View clinical trials related to Sleep Apnea, Central.
Filter by:all patients with a left ventricular ejection fraction superior or equal to 50% less than 2 years after an acute coronary event and receiving ticagrelor will undergo a sleep polygraphy
This study analyzes the application of the Forced Breath Technique (FBT) to classify apneas during CPAP therapy with a prismaLAB (device name) therapy device. In this study the BiLevel ST (Spontaneous / Timed) therapy mode of the prismaLAB device is reduced to a CPAP pressure profile with exhalation relief by minimization of the pressure gap between exhalation and inhalation pressure. The FBT based apnea classification of the devices firmware is matched with the by hand scoring of the polysomnographic data that is usually used to evaluate the quality of patients sleep.
The aims of this study are to 1) determine the optimal levels of O2 flow which prevent nocturnal O2 desaturation while minimizing periods of hyperoxia during the course of nocturnal oxygen therapy (NOXT) in heart failure patients with reduced ejection fraction (HFrEF) patients with CSA/CSR; 2) document whether within-patient EO2F values change over time during NOXT, and identify factors which predict changes in EO2F; and 3) examine how well a conventional stepwise titration procedure compares to a breath by breath titration using an automated O2 titration system in terms of targeted flow rate and night time oxygenation (oxygen desaturation index, time spent at specific SpO2 targets).
The Center for Autonomic Medicine in Pediatrics (CAMP) has built the first International CCHS (Congenital Central Hypoventilation Syndrome REDCap (Research Electronic Data Capture) Registry. This registry is an international collaboration with CCHS patients and their physicians recruited from around the world. The purpose of this IRB-approved research study is to gain a better understanding of the various clinical manifestations of CCHS with advancing age, and as related to each patient's specific PHOX2B mutation. With a better understanding of specific CCHS PHOX2B mutations and associated disease manifestations, we will be able to better anticipate healthcare needs and to provide more accurate guidelines to healthcare providers world-wide in caring for patients with CCHS. The study aims to obtain detailed phenotypic information (information about health and well-being) on patients with CCHS. Participation would require filling out a confidential survey that asks questions regarding phenotype and past medical history. Involvement in the project is completely voluntary and there is no compensation for taking part. However, this project will help us learn more about this devastating disease, with the goal of advancing treatment.
The aim of this study is to determine if treatment with Medical Air (21% oxygen in room air) compared to supplemental oxygen (100% oxygen) will lead to similar improvements in the central apnea-hypopnea index (CAHI) for infants with Prader-Willi Syndrome. Despite the vast amount of research investigating the cause of central sleep apnea, there remain gaps in knowledge, lending to further research efforts. The decision to compare oxygen to medical air is based on several theorized mechanisms. The first of which is the supposition that provision of medical air may act as an arousal stimulus for the hypothalamus, thereby preventing sleep disordered breathing. Secondly, the hypercapnic challenge performed by Livingston et al demonstrated a delayed hypercapneic arousal response in PWS subjects despite simultaneous hyperoxia, leading us to question if therapeutic oxygen really plays a significant role in treating CSA. Lastly, the delivery of medical air via nasal prongs may provide sufficient arousal to terminate the cycle of events leading to central apnea, as described by Urquhart et al. A deeper understanding of central sleep apnea is essential to ameliorating its adverse sequelae, which include symptoms of ADHD, impaired attention, behavioral problems, and academic difficulties.
The purpose of this study is to compare the effects of nasal and oronasal interfaces during ASV treatment on sleep efficiency and sleep architecture. Therefore, patients starting treatment with ASV, will be randomized between two groups. In the first group, patients will use a nasal interface during the first night and an oronasal interface during the second night. In the second group, patients will use an oronasal mask first and a nasal mask during the second night. The results of this trial will have major impact on future clinical practice as it would deliver prediction rules to choose the correct interface immediately.
40% of patients with Sleep Disorder Breathing (SDB) appearing during the acute phase of stroke show a respiratory pattern characterized by central apnoeas and/or periodic breathing. Clinical studies conducted in patients with hearth failure and central apnoeas have demonstrated the pathogenetic central role of hypersensitivity of central and peripheral chemoreceptors in association with baroreflex hypersensitivity, expression of hyperactivity of sympathetic nervous system. The joint study of chemoreflexes and baroreflexes in patients with central apneas during the acute and subacute phase of ischemic stroke represents, to our knowledge, a novelty in literature, that should supply useful elements to clarify the pathogenesis and the clinical and prognostic significance of these disorders. Investigators expect a difference in the analysis of the baroreflexes and chemoreflexes in patients with ischemic stroke/transient ischemic attack (TIA) and central apnoeas than patients with ischemic stroke not accompanied by respiratory problems and compared with healthy controls.
Detect the PHOX2B Mutation-confirmed congenital central hypoventilation syndrome