View clinical trials related to Hypercapnia.
Filter by:Acute respiratory failure represents a frequent cause of admission to intensive care units (ICUs). In the absence of tailored interventions, it poses an imminent threat to patients' lives. Most patients admitted in ICU undergo fluid expansion to enhance oxygen delivery and preserve cellular function. This practice is grounded in the concept of " preload responsiveness ". However, the accrual of positive fluid balance resulting from fluid administration is now acknowledged as an autonomous risk factor for mortality. Consequently, preload unresponsiveness assumes a pathological character, potentially indicative of fluid overload or right ventricular dysfunction, both deleterious conditions linked to unfavorable outcomes. Maintaining patients in a preload-responsive state may be interesting to limit fluid expansion and the need of invasive mechanical ventilation. The objective of this prospective observational study is to evaluate the prognostic significance of preload responsiveness in patients admitted to the ICU with hypoxemic, non-hypercapnic respiratory failure. - Main objective: To evaluate the association between fluid responsiveness, assessed by the inferior vena cava collapsibility index (cIVC) with trans-thoracic echocardiography within the initial 48 hours post-ICU admission, and mortality or the need for invasive mechanical ventilation by day 28 in patients admitted to the ICU for hypoxemic, non-hypercapnic acute respiratory failure. - Secondary objectives: To evaluate the association between fluid responsiveness and mortality at day 28 and day 90, the need of invasive mechanical ventilation, and the number of days free from organ support (vasopressors, mechanical ventilation and renal replacement therapy) by day 28. Upon receipt of both oral and written information, patients will provide non-objection to participate in the study. This prospective single-center study has obtained approval from the Regional Ethics Committee of Ile de France III approval (No. 2022-A02813-40).
The aim of this randomized controlled study is to explore the hypoalgesic response of a 6 minutes of intermittent walking apneas training session at low lung volume in healthy subjects; also, as secondary objectives, to analyze the cardiovascular and respiratory response produced during the intervention.
The aim of this randomized controlled study is to explore the hypoalgesic response of a 6 minutes of intermittent walking apneas training session at high lung volume in healthy subjects; also, as secondary objectives, to analyze the cardiovascular and respiratory response produced during the intervention.
The aim of this randomized controlled study is to explore the hypoalgesic response of a 6 minutes of intermittent static apneas training session at low lung volume in healthy subjects; also, as secondary objectives, to analyze the cardiovascular and respiratory response produced during the intervention
The aim of this randomized controlled study is to explore the hypoalgesic response of a 6 minutes of intermittent static apneas training session at high lung volume in healthy subjects; also, as secondary objectives, to analyze the cardiovascular and respiratory response produced during the intervention.
The study aims to find if using a Biphasic Cuirass Ventilation is as effective as using a Non invasive Positive Pressure Ventilation in patients admitted with acute hypercapnic respiratory failure.
The goal of this study is to compare two different modes of noninvasive ventilation in hypercapnic respiratory failure. The investigators will compare AVAPS and BIPAP S/T and hypothesize that AVAPS will result in a decreased length of stay in the ICU or on telemetry. Currently, noninvasive ventilation is the standard of care for hypercapnic respiratory failure. However, the most effective mode for patients with hypercapnic respiratory failure is unclear.
In the design of extracorporeal carbon dioxide removal (ECCO2R) combined with continuous renal replacement therapy (CRRT) equipment, in model of continuous veno-venous hemofiltration (CVVH) , the HCO3- concentration in the pre membrane lung blood is diluted by the replacement solution, and a decrease in HCO3- leads to a decrease in PCO2. On the other hand, in continuous veno-venous hemodialysis (CVVHD), HCO3- in post membrane blood will exchange interaction. The exchange results of HCO3- determine the impact of CVVHD on the CO2 removal efficiency of the ECCO2R combined CRRT system. This study aims to investigate the effects of CVVH and CVVHD on in vitro CO2 clearance efficiency.
The goal of this clinical trial is to compare the new asymmetric nasal high flow interface with the conventional high flow nasal cannula in patients with COPD exacerbation. The main questions the study aims to answer are: • Does the use of the asymmetric interface lead to: 1. A greater decrease in the patients' carbon dioxide 2. A greater decrease in respiratory rate and less dyspnea 3. Less need for advanced oxygen therapy measures 4. Same tolerance and comfort 5. Lower heart rate and blood pressure Participants will be asked to: Wear the asymmetric and conventional cannulas for 3 hours each with a 30 minute gap in-between. Arterial blood samples and various clinical parameters will be collected throughout the study period. Researchers will compare the effect of asymmetric versus conventional cannulas to answer the aforementioned questions.
The goal of this clinical trial is to learn about the mechanisms of oxygen toxicity in scuba divers. The main questions it aims to answer are: - How does the training of respiratory muscles affect oxygen toxicity? - How do environmental factors, such as sleep deprivation, the ingestion of commonly utilized medications, and chronic exposure to carbon dioxide, impact the risk of oxygen toxicity? - How does immersion in water affect the development of oxygen toxicity? Participants will be asked to do the following: - Undergo a basic screening exam composed of health history, vital signs, and some respiratory function tests - Train their respiratory muscles at regular intervals - Exercise on a cycle ergometer both in dry conditions and underwater/under pressure in the context of medication, sleep deprivation, or carbon dioxide exposure Researchers will compare the performance of each subject before and after the possible interventions described above to see if there are changes in exercise performance, respiratory function, cerebral blood flow, and levels of gene expression.