View clinical trials related to Acute Lung Injury.
Filter by:In this study, the investigators aim to better characterize the outcomes of pediatric acute respiratory distress syndrome (PARDS) survivors, to examine whether subgroups of children with PARDS can be identified, and to determine whether an earlier diagnosis of PARDS using a computerized decision support system will improve the care of these children.
Previous studies have shown that a positive fluid balance was an independent factor of worse prognosis in ICU patients with acute respiratory distress syndrome (ARDS), and negative fluid balance has been demonstrated to increase oxygenation index, reduce time under mechanical ventilation and ICU length of stay with no noticeable adverse effects. But there is no evidence that faster speed of negative fluid balance would be more beneficial for ARDS patients. So researchers designed the study to prove the effect of negatively fluid balancing speed for ICU patients with ARDS.
Animal experimentals have shown that the more physiology-driven airway pressure release ventilation (APRV) methodologies in ARDS may significantly improve alveolar recruitment and gas exchange, increased homogeneity, and attenuate lung injury, without circulatory depression, as compared with conventional low tial volume lung protective ventilation. our previous single centre,random control study showed that clinical benefit for early use of APRV in ARDS. Nonetheless, clinical data on ARDS are still limited, most of them derived from small clinical trials in which variable outdated APRV settings were used, consequently, the findings of these studies were controversial. Additionally, the previous single-centre,random control study showed that clinical benefit for APRV.Therefore,the investigators are ready to design a multiple centres,random control study to further verify the effect of APRV plus protocol in ARDS.
Pediatric acute respiratory distress syndrome (PARDS) is a severe and diffuse lung injury that is a common cause of admission and mortality in the pediatric intensive care unit (PICU). PARDS can be secondary to many different causes, and there are few therapies that have been shown beneficial in PARDS. This study seeks to identify important PARDS subtypes using gene expression profiling of bronchial epithelial cells from control and PARDS subjects.
Spontaneous breathing efforts in patients with respiratory failure connected to mechanical ventilation, has been associated with strong respiratory muscles activity. However, these mechanisms may will be present in patients with acute lung deseases who are breathing with no ventilatory support. We hypothesize that spontaneous breathing during acute respiratory failure could induced lung inflammation and worsen lung damage. Hereby, the connection to a ventilatory support tool, may protect the lungs from spontaneous ventilation-induced lung injury. To test our hypothesis, our aim is to determine the effects of spontaneous breathing in acute respiratory failure patients, on lung injury distribution; and to determine whether early controlled mechanical ventilation can avoid these deleterious effects by improving air distribution.
Although positive end-expiratory pressure (PEEP) has been widely used in mechanical ventilated patients with acute respiratory distress syndrome (ARDS), how to select the "optimal" PEEP is far from consensus. The application of PEEP may result in beneficial effect by recruiting previously collapsed lung areas, harmful effect by over-distending previously aerated lung areas, or a combination of the both. The net effect of PEEP in a certain patient may depend on the recruitability. Because recruitability varies extremely in ARDS patients and strongly correlates with the response to PEEP, estimation of end-expiratory lung volume (EELV) may be essential for individualized setting of PEEP. Whether the FRC changes at different PEEP levels remains unknown.
Mortality rates in children with pediatric acute respiratory distress syndrome (PARDS) are higher in Asia compared to other regions. In adults with acute respiratory distress syndrome, the only therapy that improves mortality rates is a lung protective ventilation strategy. The pediatric ventilation recommendations by the Pediatric Acute Lung Injury Consensus Conference (PALICC) are extrapolated from evidence in adults, including ventilation with low tidal volume, low peak/plateau pressures and high end expiratory pressure. A recent retrospective study of ventilation practices in Asia including Singapore showed that a majority of patients with PARDS were being ventilated with high tidal volume, high peak pressure and low end expiratory pressure, not in compliance with PALICC recommendations. We postulate that currently used ventilation strategies could have contributed to the high PARDS mortality rates in Asia. We aim to determine if implementing a ventilation bundle comprising PALICC recommendations lowers PARDS and pediatric intensive care unit (PICU) mortality rates.
The study of positive end-expiratory pressure(PEEP) in the setting mode has not yet been conclusive. there are several ways to choose the best positive end-expiratory pressure(PEEP) mode for ARDS patients. In this study ,the investigators selected two best positive end-expiratory pressure(PEEP) assessment methods to compare: First is using the conventional postive ventilator to choose positive end-expiratory pressure(PEEP) and the new non-invasive electrical impedance tomography(EIT) guided method and evaluation the treatment outcome in moderate and severe acute respiratory distress syndrome patients by using pressure-volume curve guided and electrical impedance tomography guided positive end-expiratory pressure setting. In this project, we utilize a newly available non-invasive method- electric impedance tomography (EIT) and Protective Ventilation to determine the optimal PEEP on ARDS patients required invasive mechanical ventilator support at a medical center medical ICU (MICU) and cardiovascular ICU (CVICU)- the Far Eastern memorial hospital, Taiwan.
Background: Intra-alveolar clotting and alveolar collapse in ARDS is due to alveolar capillaries epithelial and leakage. Subsequently, collapse induces hypoxemia that is resistant to recruitment (RM). Heparin and Streptokinase may prevent or dissolve intra-alveolar fibrin clot respectively helping alveolar re-expansion. We examined and compared the effect of nebulizing Heparin versus Streptokinase on reversing this pathology. Methods: Sixty severe ARDS (PaO2/FiO2<100) patients and failure of RM, prone position (PP) and neuromuscular block (NMB) were partially randomised into Group (I): (n=20) received nebulized Heparin 10000 IU/4h. Group (II): (n=20) received nebulized Streptokinase 250,000 IU/4h. Group (III): (n=20) received conservative management. Randomization to either Heparin or Streptokinase groups was applied to patients whom guardian accepted participation, while those who declined participation were followed-up as a control. The primary outcome was the change in PaO2/FiO2; the secondary outcomes included the change in compliance, plateau pressure, ventilation-off days, coagulation and ICU mortality.
This study intended to assess the expiratory flow limitation (EFL) during tidal breath in patients intubated in intensive care unit (ICU) for moderate or severe acute respiratory distress syndrome (ARDS). EFL is defined as the lack of increase in expiratory flow in response to an increase in alveolar-to-atmospheric pressure gradient. It reflects airway closure. Early studies have been done using the Negative expiratory pressure (NEP) technique, which is no longer available. We proposed in present study a new method, which consists of diverting manually the expiratory flow to the atmosphere by-passing the expiratory valve. We aimed at assessing EFL at positive expiratory pressure (PEP) 5 cmH2O in semi-recumbent then in supine position together with measurement of trans-pulmonary pressure and regional lung ventilation. Higher PEP levels will be tested, namely 10, 15 and a trans-pulmonary PEP of 3 cmH2O, in semi-recumbent position.