View clinical trials related to Respiratory Failure.
Filter by:The study will be a multicenter, multinational, prospective single arm blinded study to validate DXT's performance to identify patients at increased risk of weaning failure during the spontaneous breathing trial (SBT). Continuous diaphragmatic excursion measurements by DXT will be conducted during the patients' first SBT. The recording shall be initiated 15 minutes prior to the first SBT and will end 15 minutes post SBT. All patients on mechanical ventilation in the ICU meeting the eligibility criteria shall undergo a daily screen for weaning readiness. If any of the components of the daily screen is not met, the patient will not undergo a SBT that day and continued to be screened daily. Patients passing daily screening criteria shall automatically receive an SBT. The SBT shall last for 30-120 minutes and be performed on continuous positive airway pressure up to 5 cm H2O and pressure support up to 7 cm H2O. The SBT shall be terminated and mechanical ventilation reinstituted at the original settings if the patient meets any of the SBT failure criteria. A trial is considered successful and physicians will be asked to approve extubation when the patient can breathe spontaneously for the whole trial. Patients shall be continued to be screened daily until extubation, 21 days after enrolment, performance of tracheostomy, death, or withdrawal of care. All patients shall be followed until hospital discharge or death.
This study aimed to evaluate the effect of respiratory physiotherapy that is breathing exercise during weaning on ventilated patients in ICU.
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.
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.
The renin-angiotensin system (RAS) has a relevant role in COVID-19, as the virus will enter host's cells via the angiotensin-converting enzyme 2 (ACE2); RAS disequilibrium might also play a key role in the modulation of the inflammatory response that characterizes the lung involvement. Angiotensin-(1-7) is a peptide that could be altered in COVID-19 patient and its supplementation may potentially helpful in this setting.
Evaluation of awake prone position on ventilation inhomogeneity in COVID-19 associated respiratory failure.
The main objective of the present study is to determine ICU and in-hospital mortality associated with COVID-19 infection and its independent predictors, in patients admitted to adult ICUs in Argentina with a requirement for mechanical ventilation. Secondary objectives include: determining epidemiological and clinical data in patients with COVID-19 disease; the associated morbidity, the support and therapeutic measures implemented, and the evolution of these patients upon discharge from the ICU. Likewise, characteristics of each ICU will be recorded, and a survey will be carried out on the management of the COVID-19 pandemic, which will require information on the additional availability of critical resources for the care of patients admitted to the ICU. Likewise, characteristics of the ICU and hospitals will be registered.
Timely prediction of impending respiratory failure is vital, yet relies on subjective clinical assessment of the patient's respiratory status. Pulse oximetry plethysmographic signal analysis is indicative of the effort to breathe and may provide an objective measurement of respiratory loading.
This study aims to determine if a strategy of recommending prone (on stomach) positioning of patients positive or suspected positive for coronavirus disease 2019 (COVID-19) requiring supplemental oxygen, but not mechanically ventilated, Is feasible in the inpatient setting. This study will be performed as a pragmatic pilot clinical trial to gain information relevant to the future conduct of a larger trial.
Rationale: The pathophysiological changes in respiratory muscle morphology and functioning in patients with end-stage pulmonary disease are not very well known. Furthermore, in COPD, long-term high-intensity NIV is applied without knowing the exact consequences on the lungs and respiratory muscles. Objective: The aims of the study are to get insight in: A. changes respiratory muscles in end-stage respiratory disease, comparing COPD with restrictive lung disease (RLD) due to pulmonary fibrosis B. the effects of long-term HI-NIV in severe COPD patients on the respiratory muscles and the lungs; by comparing COPD patients that had been treated with long-term NIV to COPD patients that were not treated with long-term NIV. Study design: In order to investigate this, the investigators will include in a small pilot cohort study patients being lung transplanted. In these patients there is lung tissue available and respiratory muscle biopsies will be performed during lung-transplant surgery. Study population: Patients that are listed for lung transplantation for an underlying diagnosis of COPD or RLD will be asked to participate. Three groups will be included: patients with a RLD due to pulmonary fibrosis, COPD patients that had been treated with long-term NIV prior to being lung transplanted and COPD patients that were not treated with long-term NIV. Patients will be included definitely once being lung transplanted. Main study parameters/endpoints: The study is an exploratory pilot study. Both contractile strength and the structure of single diaphragm and intercostal muscle fibres as well as lung injury; i.e. alveolar structure and damage and inflammation in the alveoli, will be investigated.