View clinical trials related to Hypercapnia.
Filter by:- Patients with Motor Neurone Disease (MND) admitted to Lane Fox Unit /Royal Brompton Hospital and/or reviewed in Lane Fox Unit /Royal Brompton Hospital clinics and/or outreach review will be approached for participation in the study - Physiological assessment and measurement of arterial stiffness will be performed in all patients at baseline and after the use of non invasive ventilation for 6 weeks. - MND patients not requiring mechanical ventilation will serve as controls since non invasive ventilation cannot be withheld from MND patients in type II respiratory failure. - Data will be analysed to look for differences between groups, relationships in baseline or change from baseline in respiratory physiological measures, inflammatory indices, breathlessness, and arterial stiffness. - Age, Height, Weight - History and Physical Examination - Evaluation of dysponea: mMRC, Borg Scale (Seated-Supine) - Amyotrophic lateral sclerosis functional rating scale (ALSFRS-R) - Sleep Disordered Breathing in Neuromuscular Disease Questionnaire (SiNQ-5) - 24 hour blood pressure monitor - Carotid-femoral pulse wave velocity - Respiratory Muscle Strength - Maximal Inspiratory Pressure, Maximal Expiratory Pressure, and Sniff Nasal Inspiratory Pressure - Spirometry - FEV1 and FVC - Arterial Blood Gas - CRP and fibrinogen (clinically) - Breathe CO exhale
A retrospective cohort study of all patients treated for type II (hypercapnic) respiratory failure with either High-Flow Oxygen Therapy or Non-Invasive Ventilation in a general adult hospital.
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.
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.
Mortality of acute hypoxic - hypercapnic respiratory failure (ARF) patients underwent invasive mechanical ventilation is demonstrated to be higher than in patients who underwent only non invasive mechanical ventilation (NIV). There is an increased need to detect more predictive factors for NIV failure, in order to better identify patients most at risk of facing negative outcomes. The aim of this experimental pilot study is to evaluate the feasibility of the ultrasound of diaphragm in ARF patients underwent non invasive mechanical ventilation ( primary endpoint ). Furthermore the secondary aim is to observe any relationship between diaphragmatic function (excursion), diaphragmatic thickening and the timing of arterial blood gases (ABGs) compensation in patients with ARF undergoing NIV treatment; additional outcomes are: correlation with dyspnea level, time of mechanical ventilation, NIV failure, rate of tracheostomy, length of stay in ICU and in-hospital and 90-day mortality.
Pulmonary vascular dysfunction (DVP) is associated with a pejorative prognosis during ARDS. There is no specific therapeutic intervention to thwart it. Extracorporeal CO2 purification (ECCO2-R) is a technique that has been very rapidly diffused and adopted in intensive care since commercialization of the devices but, the formal clinical evaluation is insufficient. It could significantly improve the prognosis of patients with both DVP and refractory hypercapnia.
High-intensity noninvasive positive pressure ventilation (NPPV), which can well improve the gas exchange and reduce the work of breathing of patients, is a new strategy targeted at maximally reducing arterial carbon dioxide. However, no definitive conclusions have been drawn to decide whether high-intensity NPPV is the best setting for treating patients with chronic hypercapnic COPD. For now, no unified method for setting up high-pressure NPPV has been established. Most of the trials utilized gradually increased inspiratory positive airway pressure depending on the patient's tolerance. However, from a respiratory physiology point of view, excessive inspiratory positive airway pressure may lead to lung hyperinflation, increased intrinsic positive end expiratory pressures, increased oxygen consumption, and ineffective work of breathing.Therefore, seeking a method to establish individualized high-intensity NPPV is of vital importance.
The purpose of this study is to determine the impact of hign-flow nasal therapy on the adult with hypercapnia and hpoxemia respiratory faliure in comparison with standard oxygen therapy ang noninvasive ventilation.