Abnormalities in Lung Computed Tomography and Physiological Alterations in Patients With Acute Respiratory...
Respiratory Distress SyndromeAdultThe objective of the study is to determine the correlation between the physiological variables and the degree of consolidation in lung computed tomography in patients with acute respiratory distress syndrome
Early Neonatal Respiratory Distress: Changes in Level IIb Hospital Over a Period of One Year
Neonatal Respiratory Distress SyndromeRespiratory distress is one of the first hospital grounds during the neonatal period. The clinical presentation and severity vary by gestational age and cause. She reports to various etiological factors as maternal, neonatal or sometimes entangled. The symptomatic management has benefited from organizational progress (perinatal care) and techniques, including antenatal steroids, the use of exogenous surfactant and non-invasive ventilation early, so that the use of intubation is less frequent. The short-term evolution of patients with early respiratory distress is based on gestational age, cause and initial management.
Evaluation of the Lung Recruitment and End-expiratory Lung Collapse in Acute Respiratory Distress...
ARDS: Acute Respiratory Distress SyndromeIn this study gas-exchange and respiratory mechanics variations to PEEP change will be correlated to CT lung morphological modifications assessed at different airway pressures (5, 15, 30 and 45 cmH2O).
Effects on Respiratory Patterns and Patient-ventilator Synchrony Using Pressure Support Ventilation...
Acute Respiratory Distress SyndromeCOPD1 morePressure Support Ventilation use Expiratory triggering sensitivity(Esense) to transfer inspiration to expiration,the value of Esense is fixed.That may lead to asynchrony between humans and ventilators,making people uncomfortable and prolonging weaning time.Some ventilators have auto cycle function Based on curves of pressure on respiratory patterns,it will make the transforming more synchrony with humans.Our prospective observational study will prove the superiority of the auto cycle function.
Noninvasive NAVA Versus Flow-triggered Noninvasive Pressure Support in Pediatric Respiratory Failure...
Acute Respiratory FailureAcute Hypoxemic Respiratory Failure (AHRF) is a leading cause of admission in Pediatric Intensive Care Unit (PICU). Traditional treatment includes endotracheal intubation and mechanical ventilation, that are invasive and not free from risks. Recent experiences from pediatric studies showed that Non-Invasive Pressure Support Ventilation (NIV-PS) has been associated with lower intubation rate, adverse events and mortality compared to mechanical ventilation delivered by an endotracheal tube. Nonetheless, in pediatric ARF, the application of a well-synchronized NIV-PS is technically challenging due to the presence of leaks and the age-specific characteristics of pediatric respiratory pattern (high respiratory rate, short inspiratory/expiratory time and weak inspiratory effort). Consequently, NIV-PS often results in difficult patient-ventilator interaction, with a failure rate up to 43% . Neurally Adjusted Ventilatory Assist (NAVA) is a new form of ventilatory assistance wherein the ventilator applies positive pressure throughout inspiration synchronously and proportionally to the Electrical Diaphragm activity (Edi). Thus, NAVA is not influenced by large leaks around uncuffed endotracheal tubes or noninvasive interfaces. Studies in intubated children found that NAVA improved interaction by reducing asynchronies and optimizing ventilator cycling.Two recent studies showed that the application of Non-Invasive NAVA (NIV-NAVA) in children with ARF is feasible and may reduce asynchronies as compared to NIV-PS. More recently, in a recent RCT of our group, we demonstrated that NIV NAVA in children was associated with lower asynchronies, longer synchronization time between patient and ventilator at lower peak and mean airway pressure. However no data are published to address the question if the better synchronization between patients and ventilator obtained with NIV NAVA could lead to a reduction in intubation rate and PICU outcomes. To address this question, we designed an observational retrospective study aiming to define if early delivered NIV NAVA could reduce intubation rate if compared with traditionally flow-cycled NIV PS in hypoxemic children admitted to PICU.
Cerebral Perfusion and Acute Respiratory Failure
Cerebral Blood Flow and Neonates During Acute Respiratory FailureThe most common reason for admitting babies and infants to an intensive care unit is due to respiratory distress (breathing difficulties). At present there are a number of different treatments for respiratory distress. These include drug treatments; non-invasive ventilation, where oxygen is given at high pressure to push it through the baby's lungs: ventilation where the baby is put on a breathing machine; or Extracorporeal Membrane Oxygenation (ECMO). This works by taking the blood from the body via a tube (usually) in the baby's neck, redirecting through a machine that oxygenates the blood, then returning it to the baby through another tube. Currently we know little about how different treatments have a different impact on brain perfusion (how much oxygen the brain gets). Using specialist, noninvasive ultrasound and doppler techniques, we are proposing to monitor the effect of these treatments on the brain.
Effect of Steroid Administration on Maternal Blood Levels of hLPCAT1 mRNA
Fetal Lung MaturityRespiratory Distress Syndrome in Premature InfantNeonatal respiratory distress syndrome affects babies who are born preterm and requires them to be placed on a ventilator in the Intensive Care Unit. Over 15 million babies were born premature and these numbers have been increasing. It is caused by lungs which are still too immature to produce adequate amounts of surfactant. This surfactant reduces the alveolar surface tension and maintains the alveoli from collapsing. Collapsed alveoli prevent gas exchange and greatly increase work of breathing. Surfactant is a biochemical complex made up mostly of phospholipids such as phosphatidylcholine and phosphatidylglycerol and these, in turn, appear to be synthesized by lysophosphatidylcholine acyltransferase 1 (LPCAT 1). The investigators have previously established that hLPCAT1 mRNA in maternal serum correlates with lamellar body count, a well established clinical marker of fetal lung maturity.
Measuring Heart and Lung Function in Critical Care
Respiratory Distress SyndromeAdult4 moreThis is a feasibility study of the use of a novel technique called 'Inspiwave' to measure heart and lung function in adult patients in critical care. The preliminary work has already been undertaken in animal models and in healthy volunteers. The ultimate aim of this study is to develop a clinical tool for measuring (and therefore being able to make treatment changes based on) indices of heart and lung function in critical care patients. This study is the first assessment of the technique in this population, and whilst we know it works in patients undergoing general anaesthesia, we now need to assess whether Inspiwave can be used at all in critical care patients who may have much more physiological derangement. The purpose of this phase of the research is to determine whether it is feasible to use Inspiwave in critical care. Inspiwave generates a sinusoidally modulated tracer gas signal in the inspired air. It also measures the resulting signal in the expired air. The unique handling of this signal by the patient can used be to derive key variables related to cardiopulmonary function such as lung volume, pulmonary blood flow, the deadspace (wasted ventilation) and the degree to which ventilation and blood flow are non-uniform. These are 'vital signs' in sick patients, yet are currently technically difficult to measure, particularly non-invasively.
Dexmedetomidine to Improve Outcomes of ARDS in Critical Care COVID-19 Patients
Acute Respiratory Distress SyndromeInflammation4 moreA continuous infusion of Dexmedetomidine (DEX) will be administered to 80 patients admitted to Critical Care because of signs of Respiratory Insufficiency requiring non-invasive ventilation. Measurements of respiratory performance and quantification of cellular and molecular inflammatory mediators. The primary outcome will be the avoidance of mechanical ventilation with secondary outcomes duration of mechanical ventilation, avoidance of delirium after sedation and association of mediators of inflammation to outcomes. Outcomes will be compared to a matched historical control (no DEX) series
Postoperative Respiratory Abnormalities
Respiratory FailureRespiratory Arrest18 moreThe study aims to determine how historical cases of respiratory abnormalities are documented by clinicians in the electronic health records (EHR) of Memorial Hermann Healthcare System (MHHS) inpatient facilities. The knowledge gained from this study will support the design of modern data-driven surveillance approach to continuously collect, monitor and timely recognize postoperative respiratory abnormalities using electronic healthcare recorded data.