View clinical trials related to Cheyne-Stokes Respiration.
Filter by:The purpose of this study is to demonstrate diagnostic agreement and determine the accuracy of the continuous positive airway pressure (CPAP) device compared to simultaneous, attended clinical polysomnography (PSG) in identifying breathing events in participants previously diagnosed with complex sleep apnea (CompSAS), complex sleep apnea with Cheyne-Stokes respiration (CSR), or obstructive sleep apnea (OSA).
The purpose of this study is to assess changes in left ventricular performance using echocardiography as well as ventricular remodelling, changes in sleep and changes in mood, anxiety and cognitive functions occurring as a result of treatment of predominant central sleep apnoea by adaptive servoventilation (ASV) in chronic heart failure in addition to optimal medical therapy in chronic heart failure. This will be a substudy of the SERVE-HF study.
The purpose of this study is to determine the chronic safety and efficacy of phrenic nerve stimulation on central sleep apnea (CSA). Clinically, CSA events translate into sleep fragmentation, excessive daytime sleepiness, reduced exercise capacity, and possibly ventricular arrhythmias. The study is chronic in nature, such that subjects will undergo the implantation of an implantable pulse generator and stimulation lead. A sensing lead may also be placed during the initial implant procedure. Subjects will be followed for up to six-months on therapy to assess respiratory and heart failure outcomes. Following the six-month therapy visit, subjects will enter into a long-term follow-up phase until the completion of the study. It is anticipated that data obtained in this study will show that the proposed intervention can modify respiration with a low incidence of adverse effects. The results of this trial are intended to be used to develop a subsequent protocol for pivotal study.
Periodic ventilation that includes CHEYNE Stokes ventilation is a pathological pattern characterized by alternating periods of hyperpneas and apnea-hypopneas. It occurs generally during sleep, at high altitude and in hypoxic conditions in healthy subjects, and in some diseases like congestive heart failure. One study conducted on an animal model suggested that baclofen, a drug already used against spasticity in humans, could also be effective against periodic ventilation. The goal of the study is therefore to assess this hypothesis on hypoxia-induced periodic ventilation in healthy subjects during sleep.
The objective of this study is to compare the modified adaptive servoventilation control algorithm of the with the standardised algorithms of routinely-used servoventilation processes (AutoSet CS2) in terms of the effect on obstructive and central events. The aim is to normalise breathing during sleep and hence eliminate the sleep-related breathing disorder, resulting in even more effective treatment of nocturnal breathing disorders in patients with cardiovascular diseases and sleep apnoea, to ensure optimum therapy success.
The purpose of this feasibility study is to determine the effect of stimulating the phrenic nerve to treat periodic breathing (a pattern of breathing characterized by hyperpneas followed by hypopneas or apneas). Clinically, these physiologic events translate into sleep fragmentation, excessive daytime sleepiness, reduced exercise capacity, and possibly ventricular arrhythmias. Stage 1 of the study is acute in nature, such that subjects will undergo the placement of a stimulation lead, followed by assessment of stimulation of the phrenic nerve using the lead for up to 2 nights of sleep. A sensing lead may also be placed during the initial implant procedure. Observational data will be obtained and stimulation provided using an externalized system connected to the study leads. Following the study, all investigational components will be removed from the patient. Stage 2 of the study is being conducted at one of the participating sites to determine the initial safety of chronic stimulation of the phrenic nerve in a limited number of patients with sleep disordered breathing. It is anticipated that data obtained in this feasibility study will show that the proposed intervention can modify respiration with a low incidence of adverse effects. The results of this trial are intended to be used to develop a subsequent protocol for a multi-center study of chronic phrenic nerve pacing.
The primary objective of this study is to assess the activity on breathing parameters of 4 escalating doses of AVE0657 in comparison to placebo in patients with Cheynes-Stokes Breathing Syndrome.
An investigation where patients with chronic heart failure and cheyne stokes respiration, treated with adapitve servo ventilator, will improve their cardiac function and quality of life.
Study of the effect of oxygen on the frequency of central apnea, sleep and body temperature in patients with a cardiac disease
The purpose of the trial is to investigate the cardiovascular response to peripheral chemoreceptor stimulation in Congestive Heart Failure with Cheyne- Stokes Respiration