View clinical trials related to Hypoventilation.
Filter by:Although High Frequency Oscillatory Ventilation (HFOV) has been used in case of unresponsive to conventional mechanical ventilation both in children and newborns, there is no data on its success and the factors that affect its success in the literature.
The indications for mechanical ventilation (MV) include excessive work of breathing, with or without evidence of respiratory muscle fatigue. The setting of the MV is still a challenge because it is based on criteria understudied, often subjective and observer-dependent. Despite several studies, to our knowledge has never been done before is the precise definition of the optimal range of ventilatory support. Novel and recognizable diagnostic techniques will be applied. No single parameter of the breathing pattern has good accuracy for the adjustment of ventilatory support. Non-invasive measures such as P0.1 and rate of muscle relaxation may have good accuracy for the adjustment of ventilatory support.
This investigation is designed to evaluate the performance, comfort and ease of use of the Simplus and Eson masks amongst NIV patients who are currently on Bi-level therapy
This study is designed to determine if using peripheral nerve stimulation in conjunction with pulse oximetry as an adjunct to traditional monitoring in the PACU reduces the frequency and severity of sedation related apnea and hypoxic events.
Different tools may be used to monitor the efficacy of home mechanical ventilation. Investigators aimed to compare the prognostic value of the different data obtained by capno-oxymetry in a mechanical ventilated neuromuscular disease's population.
Aim of this study is to better understand pathophysiology of the alteration of respiratory mechanics and cardiovascular function in obese volunteer subjects. The investigators plan to test this hypothesis with a physiological, interventional study conducted on volunteers by using Electrical Impedance Tomography in a group of patients and magnetic resonance imaging (MRI) in another group.
This investigation is to evaluate the performance, comfort and ease of use of the Toffee full face and toffee nasal mask masks amongst Obesity Hypoventilation Syndrome (OHS) patients in an overnight study.
Pre-Hospital Advanced Airway Management (PHAAM) is a potentially lifesaving intervention. A recent Danish multicentre single country study demonstrated a 99,7% incidence of successful anaesthesiologist pre-hospital endotracheal intubation, with a PHAAM-related complication rate of 7.9%. A London study revealed a significantly higher intubation failure rate among non-anaesthesiologist physicians. In Scandinavia different types of emergency medical services (EMS) and professions provide PHAAM. The success rate of prehospital endotracheal intubation (PHETI), incidence of difficult intubation and complications in the Nordic countries is not known. The aim of this study is to define PHAAM success rate and complications in different types of Nordic EMS organisations and physician critical care teams. The study is a prospective observational study with collection of PHAAM data according to the template by Sollid et al. in the 12 participating Nordic Countries EMS/HEMS centres and physician critical care teams. The primary endpoint is PHETI success on ≤2 attempts and no complications.
ROHHAD (rapid onset obesity, hypothalamic dysfunction, hypoventilation, and autonomic dysregulation) syndrome is a rare pediatric disorder associated with a cancer called neuroblastoma and presumed to be driven by an attack of the immune system on specific area in the brain. Patients develop severe symptoms and often succumb to this disease. Based on the researchers' experience the investigators conduct a clinical trial to study intensive immunosuppression with high-dose cyclophosphamide in these patients. In addition to describing the symptomatic improvement, the investigators' trial seeks to define objective markers of disease activity.
This is a double crossover study where all patients are randomly allocated to one of two treatment sequences associated with endotracheal aspiration.The first treatment (A) uses two suctioning methods for each patient: one involving hyperoxygenation with administration of 100% oxygen 1 minute before and after suction (intervention I), and the other hyperoxygenation with oxygen supply to 20% above basal offer (Intervention II) in the same way.The second treatment (B) uses a technique of hyperinflation with the mechanical ventilator (PEEP-ZEEP) associated with hyperoxygenation. The intervention I, uses PEEP-ZEEP offering 20% above basal oxygenation and intervention II uses the PEEP-ZEEP with basal oxygen supply in the same way. All subjects were randomly allocated using sealed envelopes to a treatment sequence A or B on Day 1. Patients received two treatments, at least four hours apart. The first treatment is in the morning and the alternate treatment is performed in the afternoon. On Day 2 the order of the treatments was reversed using the same patient position sequence.The interventions I and II are performed at least 4 hours apart to minimize any carryover effect.