deficit/hyperactivity disorder (ADHD) are two common, severe disorders in children. Unfortunately, pediatric OSA is closely associated with ADHD, and both diseases can cause cognitive impairment, behavior problems, and low academic performance. OSA can damage the brain and induce autonomic dysfunction, and then cause cognitive, behavioral, and quality-of-life problems. The presence of ADHD can further exacerbate these adverse effects of OSA. Therefore, the identification of robust biomarkers of OSA and ADHD is a key imperative to facilitate early identification of the pathological features and mechanisms and to optimize the treatment of OSA and ADHD for the pediatric population. Diffusion MRI of the brain is one of the most widely used technology for assessment of brain tissue integrity and heart rate variability is one of the most widely used measurements of autonomic function. However, the effects of ADHD and adenotonsillectomy on MRI and HRV biomarkers in children with OSA have not been reported. We hypothesize that comorbid ADHD can deteriorate brain damage and autonomic dysfunction, and adenotonsillectomy can reverse these alternations in children with OSA. The aims of this study are (1) to investigate the differences in pediatric brain tissue integrity, autonomic function, attention, behavior, quality-of-life, and sleep factors between the 'OSA with ADHD', 'OSA without ADHD', and 'healthy control' group; (2) to evaluate the efficacy of adenotonsillectomy versus watchful waiting with supportive care, with respect to the same variables of interest; (3) to evaluate whether the relative efficacy of the treatment differs according to baseline ADHD, weight, or OSA severity; and (4) to develop a predictive model for surgical success rate using both conventional well-known factors and MRI/HRV biomarkers. This is a 3-year prospective study that includes two parts. The Part I study is a cross-sectional study recruiting 100 children (5 to 9 years of age) to investigate the differences in brain tissue integrity (voxel-based morphometry and fractional anisotropy; assessed by structure MRI [T1] for volumetric alternations of gray and white matter, resting-state functional MRI for functional connectivity, and diffusion MRI for white matter integrity), autonomic function (time-domain and frequency-domain analyses; assessed by a wearable, real-time HRV measurement), severity pf attentive and behavioral problems (assessed by the Swanson, Nolan and Pelham IV-Teacher and Parent Rating Scale), quality-of-life (assessed by OSA-18), and sleep factors (apnea-hypopnea index, obstructive apnea index, arousal index, mean and least oxygen saturation, and sleep stage; assessed by polysomnography) between the OSA with ADHD group (Study Group 1; n = 40), the OSA without ADHD group (Study Group 2; n = 40), and the healthy control group (Control Group; n = 20). The Part II study is a randomized controlled trial includes a total of 64 children with OSA (32 children will be recruited from Study Group 1 and Study Group 2, respectively). We randomly assigned (1:1) these 64 pediatric patients with OSA to adenotonsillectomy or a strategy of watchful waiting with supportive care, matched by ADHD, obesity, and severe OSA. Variables of interest using the same methodology are assessed at baseline and at 7 months.
This research study aims to find out if a single oral dose of steroid after tonsillectomy will reduce pain and decrease the need for narcotic medications.
Obstructive sleep apnea (OSA) is a disease characterized by repeated partial or complete upper airway collapse during sleep, accompanied by arousals or oxygen desaturation. It was reported to affect 5.7 %~9.6 % of pediatric population in western countries and 5.5 %~7.8 % in China. Children's physical developing and brain functioning as well as quality of life (QoL) could be greatly impaired if the disease was left untreated. Polysomnography (PSG) was recognized as gold standard for diagnosing OSA. However, for pediatric OSA, there exists dispute on the PSG diagnostic criteria. Pediatric OSA was mostly caused by hypertrophy of adenoid or palatine tonsillar. For those PSG validated patients, nonsurgical management was often prescribed, in addition, surgical intervention, i.e. adenotonsillectomy was also commonly applied and had been proved efficient both in terms of PSG and in terms of symptoms, behaviors and QoL rated by caregivers. However, for children with controversial diagnoses by ATS and ICSD-3, little was known about whether surgical or nonsurgical management was effective. We aim at investigating the effect of adenotonsillectomy versus nonsurgical management on QoL in these subjects. And the hypothesis is that adenotonsillectomy improves QoL better than nonsurgical management in children with controversial diagnoses of OSA by ATS and ICSD-3.