View clinical trials related to Hypercapnic Respiratory Failure.
Filter by:Patients are invited to participate in a trial to test a new way to optimise long-term use of non-invasive ventilation using remote monitoring. Breathing difficulties during sleep are frequently treated using home mechanical ventilation, also called non-invasive ventilation (NIV). Breathing difficulties during sleep affect many patients with conditions such as chronic pulmonary obstructive disease (COPD), neuromuscular conditions and obesity hypoventilation syndrome. Left untreated they can cause breathlessness, headaches, sleepiness and lead to hospitalisations and other severe adverse health outcomes. The best available treatment for chronic types of sleep-disordered breathing is NIV. However, not every patient eligible tolerates this treatment because it requires patients to sleep with a nasal or full-face mask that is connected with a tube to a machine. Although NIV is recommended by the National Institute for Health and Clinical Excellence (NICE), many patients who should be on NIV use the treatment insufficiently within months. Using remote monitoring to identify problems with treatment adherence early on may help to identify clinical problems, troubleshoot user- or device-dependent problems, avoid delays in treatment and safe healthcare resources in the long-term. The investigators invite patients who use NIV to participate in this trial when they have difficulties with the treatment (NIV). This study will evaluate compliance and efficacy of a remote monitoring device (T4P device, SRETT, Paris/France) that will be connected to the standard NIV machine to remotely monitor usage. Patients will be randomly assigned to the remote monitoring using NIV for three months at home, or to usual care which is NIV without this monitoring. The primary outcome measure of this study is the improvement in adherence and compliance, as indicated by the average usage of NIV, as well as symptom scores to assess treatment effects.
Obesity hypoventilation syndrome (OHS) is a condition that occurs in small percentage of obese people that causes high carbon dioxide and low oxygen levels in the blood. OHS is associated with respiratory failure, pulmonary hypertension, and death. The cause of OHS is unclear. Since not all obese people develop OHS, it is believed that hormone imbalances can contribute to the breathing problem. Some diets can change the body's hormones. For example, low-carbohydrate, high fat "ketogenic" diets (KD) may decrease insulin and glucose levels and increase sensitivity to other hormones. The investigators hypothesize that a KD will improve breathing in OHS patients, even in the absence of weight loss.
Prospective observational cohort study of patients admitted to hospital with suspected hypercapnic respiratory failure and requiring treatment with non-invasive ventilation (NIV) as part of standard, routine management. Contemporaneous blood gas samples will be obtained via arterial, capillary, and venous methods. The venous samples will undergo mathematical arterialisation via the v-TAC system. In line with standard medical care, arterial samples will be obtained before starting NIV and at two set points afterwards (day 1 post-NIV, and pre-discharge). Pre-existing clinical thresholds will be used to assess the reliability of v-TAC against ABG, the existing gold standard and will conduct a retrospective model of decision-making once the blood sampling component of the study is concluded.
High flow nasal therapy (HFNT) has not been well evaluated for treating hypercapnia The purpose of this study is to determine whether high flow nasal therapy (HFNT) can decrease hypercapnia and improve respiratory distress parameters in Emergency Department patients with acute hypercapnic respiratory failure related to cardiogenic pulmonary edema and to compare its efficacy to that of non invasive ventilation.
To evaluate the polysomnographic performance of an automatic ventilatory mode compared with the gold standard (manual polysomnographic titration) to adjust chronic non-invasive ventilation by means of a randomized cross-over study.
Chronic respiratory insufficiency and COPD are the third leading cause of death worldwide. Patients decompensate at various stages of their disease and exhibit acute-on-chronic respiratory failure (ACRF), a frequent cause of ICU hospitalization for hypercapnic acute respiratory failure (ARF). Non-invasive ventilation (NIV) is the first line ventilatory treatment for hypercapnic ARF. It is applied intermittently, separated by periods of spontaneous breathing (SB) with standard oxygen (O2). Standard O2 has drawbacks that limit the benefit of intermittent NIV in hypercapnic ARF: limited gas flow which is well below the patient's inspiratory flow rate, limited capacity and efficiency of oxygenation with non-controlled FiO2 (risk of excessive oxygen and induced hypercapnia), and cold and dry gas leading to discomfort and under-humidification of the airways and tracheobronchial secretions. Benefits in terms of work of breathing and CO2 removal resulting from PEEP and pressure support applied during NIV periods could be rapidly lost during standard O2. Recently, use of high-flow heated and humidified nasal oxygen therapy (HFHO) has gained enthusiasm among intensivists to manage ARF. HFHO delivers high flows (up to 60L/min, that generate moderate PEEP) of heated and humidified oxygen at a controlled and adjustable FiO2 (21 to 100%) that rapidly improve respiratory distress symptoms, oxygenation, respiratory comfort and outcome of patients with hypoxemic ARF. These unique features of HFHO could overcome some of the drawbacks of standard O2 during SB periods in hypercapnic ARF. Indeed, PEEP effect, washout of nasopharyngeal dead-space limiting CO2 re-breathing and inspired gas conditioning preserving adequate mucosal function and secretion removal, could potentially contribute to decrease airways resistance, intrinsic PEEP and work of breathing, while improving patient comfort. Investigators aim to determine if the use of HFHO, as compared to standard O2, increases the number of ventilator-free days (VFDs) and alive at day 28 in patients with hypercapnic ARF admitted in an ICU, an intermediate care, or a respiratory care unit, and requiring NIV.
The aim of the present study; To compare the effects of respiratory support options available for NIMV at the emergency department; i.e. AVAPS and ST/T modes, on the patient's pCO2 values, additional treatment need (another non-invasive ventilation method or endotracheal intubation) and the duration of stay in hospital.
Sufficient oxygenation is critical for completely buried avalanche victims to avoid life-threatening consequences during hypoxic exposure. Snow contains a remarkable capacity to maintain air availability; it was suspected that the snow physical properties affect the development of hypoxia and hypercapnia. The aim of this study was to evaluate the influence of different snow physical properties on the development of hypoxia and hypercapnia in subjects breathing into an artificial air pocket in snow. Twelve male healthy subjects breathed through an airtight face-mask and 40cm tube into an artificial air pocket of 4L. Every subject performed three tests on different days with varying snow characteristics. Symptoms, gas and cardiovascular parameters were monitored up to 30min. Tests were interrupted at SpO2 <75% (primary endpoint); or due to subjective symptoms like dyspnea, dizziness, and headache (i.e. related to hypercapnia). Snow density was assessed via standard methods and micro-computed tomography (CT) analysis, and permeability and penetration with the snow micro-penetrometer (SMP).
Noninvasive ventilation (NIV) weaning strategies differ considerably from one another. These strategies have yet not been compared to each other. Therefore, the investigators planned to perform a prospective, randomized, pilot study involving hypercapnic acute respiratory failure patients ready to be weaned off from NIV. The investigators are going to compare the success rate of NIV weaning and the duration of NIV after randomization between 3 NIV weaning methods: gradual decrease in duration of NIV or level of ventilator support, and abrupt discontinuation of NIV.
To assess patients with hypercapnic respiratory failure using echocardiography,cardiac output measurements and markers of neural respiratory drive (EMGpara) prior to, during and after non-invasive ventilation (NIV) initiation, and to follow the patients for 3 months. The investigators hypothesize that the improvement in cardiac function and/or respiratory mechanics over time are associated with ongoing improvements in oxygenation, quality of life and exercise capacity.