View clinical trials related to Respiratory Distress Syndrome.
Filter by:The purpose of this research study is to learn about the safety and efficacy of human umbilical cord derived Mesenchymal Stem Cells (UC-MSC) for treatment of COVID-19 Patients with Severe Complications of Acute Lung Injury/Acute Respiratory Distress Syndrome (ALI/ARDS).
Study KIN-1901-2001 is a multi-center, adaptive, randomized, double-blind, placebo-controlled study to assess the efficacy and safety of gimsilumab in subjects with lung injury or acute respiratory distress syndrome (ARDS) secondary to COVID-19.
This study intended to evaluate the effects of commonly used diuretic, spironolactone, on oxygenation in covid-19 ARDS patients.
***At this time, we are only enrolling at Houston Methodist Hospital (HMH)/Baylor College of Medicine (BCM) and are not shipping cells outside of BCM/HMH.*** This is a study for patients who have respiratory infection caused by SARS-CoV-2 that have not gotten better. Because there is no standard treatment for this infection, patients are being asked to volunteer for a gene transfer research study using mesenchymal stem cells (MSCs). Stem cells are cells that do not yet have a specific function in the body. Mesenchymal stem cells (MSCs) are a type of stem cell that can be grown from bone marrow (the spongy tissue inside of bones). Stem cells can develop into other types of more mature (specific) cells, such as blood and muscle cells. The purpose of this study is to see if MSCs versus controls can help to treat respiratory infections caused by SARS-CoV-2.
Describe COVID-19 patients who are receiving ECMO-VV respiratory replacement and what happens to them.
Strategies to prevent lung injury, facilitate lung development, and to support the preterm infant's capacity to breathe are decisive. Continuous positive airway pressure (CPAP) is the gold standard in non-invasive breathing support in preterm infants with a positive pressure that keeps the alveoli slightly inflated during expiration. Non-invasive neurally adjusted ventilator assist (NIV NAVA) is a novel method of breathing support and uses the electrical activity from the diaphragm to trigger the ventilator and synchronize with the breathing cycle. During NIV NAVA the preterm infant controls the onset of the inspiration, the respiratory rate, inspiratory time and peak pressure. This method has the potential to improve the positive pressure transmission to the infant's lower airways, accurate synchronization with the breathing pattern and be a comfortable breathing support system for the preterm infant. The investigators will compare the effect on breathing effort in preterm infants during continuous positive airway pressure and non-invasive neurally adjusted ventilatory assist measured by electrical activity in the diaphragm, respiratory vital signs, systematic clinical scoring of breathing effort and comfort, and parent reported outcomes.
Whereas the pandemic due do Covid-19 continues to spread, the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) causes Severe Acute Respiratory Distress Syndrome in 30% of patients with a 30%-60% mortality rate for those requiring hospitalization in an intensive care unit. The main physio-pathological hallmark is an acute pulmonary inflammation. Currently, there is no treatment. Mesenchymal stem cells (MSC) feature several attractive characteristics: ease of procurement, high proliferation potential, capacity to home to inflammatory sites, anti-inflammatory, anti-fibrotic and immunomodulatory properties. If all MSC share several characteristics regardless of the tissue source, the highest productions of bioactive molecules and the strongest immunomodulatory properties are yielded by those from the Wharton's jelly of the umbilical cord. An additional advantage is that they can be scaled-up to generate banks of cryofrozen and thus readily available products. These cells have already been tested in several clinical trials with an excellent safety record. The objective of this project is to treat intubated-ventilated patients presenting with a SARS-CoV2-related Acute Respiratory Distress Syndrome (ARDS) of less than 96 hours by three intravenous infusions of umbilical cord Wharton's jelly-derived mesenchymal stromal cells (UC-MSC) one every other day (duration of the treatment: one week). The primary endpoint is the PaO2/FiO2 ratio at day 7. The evolution of several inflammatory markers, T regulatory lymphocytes and donor-specific antibodies will also be monitored. The trial will include 40 patients, of whom 20 will be cell-treated while the remaining 20 patients will be injected with a placebo solution in addition to the standard of care. Given the pathophysiology of SARS-CoV2, it is thus sound to hypothesize that the intravenous administration of UC-MSC during the initial phase of ARDS could control inflammation, accelerate its recovery with improved oxygenation, reduced mechanical ventilation and ventilation weaning time and therefore reduced length of stay in intensive care. The feasibility of the project is supported by the expertise of the Meary Cell and Gene Therapy Center, which is approved for the production of Advanced Therapy Medicinal Products and has already successfully prepared the first batches of cells, as well as by the involvement of a cardiac surgery team which will leverage its experience with stem cells for the treatment of heart failure to make it relevant to the Stroma-Cov-2 project.
Inclusion criteria are premature newborns under the gestational age (GA) of 32 weeks old with RDS, defined as the need of non invasive mechanical ventilation to keep peripheral oxygen saturation (SpO2) >90% and clinical signs of respiratory distress (polypnea, chest retractions, nasal flutter). Exclusion criteria are non-acceptance of the informed consent, chromosomal abnormalities, complex congenital malformations, signs of congenital septic shock and mechanical ventilation or endotracheal surfactant prior to the lung ultrasound. The main objective of the study is to determine if a diagnostic of respiratory distress syndrome guided by a lung ultrasound algorithm allow an earlier surfactant therapy (within the first 2 hours of life) comparing to chest X ray Secondary objectives were to assess FiO2 reached before surfactant therapy in patients surfacted according to the lung ultrasound score, the influence of the lung ultrasound algorithm regarding the respiratory evolution, and its differences comparing to the FiO2group. Respiratory evolution was defined as the need of mechanical ventilation, second dose of surfactant, duration of non invasive ventilation, number of days with oxygen requirements, length of stay in the neonatal intensive care unit, evolution to bronchopulmonary dysplasia and their progression to discharge from hospital. Patients who met the inclusion criteria were randomly assigned to two groups. using the "random" function in MS-Excel XP® program. A total of 6 physicians enrolled participants, all them fully trained for the use of lung ultrasound. The principal investigator assigned participants to interventions, depending on the randomized list. - Experimental Group 1: The neonatologist-researcher (NR) performed the lung ultrasond at admission during the first hour of life. The neonatologist-assistant (NA) of the baby was not blinded to the result of the lung ultrasound. If the patient had a lung ultrasound score higher than >8 or when FiO2 exceeded 30% patient received surfactant therapy during in the first 72 hours of life . This lung ultrasound threshold is the one with best diagnostic accuracy. - Control Group 2: The NR performed the at admission/suspicion during the first hour of life. The NA was not blinded to the result of the ultrasound. Patient received surfactant therapy only when FiO2 exceeded 30% during the first 72 hours of life
Coronavirus disease 2019 (COVID-19) is an emerging infectious disease that was first reported in Wuhan, China, and had subsequently spread worldwide. Twenty-nine percent of COVID-19 patients may develop ARDS. Based on the potential beneficial mechanisms of HFNC and PP, whether early use of prone positioning combined with HFNC can avoid the need for intubation in COVID-19 induced moderate to severe ARDS patients needs to be further investigated.
Oropharynx is the main source of pathogen microorganisms for the ventilator - associated pneumoniae. As known bacteriophages can eliminate different pathogen microorganisms or reduce a degree of a pathogen's colonization. The research team is considering that oropharyngeal decontamination with bacteriophages can prevent the developing of the ventilator - associated pneumoniae. There will be three groups in this investigation: placebo, antiseptic drug (Octenisept) and bacteriophage (Sexthaphag).