View clinical trials related to Hypoventilation.
Filter by:Protocol Summary: 1. Question Does the adjunction of a humidification system to non-invasive ventilation circuit improve sleep quality and comfort of chronic ventilated respiratory insufficient patients? Does it change the efficacy of long-term non invasive ventilation therapy and patient-ventilator interactions? 2. Aims Main aim: The primary endpoint of this study is to objectively evaluate the consequences of a humidification system's adjunction on quality of sleep, 2 months after treatment's beginning. Second aims: The secondary endpoints are to evaluate the consequences of a humidification system's adjunction on non invasive ventilation's efficacy / patient-ventilator asynchronies / patients' comfort / treatment adherence. Before the clinical trial, the investigators conducted a bench study using a mechanical lung in order to evaluate the ventilator's behavior with and without a humidification system. The clinical trial will include patients with chronic respiratory failure with an indication of long-term non invasive ventilation therapy. Patients will be included in the Pulmonology, Thoracic Oncology and Respiratory intensive care unit of Rouen University Hospital. It will be a prospective monocentric study, including consecutively all eligible patients. Informed consent will be obtained from all of them. At baseline, patients will be hospitalized for two consecutive nights for non invasive ventilation's set up. During the first night, a polysomnography will be performed without non invasive ventilation. Then, patients will be treated by non invasive ventilation with a bi-level self-regulated pressure mode and an open circuit. Patients will be randomized in two groups: without a humidification system and with a humidification system. Partitioning by the physiopathological pattern (obstructive versus obesity hypoventilation syndrome vs. neuromuscular disease) will be done. During each night, arterial blood gases will be measured at bedtime and awakening. Patients will be monitored by: - polysomnography (only during the first night) - transcutaneous capnography - accessory inspiratory muscles surface electromyography - pneumotachograph on non invasive ventilation's circuit - pressions measured at the mask. Follow-up will take place at two months after non invasive ventilation's beginning with or without humidification. Patients will be hospitalized for one night only. Blood gases at bedtime and at awakening will be measured. A polysomnography with non invasive ventilation will be performed. Observance will be evaluated.
Chronic obstructive pulmonary disease (COPD) is a highly prevalent condition worldwide and is a cause of substantial morbidity and mortality. Unfortunately, few therapies have been shown to improve survival. The importance of systemic effects and co-morbidities in COPD has garnered attention based on the observation that many patients with COPD die from causes other than respiratory failure, including a large proportion from cardiovascular causes. Recently, two high profile randomized trials have shown substantial improvements in morbidity and mortality with use of nocturnal non-invasive ventilation (NIV) in COPD patients with hypercapnia. Although the mechanisms by which NIV improves outcomes remain unclear, the important benefits of NIV might be cardiovascular via a number of mechanisms. In contrast to prior trials of NIV in COPD that did not show substantial benefit, a distinguishing feature of these encouraging recent NIV clinical trials was a prominent reduction of hypercapnia, which might be a maker or mediator of effective therapy. Alternatively, improvements might be best achieved by targeting a different physiological measure. Additional mechanistic data are therefore needed to inform future trials and achieve maximal benefit of NIV. Recent work in cardiovascular biomarkers has identified high-sensitivity troponin to have substantial ability to determine cardiovascular stress in a variety of conditions - even with only small changes. In COPD, a number of observational studies have shown that high-sensitivity troponin increases with worsening disease severity, and that levels increase overnight during sleep. This biomarker therefore presents a promising means to study causal pathways regarding the effect of NIV in patients with COPD. With this background, the investigator's overall goals are: 1) To determine whether the beneficial effect of non-invasive ventilation might be due to a reduction in cardiovascular stress, using established cardiovascular biomarkers, and 2) To define whether a reduction in PaCO2 (or alternative mechanism) is associated with such an effect.
Patients suffering chronic hypercapnic respiratory insufficiency (e.g. in chronic obstructive pulmonary disease, obesity hypoventilation syndrome) benefit from home mechanical ventilation. These patients are complex; and the ventilator´s parameters should be set-up according to the underlying disease and particular patient's characteristics. The non-invasive ventilation therapy is mostly titrated while the patient is awake, hence Problems, such as Patient-Ventilator asynchrony, arising while sleeping on the ventilator therapy would remain undetected. Sleep studies, such as polysomnography or polygraphy and transcutaneous carbon dioxide monitoring could be valuable tools to fine-tune the ventilator's settings. This could foster the ventilator´s effectivity and patient satisfaction, thus therapy's adherence. Nevertheless the sleep studies are expensive, time-consuming and not widely available. The aim of this study is to learn the findings of sleep studies when they are performed on stable patients on home mechanical ventilation as part of their routine check-ups. In this context, it will be assessed whether the sleep studies' findings lead to a change (adjustment) of the ventilator´s therapy. Moreover, this study aims to investigate whether the absence of sleep studies would result in missing important events that require an adjustment of therapy. The results of this study could provide information that lead to a more standardized protocol of follow-up checks of patients on home mechanical ventilation in a cost-effective manner.
Nocturnal Non Invasive Ventilation (NIV) is the reference treatment for chronic alveolar hypoventilation in patients with neuro-muscular diseases. NIV can be provided by using different types of interfaces: Nasal masks are the most frequent type of interface used at home but oronasal masks are used by at least 25% of neuro-muscular patients mainly because of persistent unintentional mouth leaks. However, oronasal mask may cause persistent upper airway obstructive respiratory events because of the mechanical constraint on the chin induced by the traction of the straps that may push the mandible posteriorly during sleep. No randomized study has specifically addressed the question of the impact of type of interface in patients with neuromuscular diseases treated by nocturnal NIV. The investigators hypothesize that: 1. the application of oronasal mask may jeopardize the pharyngeal patency in patients already proned to upper airway obstruction; 2. the use of a nasal mask may improve upper airway stability and NIV efficacy while reducing side effects. Authors objective will be to compare the impact of nasal mask versus oronasal mask on NIV efficacy and side-effects. Eligible patients are those with nocturnal NIV and neuromuscular disease. After a scheduled hospital visit, patients willing to participate will undergo in random order 2 unattended nocturnal polygraphies under NIV at home: one polygraphy with nasal mask; one with an oronasal mask. Each polygraphy ans side effects assessment will be performed after one week of familiarization with each mask.
The role of different levels of compliance and long-term effects of positive airway pressure (PAP) therapy on gas exchange, sleepiness, quality of life, depression and death rate in patients with obesity hypoventilation syndrome (OHS).
THRIVE (Transnasal Humidified Rapid-Insufflation Ventilatory Exchange) refers to the use of high-flow nasal cannula to augment the ability to oxygenate and ventilate a patient under general anesthesia. The use of high-flow nasal cannula oxygen supplementation during anesthesia for surgical procedures has been a recent development in the adult population, with limited data analyzing the pediatric population. This study will determine whether high flow nasal cannula oxygen supplementation during surgical or endoscopic procedures can safely prevent desaturation events in children under anesthesia.
is to compare introduction of two different NCPAP methods in terms of mechanical ventilation (MV) need (non-invasive respiratory support failure) and surfactant need within the first 72 hours of life in preterm infants with Respiratory Distress Syndrome (RDS) at 26-30 weeks of gestation.
The study aims to describe the use of Nasal High Flow (NHF) in the intensive care units of participating centers in Iberoamerica. It will describe the indications for the use, the clinical outcome of patients , and the therapeutic failure of NHF therapy in patients staying in an intensive care unit in the participant centers in Iberoamerica.
The Hypercapnia Telemedicine Outreach Program (E-TOUCH Study) aims to utilize telemedicine technology, as well as emergency medical services (EMS) home visits to address the problem with poor follow-up and compliance among Einstein's hypercapnic patients. The hypothesis is that reaching out to the subjects' homes will allow more consistent healthcare delivery, increase healthcare efficiency and compliance with therapy, and overall decrease acute decompensated states / hypercapnic respiratory failure, decreasing ED visits and hospitalization.
Patients residing in the intensive care unit typically receive mechanical ventilatory support. Selecting the appropriate level of mechanical ventilation is not trivial, and it has been shown that lung protective settings can reduce mortality in patients with lung injury. Despite being a life- saving therapy, duration of mechanical ventilation should be kept at a minimum to reduce effects of immobilization, long-term sedation, patient discomfort, risk of ventilator associated pneumonia, leading to decreasing mortality and economic costs etc. The duration of mechanical ventilation is also an important factor in weaning from ventilatory support, with prolonged ventilator support making the weaning process more difficult. The purpose of this study is to compare mechanical ventilation following advice from the Beacon Caresystem to that of standard care in general medical intensive care unit (ICU) patients, from the start of requiring invasive mechanical ventilation until successful extubation. The Beacon Caresystem will be compared to standard care to investigate whether use of the system results in similar care or reduced time for weaning from mechanical ventilation.