Surfactant for Neonatal Respiratory Distress Syndrome at High Altitude Areas:a Prospective Cohort...
SurfactantThe traditional concept believes that the etiology of neonatal respiratory distress syndrome (RDS) is immature development of lung,especially the surfactant synthesis system,and RDS is still one of the major causes of mortality and morbidity in newborns, especially premature infants.In recent years, using pulmonary surfactant replacement therapy (PS treatment) in the treatment of respiratory distress syndrome (RDS) is a major breakthrough in neonatal medicine.Combined with clinical practice and experience,and through Meta analysis of related randomized controlled trials (RCTs),it confirms that natural surfactant treatment can reduce mortality,the incidence of pulmonary air leaks (pneumothorax and interstitial lung emphysema),and the incidence of bronchopulmonary dysplasia (BPD) or 28-day-old mortality.For RDS in preterm infants whose gestation is <35 weeks ,surfactant replacement therapy is also more effective than in nearly term and full term infants.Therefore, in the analysis of cases of different gestational age groups,the investigators should focus on the study of premature infants cases.Due to less relevant research for using PS treatment to cure newborn RDS in high altitude area,this retrospective study conducts statistics and analysis of recently three-year cases in some hospital of high altitude area,to explore the treatment effect of the high altitude region and the impact of altitude on the treatment.
European/Euro-ELSO Survey on Adult and Neonatal/ Pediatric COVID-19 Patients in ECMO
COVIDSARS-CoV-26 moreIn the last 10 years, severe acute respiratory infection (SARI) was responsible of multiple outbreaks putting a strain on the public health worldwide. Indeed, SARI had a relevant role in the development of pandemic and epidemic with terrible consequences such as the 2009 H1N1 pandemic which led to more than 200.000 respiratory deaths globally. In late December 2019, in Wuhan, Hubei, China, a new respiratory syndrome emerged with clinical signs of viral pneumonia and person-to-person transmission. Tests showed the appearance of a novel coronavirus, namely the 2019 novel coronavirus (COVID-19). Two other strains, the severe acute respiratory syndrome coronavirus (SARS-CoV) and Middle East respiratory syndrome coronavirus (MERS-CoV) have caused severe respiratory illnesses, sometimes fatal. In particular, the mortality rate associated with SARS-CoV and MERS-CoV, was of 10% and 37% respectively. Even though COVID-19 appeared from the first time in China, quickly it spread worldwide and cases have been described in other countries such as Thailand, Japan, South Korea, Germany, Italy, France, Iran, USA and many other countries. An early paper reported 41 patients with laboratory-confirmed COVID-19 infection in Wuhan. The median age of the patients was 49 years and mostly men (73%). Among those, 32% were admitted to the ICU because of the severe hypoxemia. The most associated comorbidities were diabetes (20%), hypertension (15%), and cardiovascular diseases (15%). On admission, 98% of the patients had bilateral multiple lobular and sub-segmental areas of consolidation. Importantly, acute respiratory distress syndrome (ARDS) developed in 29% of the patients, while acute cardiac injury in 12%, and secondary infection in 10%. Invasive mechanical ventilation was required in 10% of those patients, and two of these patients (5%) had refractory hypoxemia and received extracorporeal membrane oxygenation (ECMO). In a later retrospective report by Wang and collaborators, clinical characteristics of 138 patients with COVID-19 infection were described. ICU admission was required in 26.1% of the patients for acute respiratory distress syndrome (61.1%), arrhythmia (44.4%), and shock (30.6%). ECMO support was needed in 11% of the patients admitted to the ICU. During the period of follow-up, overall mortality was 4.3%. The use of ECMO in COVID-19 infection is increasing due to the high transmission rate of the infection and the respiratory-related mortality. Therefore, the investigators believe that ECMO in case of severe interstitial pneumonia caused by COVID could represent a valid solution in order to avoid lung injuries related to prolonged treatment with non-invasive and invasive mechanical ventilation. In addition, ECMO could have a role for the systemic complications such as septic and cardiogenic shock as well myocarditis scenarios. Potential clinical effects and outcomes of the ECMO support in the novel coronavirus pandemic will be recorded and analyzed in our project. The researchers hypothesize that a significant percentage of patients with COVID-19 infection will require the utilize of ECMO for refactory hypoxemia, cardiogenic shock or septic shock. This study seeks to prove this hypothesis by conducting an observational retrospective/prospective study of patients in the ICU who underwent ECMO support and describe clinical features, severity of pulmonary dysfunction and risk factors of COVID-patients who need ECMO support, the incidence of ECMO use, ECMO technical characteristics, duration of ECMO, complications and outcomes of COVID-patients requiring ECMO support.
Maneuver for Evaluating the Potential Recruitability of the Pulmonary Parenchyme in Patients With...
Acute Respiratory Distress SyndromeThis study will try to define the threshold of the recruitable volume (Vrec), obtained by a derecruitment maneuver, that permit to identify patients responder or not to alveolar recruitment maneuvers.
Efficacy and Safety of Angiotensin II Use in Coronavirus Disease(COVID)-19 Patients With Acute Respiratory...
COVIDAcute Respiratory Distress SyndromeThis study aims to find out whether the use of angiotensin II, which is a drug to raise blood pressure has been approved by European Medical Agency in August 2019, as an add-on medication to increase blood pressure in patients with COVID-19, acute severe lung injury, inflammation and severe shock, compared with standard medication. In addition, the investigators will collect the data of Anakinra, another drug which is frequently used in this condition to reduce inflammation. The investigators will collect clinical data and outcomes from critical care patients. The investigators will analyse for whom these drugs are most beneficial and explore whether there are any patients who don't benefit or have side effects.
Efficacy of Nebulized Lidocaine, Salbutamol, and Beclomethasone Plus Salbutamol in the Covid-19...
COVID-19 Acute Respiratory Distress SyndromeThe COVID-19, a pandemic as declare by WHO1, has a devastating impact on health and economic worldwide2. Literature suggests that acute respiratory distress syndrome (ARDS) develops over 20% of the infected individuals with Coivd-pneumonia3 along with other symptoms like fever followed by cough and dyspnea as well as chest pain in severe cases4. The current preventative strategies are non-specific10, and current interventions are predominantly supportive1. Recently, some studies have demonstrated anti-inflammatory actions for local anesthetics including lidocaine.
Driving Pressure as a Predictor of Mortality in Acute Respiratory Distress Syndrome Patients
ARDSThe aim of this study is to make analysis of potentially modifiable factors contributing to outcome of mechanically ventilated ARDS adult patient receiving lung protective strategy. Primary Objective: is to evaluate whether DP was superior to the variables that define it in predicting hospital outcome including mortality. Secondary Objective: is to identify manageable factors associated with outcome such as ventilator-related parameters and to investigate the role of non-modifiable factors such as demographic characteristics, severity of illness.
Surfactant-BL in Adult Acute Respiratory Distress Syndrome Due to COVID-19
ARDS Due to COVID-19The purpose of this study is to prove the efficacy and safety Surfactant-BL, administered by inhalation in adult hospitalized patients with ARDS due to COVID-19.
Hemodynamic Impact on Critical Care Patients With Lung Damage Secondary to COVID-19
Covid19Hemodynamic Instability2 moreThe aim of the present work is to describe the hemodynamic effects shown in patients with ARDS secondary to SARS-CoV-2 infection
Assessment of Microcirculation Alteration With Both Sublingual Microcirculation and Near-infrared...
Acute Respiratory Distress SyndromeMicrocirculatory alterations are frequently observed in critically ill and severe sepsis patients characterized by a decrease in capillary density and an increase in heterogeneity of perfusion. This derangements result in microcirculatory shunting and oxygen extraction deficit, and plays a major role in the pathophysiology of sepsis and multi-organ failure. Loss of hemodynamic coherence between the macro- and microcirculation results in persistent and incomplete reversal of microcirculatory and regional hypoxia that is the major factor contributing to the development of organ failure. Current techniques permitting monitoring the microcirculation can be classified in two main groups: (1) Methods for evaluation of local tissue oxygenation as a surrogate of microcirculatory blood flow. (2)Methods allowing direct visualization of the microvascular network and microcirculatory blood flow. Near-infrared spectroscopy (NIRS) is a non-invasive technique for evaluating tissue oxygenation in vessels with a diameter < 1 mm (arterioles, capillaries, and venules). Recent systemic review studies have showed that patients with severe sepsis or septic shock have lower levels of StO2, moreover, survivors present higher levels of StO2 compared with non-survivors. Reactive hyperemia during vascular occlusion test (VOT) can be considered an integral test of microcirculatory reactivity, evaluating the tissue's ability to adjust oxygen extraction capabilities to oxygen delivery after a hypoxic stimulus induced by a transient interruption in blood flow. Continuous StO2 measurement and VOT derived StO2 deoxygenation slope and StO2 recovery slope have been found to be predictors of mortality and organ dysfunction. Sublingual microcirculation allows direct visualization of the sublingual microcirculation and for quantitative determination of variables of flow, capillary density, and flow distribution. Microvascular alterations including decreased functional capillary density, increased perfusion heterogeneity, and increased proportion of stopped and intermittently perfused capillaries, are more severe in non-survivors than in survivors. In addition, persistence of these alterations was strongly and independently correlated with multi-organ failure and mortality. ARDS is the most severe form of acute lung injury in ICU with mortality about 45% without achievement in ten years. However, only few studies were focused on the microcirculatory alterations in ARDS patients.
FRC Guided Therapy in Acute Respiratory Failure
Mechanical VentilationAcute Respiratory Failure1 moreIn ventilated patients with acute respiratory failure endotracheal suctioning may lead to alveolar derecruitment, which can be monitored by means of functional residual capacity (FRC) measurements. Regional distribution of ventilation can be followed at bedside using electrical impedance tomography. The investigators hypothesize that a FRC guided recruitment strategy, aimed at restoring a baseline FRC value after open endotracheal suctioning, improves oxygenation and regional distribution of ventilation. In addition the investigators research the impact of such a strategy on the inflammatory response to mechanical ventilation.