View clinical trials related to Hypoventilation.
Filter by:This study is to evaluate the efficacy of a new therapy (Automatic Expiratory Positive Airway Pressure with intelligent Volume Assured Pressure Support (AutoEPAP iVAPS)) designed to treat respiratory insufficiency, respiratory failure and/or nocturnal hypoventilation with upper airway obstruction. The study will be performed in two phases: In a sleep unit and in the home environment. The new therapy will be compared against two existing ventilator therapies: "Spontaneous Timed (ST) mode" and "Intelligent Volume Assured Pressure Support (iVAPS)".
The European Home Mechanical Ventilation Registry (EHMVR) will enable a thorough evaluation of HMV by documenting the characteristics of HMV patients and their treatment. This will facilitate a prospective, observational study to identify the primary indications for HMV, describe patterns of HMV use in European countries, and characterize changes in the initiation and utilization of HMV over time. The registry will target all adult individuals who have an indication for HMV. In the EHMVR, patient data from routine clinical care will be documented using an electronic case report form (eCRF). The eCRF will record: patient demographic data; diagnostic information (including primary diagnosis, 6-minute walk time, the presence of depression, and quality of life); blood gases; ventilation treatment (including type of ventilator, modes and settings, interfaces used); follow-up data (including failure rates, side effects, technical issues). An initial Pilot Phase will be launched with the aim to enrol at least 200 patients over a 6-month period to determine the feasibility of the registry. Steering committee members and their institutions will be the main participants in the Pilot Phase. After completion of the Pilot Phase, the registry will be expanded across Europe with the goal of enrolling approximately 10,000 patients over 5 years.
Investigate whether the course of an isolated nocturnal alveolar hypoventilation can predict the future occurrence of obesity-hypoventilation syndrome (OHS) in obese subjects
This is an observational study to characterize the prevalence of Obesity Hypoventilation Syndrome in patients referred to the sleep lab.
Background: Congenital Central Hypoventilation Syndrome (CCHS) is a rare disorder of automatic control of breathing. This disease can manifest as early as birth. Patients with this disease have a fundamental lack of central drive breathing. They do not mount any responses to hypoxia or hypercapnia during sleep or wakefulness. This places them at risk of injury or death whenever they are not consciously breathing. They require lifelong assisted ventilation while sleeping, and some while awake. Progesterone is a known respiratory stimulant in normal individuals, and it has been shown in one study of 2 patients that this drug may improve CO2 responsiveness in patients with CCHS. However, this observation requires confirmation. Hypothesis: Exogenous progesterone (in oral contraception pills) will improve CO2 responsivity by hyperoxic hypercapnic ventilatory response testing, hypoxic responsivity using 5-breath nitrogen breathing, hyperoxic ventilatory response while breathing 100% oxygen, and improve spontaneous ventilation during sleep in CCHS females >15-years of age. The progesterone will also depress ventilatory response using a hyperoxia test. Study Methodology: Baseline measures of CO2 and oxygen responsivity, and spontaneous ventilation during sleep, will be performed at baseline and after 3-weeks of taking a progesterone containing oral contraceptive agent. CO2 responsivity will be measured using a hyperoxic hypercapnic ventilatory response test. Hypoxic responsivity will be measured using a 5-breath 100% nitrogen breathing test. Hyperoxic responsivity will be measured by having subjects breathe 100% oxygen for 2-minutes. Subjects will perform an overnight polysomnogram to assess adequacy of gas exchange during spontaneous breathing while asleep. A progesterone containing oral contraception pill will then be given for 3-weeks, and the above measures repeated. Serum progesterone will be measured at baseline and at the time of study.
The primary aim of this study is to determine the changes in upper airway anatomy that occur during lateral neck rotation and subsequent administration of continuous positive airway pressure (CPAP) in anesthetized, spontaneously breathing children. The hypothesis for this study is that neck rotation decreases overall upper airway volume because of constriction at the level of the larynx, and that this constriction is relieved by administration of CPAP.