View clinical trials related to Respiratory Insufficiency.
Filter by:The purpose of this study is to investigate the safety of treatment with an investigational drug called clazakizumab compared to a placebo (inactive substance) in critically ill patients.
evaluate the Efficacy of high flow nasal oxygen as a weaning strategy in mechanically ventilated patients with respiratory failure.
The aim of this unblinded parallel-group randomized multicenter clinical trial is to compare the clinical effectiveness of high flow nasal therapy (HFNT) with conventional oxygen therapy (COT) in patients with confirmed COVID-19 related acute hypoxemic respiratory failure.
Measuring bedside occlusion pressure in neurosurgical or surgical critically ill patients could tell us about the patient's respiratory drive, and therefore, tell us whether or not extubation will be successful.
The study will assess the potential benefit of implementing a complex bundle of interventions to treat important - often unrecognized - comorbidities in patients surviving an episode of Acute Hypercapnic Respiratory Failure (AHRF). This study will also provide a comparative analysis of the costs and health consequences of two alternative strategies to inform decision making about healthcare. All interventions are individually evidence-based and seem sound to hypothesize that implementing such interventions might improve patient's outcome and reduce the financial burder of repeated hospitalization in AHRF survivors.
The investigators suppose that lung sliding could be reduced in the same lung region moving from less ventilated to overinflated condition. This is supported by theoretical arguments by some authors but so far it has not been demonstrated. The investigators suppose that speckle tracking applied to LUS is able to demonstrate a reduction or abolition in pleural sliding when lung tissue is overinflated by higher PEEP after lung recruitment maneuver. The overinflation is diagnosed by Electric Impedance Tomography (EIT) and mechanical respiratory measurements (reduction in compliance as ratio between tidal volume over difference between plateau pressure and PEEP) and localized by EIT.
To reduce interface leak and aerosol spread, Philips has developed an accessory to non-invasive ventilation(NIV) masks to be used with the Philips AF531 and the PerformaTrak mask on respiratory failure patients. For the purposes of capturing initial mask leak and safety data, this trial will enroll patients treated with NIV in an institutional setting (i.e., sleep lab).
The aim of this observational study is to evaluate the physiological and clinical effects of prone position in awake patients with respiratory failure due to COVID-19.
Chronic lung conditions such as smoking related lung damage lead to breathing fail. This results in accumulation of gases such as carbon-di-oxide in the body especially during periods of illness known as exacerbation. Current management of carbon-di-oxide accumulation is administration of oxygen, nebulisers, antibiotics etc and if necessary, provide a tight fitting mask around the face to provide breathing support. If this fails, then a patient is placed on a mechanical ventilator. The tight fitting mask therapy is also called non-invasive ventilation and is used widely but patients acceptability of the therapy is limited. Providing a high flow of air with some oxygen could potentially provide the same benefit of the non-invasive ventilation and may also be better accepted by patients. Currently the knowledge and evidence from studies suggest a beneficial role for this high flow therapy but this has not been investigated in well designed studies. In the proposed study we aim to investigate whether use of the high flow therapy reduces the need for non-invasive ventilation in patients who present with a recent onset accumulation of carbon-di-oxide in their body due to long-term lung disease. If this shows benefit, it will lead to a bigger trial with patient benefiting by reduction in the non-invasive ventilation or indeed a need for an invasive breathing machine.
To investigate the screening performance of CPR and biophysical profile score for the prediction of composite of adverse neonatal morbidity and mortality and operative delivery (CS or instrumental) for intrapartum fetal distress in low-risk pregnancies