View clinical trials related to Respiratory Tract Diseases.
Filter by:The SARS-CoV2 virus causes severe or even fatal disease in a fraction of infected people. The clinical severity is based on a complicated pneumopathy with acute respiratory distress syndrome that can lead to multi-visceral failure. The underlying mechanism is a cytokinergic storm, an emerging facet of immunological dysregulation. This clinical trial is aimed to understand the mechanisms of this immunological dysregulation in order to identify therapeutic levers. The main objective is to understand the relationships between clinical severity, death or morbidity of resuscitation management, and immune status (i.e., immune pathways activated or not). Immune status will be investigated at many levels of organization (i.e., circulating leukocytes, cytokines and chemokines, transcripts). The secondary objectives are : - to understand what is responsible for clinical severity, viral load, or immune activation; - to highlight the consequences of immunological dysregulation on associated risks (i.e., immunosuppression leading to the emergence of infectious comorbidities) as well as the functioning of neurotransmission through metabolic pathway diversions. The impact of dysimmunity on these biological pathways will be assessed with a metabolomic analysis; - to understand the mechanisms of vulnerability related to the field. Moreover, while co-morbidities are likely to be a risk factor for severe disease progression, there are many situations in which they do not occur. Stress, with its neurovegetative and endocrinological dimensions, modulates the immune response. It is essential to know whether the stress response plays a role in immunological dysregulation. This analysis is a prerequisite for understanding the conditions of treatment with glucocorticoids. Angiotensin converting enzyme type 2 (ACE2) also plays a likely role in host viral infection. It is also thought to play an important role in the emergence of severe syndromes by affecting the quality of vascular response.
This study is a Phase 1 / 2 trial to determine the safety and efficacy of CYNK-001, an immunotherapy containing Natural Killer (NK) cells derived from human placental CD34+ cells and culture-expanded, in patients with moderate COVID-19 disease.
The study aims to investigate the impact of pharmacist delivered interventions on hospice patients quality metric scores.
This study is being done because researchers want to learn more about genes that control the immune response in the participant's lungs and blood when the participant have lung disease leading to respiratory failure. Primary Objective To evaluate the feasibility of performing single cell gene expression analyses on tracheal aspirates from immunocompromised pediatric patients with immune compromising conditions, including HCT recipients. Secondary Objectives - To assess whether cell composition and activation states in longitudinally obtained tracheal aspirate and blood samples are able to distinguish unique immunopathology for each of the early post-HCT lung diseases. - To assess whether cell composition and activation states in longitudinally obtained tracheal aspirate and blood samples are different between two immunodeficient patient populations (alloHCT vs non alloHCT) with lung disease and respiratory failure. - To test the hypothesis that allogeneic T cell responses are implicated in the pathogenesis of early post-HCT lung diseases. Exploratory Objectives To correlate immune cell signaling in the lower respiratory tract and blood of patients with early post-HCT lung diseases with the presence or absence of pathogenic microbes at each site. To explore HLA testing in Tracheal Aspirates in samples where enough cells are present.
The emerging field of stem cell therapy holds promise of treating a variety of diseases. Especially the mesenchymal stromal cells from bone marrow or adipose tissue (ASCs) have proven their potential for regenerative therapy in patients with ischemic heart disease. Both of these cell types have putative immunomodulatory properties, as they have demonstrated their ability to evade recognition and actively suppress the immune system. This knowledge is transferred into studies with COVID-19 patients having severe pulmonary dysfunction, to modify the virus induced immunological and inflammatory activity involved in the progression of disease often leading to prolonged ICU stay and in some occasion's death. We will conduct a clinical trial in which patients with COVID-19 and severe pulmonary symptoms will be randomized to either placebo or treatment with allogeneic CSCC_ASCs from adipose tissue. The aim is to assess the impact of CSCC_ASCs on the activated immune system and clinical efficacy on pulmonary function. The perspective is that this new information can be of pivotal importance and potentially be a paradigm shift for the clinical problems and severe outcome seen in some patients with severe COVID-19 and other severe diseases with Acute Respiratory Distress Syndrome.
Prospective cohort study of COVID-19 infection among children in Norway.
We hypothesize that inhaled steroid therapy and long acting beta 2 adrenergic agonist, widely prescribed in asthma patients, may also have a local protective effect against coronavirus infection, even in patients without asthma. The primary purpose is To compare time to clinical improvement in patients receiving standard of care associated to the combination budesonide/formoterol or standard of care only. Time (in days) to clinical improvement is defined as the time from randomization to an improvement of two points (from the status at randomization) on a seven-category ordinal scale or live discharge from the hospital, whichever came first within 30 days.
On Dec 31, 2019, a number of viral pneumonia cases were reported in China. The virus causing pneumonia was then identified as a new coronavirus called SARS-CoV-2. Since this time, the infection called coronavirus disease 2019 (COVID-19) has spread around the world, causing huge stress for health care systems. To diagnose this infection, throat and nose swabs are taken. Unfortunately, the results often take more than 24 hrs to return from a laboratory. Speeding diagnosis up would be of great help. This study aims to look at the breath to find signs that might allow clinicians to diagnose the coronavirus infection at the bedside, without needing to send samples to the laboratory. To do this, the team will be using a machine called a BreathSpec which has been adapted to fit in the hospital for this purpose.
The use of POCUS in pediatrics is gaining momentum, and whilst pediatric specific data remains limited when compared to adult critical care, there is growing pediatric evidence demonstrating the high sensitivity and specificity of lung POCUS in the diagnosis of pneumonia, bronchiolitis, pleural effusion and pneumothorax. the American Academy of Pediatrics policy statement cautions that "clinicians should be aware that point of care ultrasonography is better used as a rule in and not a rule out diagnostic modality".
A randomized controlled clinical trial will be carried out using inspiratory and expiratory training devices on healthy subjects recruited in social networks and university environments. The aim will be to determine the effectiveness and safety in the prevention and severity of COVID-19 disease by a respiratory training with inspiratory and expiratory devices.