View clinical trials related to Infections.
Filter by:Impact of clinical guidance & point-of-care CRP test in children: the ARON project Trial Design: multicentre, cluster-randomized, parallel group pragmatic trial Trial Participants and setting: Children aged 6 months to 12 years of age with an acute illness episode presenting to in-hours general practice or out-of-hospital community paediatrics offices Intervention(s) Diagnostic algorithm: 1. Clinical decision tree: clinician's gut feeling something is wrong, dyspnea, temperature ≥40ºC 2. YES to any : point-of-care CRP ≥5mg/L: additional testing or refer to secondary care <5mg/L: safety netting*, only prescribe antibiotics if advised (guidelines) 3. NO to all : are AB considered? YES : point-of-care CRP ≥5mg/L: safety netting*, only prescribe antibiotics if advised (guidelines) <5mg/L: safety netting*, do not prescribe antibiotics NO: safety netting *safety netting advice: - inform parents on what to expect and what to look out for - interactive parent information booklet based on previous research Control: Diagnosis and Treatment/Management as per usual care: - guidance on AB prescribing: o Belgische Commissie voor de Coördinatie van het Antibioticabeleid (BAPCOC) guide (updated November 2019) o RIZIV consensus meeting report "Antibiotics in children in ambulatory care" Primary Endpoint: Antibiotic prescribing rate at index consultation Secondary Endpoint(s) - time until full clinical recovery (during follow up (day 1 to day 30)) - additional investigations (at index consultation and/or during follow up (day 1 to day 30)) - re-consultation (during follow up (day 1 to day 30)) - antibiotic prescribing rate (during follow up (day 1 to day 30)) Exploratory endpoints at the index consultation: - additional investigations (X-Ray, blood tests, urine tests, etc.) During a follow-up period (day 1 to day 30): - referral to hospital - additional investigations (X-Ray, blood tests, urine tests, etc.) - patients with full clinical recovery at day 7 and day 30 - admission to hospital - mortality - cost-effectiveness - patient satisfaction - qualitative study: endpoints Planned Sample Size: 7000 Timing of the intervention: Intervention at index consultation (at presentation to primary care) Follow-up duration: 30 days follow-up Duration of the trial (FPI-CSR): 43 months
An external tunneled central venous access device (CVAD) is a small plastic tube that is tunneled under the skin into a major vein for long-term use (Figure 1). Patients who require a tunneled CVAD are some of the sickest patients we encounter and include oncology, hematology, and gastrointestinal (intestinal failure) patients. These patients are heavily reliant on their tunneled CVAD, which can be a lifeline for long-term administration of chemotherapeutics, IV medications, blood product transfusions, antibiotics, enteral nutrition, blood draws and fluids. Unfortunately, nearly 30% of pediatric external tunneled CVADs fail prior to the completion of treatment. External tunneled CVAD failures lead to unnecessary morbidity and mortality, interruption of medical therapy, and the added costs and risks associated with additional procedural complications. It is hypothesized that a newly designed securement method for external tunneled central venous access devices (CVAD) will reduce catheter-related complications and increase patient, parent and provider satisfaction, compared to the current standard of care, which is a clear transparent film dressing over the catheter exit site. A 20 patient, prospective clinical trial is proposed to address the following specific aims, which will determine if the securement device: 1. Is rated by patients, parents and providers as easy to apply and comfortable for users 2. Reduces CVAD-related complications, such as delayed healing of the tract, catheter-related infections, and episodes of catheter dislodgement 3. Improves the quality of life for patients and their parents 4. Is preferred over the standard, clear transparent dressing alone 5. Requires any design modifications to improve performance and/or comfort of the device
The purpose of this research is to find out if a single dose of pre-travel vaccination with BCG can lessen tuberculosis (TB) infection by producing an immune response when given to adults traveling to countries with a high burden of TB. BCG will be compared with a placebo (an inactive vaccine). BCG (Japan) is used globally but is not approved for use in the United States, therefore it is considered experimental. Participants choosing to take part in this research study, will be randomly assigned (this is like a coin flip) to BCG or placebo. 2000 eligible volunteers will be enrolled.
This Phase 2/3 trial evaluates four treatment strategies for non-critically ill hospitalized participants (not requiring ICU admission and/or mechanical ventilation) with SARS CoV-2 infection, in which participants will receive NA-831 or Atazanavir with or without Dexamethasone.
Background: Intestinal microbiota composition is fundamental to human health and undergoes critical changes within the first two years of life. Factors probably influencing the microbiota are the maternal microbiota and the general environment in Switzerland. However, the development of the intestinal microbiota is incompletely understood. Gaining knowledge of the trajectory of microbiota maturation is likely key to the understanding of the pathogenesis of many pathologies in childhood. Aims: The investigators aim for a deep understanding of the maturation of the healthy infant intestinal microbiota regarding composition, diversity and metabolic activities. The investigators aim for identifying parameters affecting microbiota maturation and effects of the microbiota on infant outcome. Methods: The investigators will recruit 250 pregnant mothers who will be followed as mother-baby pairs until 10 years of age. Infants will be followed clinically to determine adequate growth and development as well as pathology including abdominal pain. Epidemiological parameter and infant nutrition will be assessed. The investigators will collect biological samples such as stool, maternal milk, vaginal swaps and skin swaps. Species composition and diversity will be assessed by 16S sequencing. Metagenomic shotgun sequencing and bacterial messenger ribonucleic acid (mRNA) analysis will inform about metabolic potential and metabolic activity of the microbiota. Mass spectrometry will assess the small molecule content of stool and maternal milk samples. Network analysis will be used to assess the complex relationships between bacteria metabolic activities and small molecular content. Expected results: The investigators expect an increase in complexity and metabolic potential and activity with age. Microbiota parameters will differ according to nutrition and might predict infant outcomes such as growth and abdominal pain. Systematic analysis of sequential maternal and infant bacteria samples from stool, skin and maternal milk will help characterizing bacterial transfer from mother to infant Conclusion: The investigators propose an observational study of healthy Bern mother baby pairs with clinical characterisation and biological sampling. Advanced analysis tools will be used to characterise the microbiota and address mechanistic questions.
The overall objective of the study is to evaluate the safety and efficacy of MSC therapy combined with best supportive care in hospitalized patients with COVID-19.
In this pilot study, we will investigate whether - with the current dosing regimens, used in the Ghent University Hospital - pharmacodynamic targets regarding beta-lactam antibiotics (more specific Amoxicilline-Clavulanate, Piperacillin-Tazobactam and Temocillin) are attained in frail patients admitted to the geriatric department.
A prospective multicenter cohort study on all types of revision knee arthroplasty procedures performed due to infection.
This is a prospective study on the microbiota associated with oesophageal squamous cell carcinoma (SCC). Patients with newly diagnosed SCC of oesophagus would be recruited for taking samples of oral and oesophageal rinse, tissue biopsies for investigation of the microbiota of oesophageal cancer. Control patients would be identified from patients scheduled for routine endoscopy.
Background: Mitochondrial disease is a rare disorder. It can cause poor growth, developmental delays, muscle weakness, and other symptoms. The disease is usually inherited. It can be present at birth or develop later in life. Infection is a major cause of disease and death in people with this disease. Researchers want to learn more about how infection and the declining health of people who have this disease may be related to the COVID-19 pandemic. To do this, researchers will study the DNA of people who become ill with suspected or confirmed coronavirus. Their DNA will be compared to the DNA of their family members. Objective: To learn more about how genes may play a role in how COVID-19 affects people with mitochondrial disease. Eligibility: People age 2 months and older with mitochondrial disease and a suspected or confirmed diagnosis of COVID-19.<TAB> Design: Participants will complete a questionnaire about their health history. Their medical records may be reviewed. They will give a blood sample. If the participant becomes ill, they may have a videoconference with a doctor or nurse at the NIH to perform a physical exam. They may be contacted after their illness to give updates on their health. They may be asked to give extra blood samples or complete extra questionnaires. Participants genetic data will be put into a database. The data will be labeled with a code and not their name. The data will be shared with other researchers. Participation lasts about 1 year. This may be extended if the participant is very ill.