View clinical trials related to Acute Lung Injury.
Filter by:Pathophysiological changes influenced by multiple factors in critically ill patients, has a significant impact on pharmacokinetics (PK) and pharmacodynamics (PD) of cisatracurium. In order to understand better and find an appropriate dosing regimen, the purpose of this study is to investigate the PK and PD of a loading dose cisatracurium in critically ill patients. Cisatracurium, nondepolarizing neuromuscular blocking agents (NMBAs), are commonly used in intensive care units because of a lesser effect on hemodynamic parameters and a reduction in mortality rate in ARDS patients. Loading dose recommended in clinical practice guidelines for sustained neuromuscular blockade in the adult critically ill patient is 0.1-0.2 mg/kg. Then, maintenance dose of 1-3 mcg/kg/min is followed regarding indications, such as ARDS. However, this recommended loading dose might not be adequate in critically ill patients, the study in this specific population might be needed.
The study is a randomized, double-blind, placebo-controlled clinical study of imatinib (as mesilate) in healthy subjects exposed inhaled lipopolysaccharide. During the study, eight oral doses of imatinib, or placebo, will each be taken 12 hours apart, before subjects are exposed to nebulized lipopolysaccharide (LPS). Four hours after LPS exposure, a bronchoalveolar lavage (BAL) will be undertaken, and BAL fluid (BALF collected. Once study assessments are completed, a follow-up visit will be conducted approximately 7 days after the last dose of imatinib. The primary objective of the study is to investigate the effect of imatinib on LPS-induced pulmonary vascular dysfunction. The primary endpoints of this study are: 1. Change in the number of neutrophils in BALF 6 hours after the LPS challenge in subjects exposed to imatinib compared with placebo. 2. Change in concentration of total protein in BALF 6 hours after the LPS challenge in subjects exposed to imatinib compared with placebo
Dopamine(DA) is a common neurotransmitter that has been known to regulate behavior, movement, cardiovascular,endocrine and gastrointestinal functions, but also functions as an important molecule engaging in the immune systems to possess anti-inflammatory effects. However, its role in ventilator-induced lung injury (VILI) is still unclear. Herein, this study aimed to investigate the therapeutic efficacy of dopamine on ventilation-induced lung endothelial barrier dysfunction and explore the possible underlying molecular mechanisms.
As novel agonists of Wnt/β-catenin signaling pathway, R-spondin proteins constitute a class of ligands, including R-spondin 1/2/3/4, functioning through their receptors leucine-rich repeat-containing G-protein coupled receptor (LGR)4/5/6 to enhance Wnt/β-catenin activity. Since Wnt signaling plays pivotal roles in the regulation of many life processes involved in embryogenesis and adulthood, R-spondin proteins also take part in cell proliferation, differentiation and morphogenesis.For example, in the formation of respiratory system,R-spondin 2 is required for normal laryngeal-tracheal and lung morphogenesis,and the lack of R-spondin 1 expression results in the absence of duct side-branching development and subsequent alveolar formation. In addition, R-spondins show protective effect in tissue injury and diseases. R-spondin 1 and R-spondin 3 have been reported to prevent chemotherapy- or radiotherapy-induced mucous membrane lesion. R-spondin 1 attenuates oral mucositis contributed by radiotherapy in mouse models and R-spondin 3 potentiates intestinal regeneration elicited via gastrointestinal toxic effect of chemoradiotherapy treatment. However, whether R-spondin proteins exert salient influence on acute lung injury especially induced by mechanical ventilation is deficient. Therefore, this study aims to ascertain the implication of R-spondin proteins in the pathology of mechanical ventilation induced lung injury through detecting human plasma concentration change of R-spondin 1/2/3/4 after mechanical ventilation and interference effects in mouse model, which is helpful for prevention and treatment of ventilation induced lung injury.
Neonatal acute respiratory distress syndrome(ARDS) is a rare but often severe respiratory disorder. The incidence remains unclear and mortality is about 30%-60%. It is characterized by acute, refractory hypoxemia, persistent respiratory distress and decreased lung compliance. Evaluation and comparison of various clinical studies conducted were hindered by a lack of uniformity in diagnostic criteria.
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.
Acute respiratory distress syndrome (ARDS) in neonates has been defined in 2017. The death rate is over 50%.There are no special treatments for acute respiratory distress syndrome.
This study aims at assessing the short-term physiological effects of 2 positive end expiratory pressure titration strategies in patients with ARDS.
Study of immunosuppression biomarkers in patients with ARDS or cardiogenic shock with ECMO / ECLS, compared to patients with ARDS or cardiogenic shock without ECMO / ECLS
The study enrolls ARDS patients in medical ICUs in 11 Hospitals in Taiwan. The epidemiology and long-term outcomes of the patients will be recorded.