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Respiratory Infections clinical trials

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NCT ID: NCT04362059 Completed - Clinical trials for Respiratory Infections

A Clinical Trial of Nebulized Surfactant for the Treatment of Moderate to Severe COVID-19

COVSurf
Start date: June 18, 2020
Phase: N/A
Study type: Interventional

Lung surfactant is present in the lungs. It covers the alveolar surface where it reduces the work of breathing and prevents the lungs from collapsing. In some respiratory diseases and in patients that require ventilation this substance does not function normally. This study will introduce surfactant to the patients lungs via the COVSurf Drug Delivery System

NCT ID: NCT02927743 Completed - Antibiotics Clinical Trials

Effect of Evidence-based Reminders on Use of Antibiotics

Start date: June 2015
Phase: N/A
Study type: Interventional

Inappropriate use of antibiotics in primary care is associated with Development of antibiotic resistant strains. As part of a quality improvement program carried out in primary care in Uruguay, Argentina, Paraguay and Bolivia, a cluster randomized control trial was performed. The aim of the study was to assess whether the use of continuous evidence-based feedback about management of respiratory tract infections could decrease use of antibiotics in Acute bronchitis, common cold and acute otitis media.

NCT ID: NCT02491164 Completed - Clinical trials for Respiratory Infections

Exploratory Study of Intrapulmonary Microdosing of Gram-negative Optical Imaging Detection Probe

BAC TWO
Start date: April 2016
Phase: Early Phase 1
Study type: Interventional

Critically ill patients are often ventilated in dedicated critical care units to provide respiratory support. Despite best practice patients can often develop a condition called adult respiratory distress syndrome (ARDS), which is characterised by deterioration in their respiratory function, and changes on chest x-ray. The correct management for ARDS is identifying the underlying condition causing the deterioration and identifying appropriate targeted therapy. One such cause is pneumonia, caused by a bacterial infection in the lungs of a ventilated patient. The patients may have been ventilated due to pneumonia but they may also develop pneumonia whilst ventilated. Ventilator associated pneumonia (VAP) has significant mortality. Despite all the clinical and laboratory data at the investigators' disposal there remains great difficulty in the accurate diagnosis of pneumonia and therefore treatment is often given empirically. Therefore, there is an urgent clinical need for accurate methods to diagnose the presence of bacteria deep in the lung in ventilated critically ill patients. As such, the investigating team have developed and synthesised an imaging agent called BAC TWO. BAC TWO will be instilled directly into the lungs of 12 patients to assess whether it can label gram-negative bacteria in the human lung.

NCT ID: NCT02438293 Completed - Clinical trials for Congenital Heart Disease

'The Impact of Rhinovirus Infections in Paediatric Cardiac Surgery'

RISK
Start date: June 2015
Phase:
Study type: Observational

This is a prospective single- center observational study in the Leiden University Medical Center in approximately 250 children (<12 years) undergoing elective cardiac surgery, for congenital heart disease. The parents/guardians of the children will be asked to fill out a questionnaire, to asses respiratory symptoms in the last weeks, before the operation of their child. In the operating theatre, a nasopharyngeal swab will collected. Clinical data will be collected daily during paediatric intensive care admission, and date of discharge from paediatric intensive care unit and from hospital are recorded. If children are still intubated at day 4 a second nasopharyngeal swab and residual blood will be collected. The samples will be tested for rhinovirus with a polymerase chain reaction. Main study parameter is the paediatric intensive care unit length of stay in per-operative rhinovirus -positive compared to rhinovirus-negative patients.

NCT ID: NCT02211729 Completed - Malaria Clinical Trials

A Trial of Seasonal Malaria Chemoprevention Plus Azithromycin in African Children

SMCAZ
Start date: May 2014
Phase: Phase 3
Study type: Interventional

The primary objective of this study is to determine whether addition of azithromycin (AZ) to Seasonal Malaria Chemoprevention (SMC) using sulphadoxine/pyrimethamine (SP) +amodiaquine (AQ) will provide an additional reduction in deaths and severe illness in young African children. The secondary objectives include an assessment of the safety and cost-effectiveness of the addition of AZ to SMC with SP+AQ. This a double blind, randomised, placebo controlled trial. The unit of randomisation will be the household. Children aged 3 - 59 months will be randomised to receive four cycles of either SP+AQ+AZ or SP+AQ+ placebo at monthly intervals during the peak malaria transmission season. Study Sites: Hounde district in Burkina Faso and in Bougouni district, Mali. Children of 3-59 months of age at the start of each period of drug administration will be eligible for inclusion in the trial provided that parental consent is obtained. Children with a severe, chronic illness or known allergy to one of the study drugs will be excluded. Primary endpoint: Incidence of the combination of death or hospital admission for at least 24 hours, not due to trauma or elective surgery during the intervention period Secondary endpoints: 1. incidence of the primary endpoint during the whole study period 2. attendance at a study health centre with a nonmalaria febrile illness 3. attendance at a study health centre with malaria, 4. the prevalence of moderate anaemia at the end of each malaria transmission season, 5. nutritional status at the end of each malaria transmission season, 6. prevalence of nasopharyngeal carriage with pneumococci and macrolide resistant pneumococci before and at the end of each malaria transmissions season, 7. prevalence of resistance markers to SP at the end of the study, Sample size: 19,200 children (9600 in each country) will be enrolled.

NCT ID: NCT01909128 Completed - Clinical trials for Respiratory Infections

Fermented Milk and Fermented Rice on the Appearance of Respiratory and Gastrointestinal Symptoms

Start date: February 2013
Phase: Phase 3
Study type: Interventional

The respiratory and gastrointestinal infections are a very common problem with high morbidity in children. These conditions were due, in general, immaturity and all "inexperience" of the immune system, as well as to the particular anatomical structure and function of the respiratory and gastrointestinal tract still developing. This inevitably means that school-age children develop disease (as a result of infection) more easily than at later ages. The frequency and duration of these conditions implies a high discomfort and incur significant costs in relation to drug administration, the need for hospitalization, days of absence from school and work days lost by parents. Recently probiotics, defined as "microorganisms that prove able, once ingested in adequate amounts, exert beneficial functions for the body "have been proposed for the treatment of treatment of respiratory and gastrointestinal infections of childhood but only in recent years have been conducted controlled clinical trials that have conclusively proven effectiveness. All probiotics induce an immune response, the characteristics of which are related to the strain or the mixture of bacteria used. Recent studies have demonstrated positive effects of probiotics on the respiratory system, and in particular on the prevention and reduction of the severity of respiratory infections, probably mediated by an increase of cells that secrete Immunoglobulin A in bronchial mucosa. It 'been shown that probiotics can be a sure way to reduce the risk of early acute otitis media and the use of antibiotics for recurrent respiratory infections during the first year of life. Similar results were seen in a study conducted on a population of 326 children aged between 3 and 5 years, who found a decrease in the incidence of antibiotic use by over 65% and a reduction of days of absence of more than 25% among children treated with a probiotic. Many of the studied effects of probiotics, understandably, refer to the digestive system. These effects relate to both conditions paraphysiological (constipation) and more specifically in situations of illness. Most of the studies carried out in recent years has demonstrated the efficacy of specific probiotics in reducing the symptoms in the pediatric population affected by infectious gastroenteritis. Probiotics reduce the duration of infectious diarrhea by 0.7 days and reduce the frequency of diarrheal episodes in the first few hours. The microbiota on the other hand participates in the function of the mucosal barrier against the adhesion of pathogenic bacteria, crucial time for the start of the infectious process. When this barrier function is altered by chemical agents, by antigens or by stressors of different nature, may manifest intestinal disorders, sometimes due to the growth of bacteria pathogens. Numerous experimental data suggest that probiotics can contribute to the reinforcement of the activities of gut mucosal barrier, in particular aspects affecting the functionality of the intestinal epithelial cells or macrophages. More recently it has been shown that daily intake for 3 months of preparation with probiotics reduce the incidence and severity of the most common respiratory infections and limits the number of days of absence school children during the winter season. It's scientifically recognized as some probiotic effects can also be obtained with the use of inactivated bacteria or bacterial components isolated (eg bacterial DNA). It has been recently proposed a modified definition of probiotic products as "prepared bacterial cells or bacterial components that have a beneficial effect on the health and welfare of the host". Among these products "probiotic-like" fall ingredients object of this study: food ingredients (rice flour and skim milk) fermented, or in which has been made to grow a probiotic (Lactobacillus CBA-L74) that has been inactivated at the end of the fermentation process through a heat treatment. The benefits are attributable to bacterial components that remain in the final product (for example, DNA, cell wall, etc.) and factors produced during the fermentation (short chain fatty acids, bacterial proteins, etc.). The main effects of these bacterial components relate to the stimulation of the gastrointestinal tract associated lymphoid tissue (GALT), through interaction with the immune cells via Toll-like receptors. In addition, some components, such as proteins and peptides, may have a Bifidogenic activity and are available in the literature some studies that have demonstrated the ability of infant formula, milk-based fermented to reduce the severity of episodes of infectious diarrhea in children. With this data, the Commission of the European Society of Nutrition Gastroenterology, Hepatology and Pediatric Nutrition (ESPGHAN) has defined this type of products are not only safe but to determine a potential prebiotic effect and the reduction of the severity of episodes of infectious diarrhea.

NCT ID: NCT01907659 Completed - Clinical trials for Respiratory Infections

Viral Testing and Biomarkers to Reduce Antibiotic Use for Respiratory Infections

Start date: October 2013
Phase: N/A
Study type: Interventional

This trial is a pilot study to determine the feasibility of a randomized clinical trial comparing a treatment algorithm consisting of a limited number of clinical parameters, rapid molecular viral diagnostics, and serum procalcitonin testing to standard of care for directing antibiotic use in patients with non-pneumonic lower respiratory tract infection. The reduction in antibiotic use in those subjects randomized to the treatment algorithm compared to those randomized to standard care will be determined.

NCT ID: NCT01443728 Completed - Asthma Clinical Trials

Vitamin D for Sickle-cell Respiratory Complications

Start date: December 13, 2011
Phase: Phase 2
Study type: Interventional

This study aims to answer the question whether oral vitamin D supplementation can decrease lung complications in children and adolescents with sickle cell disease. Lung complications are the leading causes of morbidity and of death in sickle cell disease. Infections and increased inflammation play important roles in the development of the lung problems in sickle cell disease. Emerging evidence shows that vitamin D helps the immune system to fight infection and to control inflammation and could potentially help prevent respiratory complications in patients with sickle cell disease. The investigators hypothesize that oral vitamin D3, 100,000 IU (2.5 mg), given once a month to a group of children and adolescents with sickle cell disease, will reduce the rate of respiratory events (infection, asthma exacerbation and acute chest syndrome) compared to the rate in a group given standard dose oral vitamin D3, 12,000 IU (0.3 mg) given once a month. Funding Source - U.S. Food & Drug Administration, Office of Orphan Products Development

NCT ID: NCT01390753 Completed - Clinical trials for Respiratory Infections

Role of Human Milk Bank in the Protection of Severe Respiratory Disease in Very Low Birth Weight Premature Infants

Start date: April 2012
Phase: N/A
Study type: Interventional

Acute respiratory infections are the leading cause of hospitalization in premature infants worldwide. Severity rates are particularly high in developing countries. Numerous viruses can cause severe disease, but the most frequent agent of hospitalization is respiratory syncytial virus (RSV). In a recent study in Argentina, 58% of RSV infected VLBW infants required hospitalization and 19% required mechanical ventilation. One every twenty infected infants died. Unlike industrialized nations, VLBW infants in developing countries often lack access to prophylaxis against RSV with a commercially available monoclonal antibody (palivizumab). No vaccine or preventive intervention is available against any respiratory virus for infants younger than 6 months of age in developing countries and the public sector of most middle-income countries. The protective role of breastfeeding against respiratory infections in developing countries is well established. But while similar beneficial effects have been described for premature infants, the dropout rate for breastfeeding in families exposed to the uncertainties and stress of the early months of life in the neonatal intensive care unit is very high. The World Health Organization recommends the use of Human Milk Donor Banks to feed infants that cannot be breastfed by their own mothers. These banks are established with the purpose of collecting, screening, processing (including pasteurizing), testing and distributing donated human milk. The potential benefit of donated milk against acute disease elicited by RSV is unknown. The investigators propose to study the role of supplemental donated human milk in the prevention of hospitalizations caused by RSV in non-breastfeeding premature infants. Since the investigators expect the benefits of breast milk to extend beyond protection against RSV, the effect of human milk against respiratory infections elicited by other viruses will also be evaluated.

NCT ID: NCT00533182 Completed - Clinical trials for Respiratory Infections

Influenza in People With Normal and Weakened Immune Systems

Start date: January 3, 2008
Phase:
Study type: Observational

This study will evaluate how the immune system responds to influenza infection and compare how the infection differs in patients with a weakened immune system versus those with a healthy immune system. Patients at the NIH Clinical Center who are older than 2 years of age and who are diagnosed with influenza A or B may be eligible for this study. Patients with healthy immune systems and weakened immune systems are included. Participants answer questions about how they are feeling and have a physical examination to evaluate their symptoms. Blood and nasal fluid are collected on the first day and then every other day for a total of 8 days. Nasal fluid is collected by either inserting a small tube in the nose and washing the nose with salt water and collecting the fluid obtained, or by rubbing the inside of the nose with a swab. Physical examinations are repeated on the days that blood and nasal fluid are collected.