View clinical trials related to Respiratory Tract Infections.
Filter by:SARS-CoV-2 (Severe acute respiratory syndrome coronavirus type 2) is a new coronavirus and identified causative agent of COVID-19 disease. These viruses predominantly cause mild colds, but can sometimes cause severe pneumonia and pulmonary skeletal changes. By low-field gastric magnetic resonance imaging (NF-MRI), only a small number of structural, scarring changes were seen in a preliminary study of pediatric and adolescent patients with past SARS-CoV-2 infection. In contrast, however, extensive changes in ventilation and blood flow function of the lungs were seen. The long-term consequences and spontaneous progression of these changes on imaging are completely unclear. The aim of this study is to assess the course of these functional lung changes in pediatric and adolescent patients and to validate them with other standard clinical procedures.
The purpose of this study is to confirm and quantify the effects of ElderCraft® elderberry extract on immune health.
Newborn babies and infants are susceptible to infections as their immune system is still immature. Maternal immune factors for example antibodies and immune cells mitigate this vulnerability. They are transferred from mother to child via the placenta during pregnancy or by breast milk after birth and provide protection against infectious diseases. In the case of SARS-CoV-2 it has already been shown that specific antibodies are transferred from mother to children after infection or vaccination during pregnancy. However, to this date it is not known how long such an antibody-mediated protection lasts in children and if this "passive" immunity actually protects infants from SARS-CoV-2 infection in the first months of life. In general, there is still little knowledge about the influence of maternal infections during pregnancy, transfer of maternal immune factors to the child and development of the child's immune system and health in the first months of life. Here, the investigators aim to study transferred immunity (i.e. specific antibodies) against SARS-CoV-2 in children of mothers who received a SARS-CoV-2 vaccination during pregnancy or had a SARS-CoV-2 infection during pregnancy with mothers not exposed or exposed before pregnancy. In addition, the investigators will comprehensively characterize the development of the cellular immune system in the first year of life (umbilical cord blood, age 6 and 12 months) to explore how maternal exposure to infectious diseases or vaccines influences the development of the immune system of the newborn infant.
Thirty -one confirmed Severe Acute Respiratory Syndrome CoronaVirus 2 (SARS-CoV-2 ) infected patients with Acute Respiratory Distress Syndrome (ARDS) and placed in prone position(PP) for 3 times (PP1, PP2, PP3)consecutively will be included. Arterial blood gases (ABG), partial pressure of arterial oxygen/ fraction of inspired oxygen (PaO2/FiO2 ) ratios, partial pressure of carbondioxide (PaCO2), positive end expiratory pressure (PEEP), and fraction of inspired oxygen (FiO2) values will be recorded before (bPP), during (dPP)and after (aPP) every prone positioning. Eye, skin, nerve and tube complications related to prone positions wll be recorded
The COVID-induced fibrotic lung damage continues long after viral infection has subsided and is exhibited by severe respiratory pathology and concomitant symptoms. The long-lasting sequelae in patients who have recovered from severe COVID indicate that there is a 30% chance of developing a persistent respiratory system pathology and a 10% chance of developing a severe pathology. The symptoms of lung fibrosis include a severe disruption of respiration, reduction of exercise tolerance, and concomitant development of persistent fibrotic lung damage. This study intends to evaluate benefits of a combination of VL-P22 and VL-PX10 in Covid-19 patients exhibiting pulmonary fibrosis.
The aim of this study is to test saliva samples obtained from healthy human participants for anti-viral activity after they have consumed S. salivarius probiotic in a powder format.
COVID-19 is an infectious disease which presents a heterogenous clinical presentation. Recent investigations suggest that people who were infected by COVID-19 often develop physical disabilities (i.e. pain, fatigue), neurological complications and and mainly disorders of the respiratory system, such as respiratory muscle weakness after hospital discharge. Many therapeutic approaches such as transcranial direct current stimulation (tDCS) have been proposed to minimize functional and structural impairments. The aim of the present study is to evaluate the effects of inspiratory muscle training associated with stimulation of the diaphragmatic motor cortex through hd-tdcs in post-COVID-19 patients on inspiratory muscle strength, pulmonary function, inflammatory levels and functional capacity.
OBOE is a prospective, pilot, parallel group RCT with the overall aim of examining the effect of a single dose of anti-IgE (omalizumab) vs. placebo administered at the onset of URIs in the fall season among highly exacerbation-prone, urban, and atopic youth aged 6-17 years with persistent asthma. OBOE will recruit and randomize participants over 3 years (3 annual cohorts of participants). Recruitment for each of the yearly cohorts of OBOE will begin in February. Each cohort will be followed for a 2-6-month run-in period with the objective to gain control of each participant's asthma and to stabilize the required controller medication step level. Participants will receive routine asthma care every 1-2 months (a total of 2-4 times) during run-in using a previously described algorithm developed by the Inner-city Asthma Consortium and successfully employed in the PROSE study. The primary outcome is the change in the amount of nasal IFN-α recovered by nasal fluid absorption between two time points, within 72 hours of onset of a URI as defined by onset of (or substantial worsening of) rhinorrhea, nasal congestion or sneezing (single or multiple symptoms) and 3-6 days after study drug injection.
The researchers will recruit volunteers from various organisations who are willing and able to be randomised to either working from home for 4 weeks followed by working in the office for 4 weeks, or vice versa. The goal is to assess whether working from home has an impact on the risk of symptoms of respiratory infection.
Severe Community-acquired pneumonia (SCAP) is a leading global infectious cause of intensive care unit (ICU) admission (approximately 20%-30%), and the primary reason of mortality and morbidity in immunocompromised patients. There is a global increase of patients with distinct immunocompromised conditions due to the advance of cancer treatment, increasing biologics, and immunosuppressants for autoimmune diseases and growing organ transplant recipients, and it has been estimated that patients with immunocompromised conditions account for approximately 35% of all intensive care unit (ICU) admissions. Immunocompromised patients with SCAP have more factors to complicate with sepsis, respiratory failure, acute respiratory distress syndrome, and the mortality rate can be up to 50%. With the aim to apply early accurate antimicrobial therapy to improve clinical prognosis of SCAP patients with immunocompromised conditions, timely identification of pathogen is particularly important. Conventional microbiological diagnostic methods such as standard microbiologic cultures, microscopy, polymerase chain reaction (PCR), respiratory virus multiplex PCR, as well as pathogen-specific antigens and antibody assays, are currently commonly used to detect pathogens, although they have various limitations. However, conventional antimicrobial therapy depends on the results of conventional diagnostic methods, which may delay timely accurate antimicrobial therapy at the initial stage, and the mortality of immunocompromised patients with SCAP may be increased. Metagenomic next-generation sequencing (mNGS), which can determine pathogens more quickly (usually within 24h) and accurately comparing with conventional diagnostic methods by analyzing cell-free nucleic acid fragments of pathogens using appropriate lower respiratory tract (LRT) specimen, is increasingly used in severe respiratory infectious disease, especially among immunocompromised patients. This study aims to determine whether mNGS (using LRT specimen) guided antimicrobial treatment improves clinical prognosis of SCAP patients with immunocompromised conditions when compared with conventional antimicrobial treatment.