View clinical trials related to Communicable Diseases.
Filter by:Respiratory infections, including episodes of coughing with fever, are the main cause of outpatient antibiotic prescription, while a minority of them are linked to bacterial infections requiring antibiotic. These prescriptions are often performed by general practitioners. These unnecessary antibiotic contribute to increased bacterial resistance, side effects and unnecessary costs. Campaigns for the correct prescription of antibiotics have had a real but partial or transient success. C-reactive protein micro-method (POCT-CRP) could help to differentiate between viral and bacterial infections and thus contribute to the proper use of antibiotics. The decrease in prescription of antibiotics is likely to have an even stronger positive impact in countries like France, where prescription is high. The objective of this study is to evaluate the use of POCT-CRP in the general practitioner's office in case of suspected respiratory infection.
This study aims to evaluate an endodontic treatment protocol using adjunctive steps for disinfection of teeth with primary endodontic infections.
Primary purpose of the study is to see if rifaximin can improve the balance of bacteria within the gut, which has been shown to improve transplant outcomes. It will also assess whether rifaximin can reduce the risk of infection in blood/marrow transplant (BMT).
The aim is to explore the human urine composition and its relation to urine tract infections
The impact of chronic HIV infection and pregnancy on different aspects of the humoral response to pertussis immunization with the TDaP vaccine will be studied. The parameters will be measured in 3 groups (HIV-infected pregnant, HIV-uninfected pregnant and HIV-uninfected non pregnant) at different time points before and after immunization (7-10 days, 30 days and at delivery). The transfer ratio and the quality of maternal antibodies will be studied in cord blood.
This study will assess the impact of automated reminders for the 6 month and 12 month vaccine visits to increase vaccination in parents experiencing logistic barriers to vaccination.
To achieve global hepatitis C virus (HCV) elimination by 2030, 80% of the ~71 million people with chronic HCV infection will need to be treated, necessitating simplification of treatment delivery and associated laboratory monitoring without compromising efficacy or safety. The COVID-19 pandemic has further highlighted the need for innovative models of health care delivery that minimize face-to-face patient-provider contact. The purpose of this study was to evaluate the feasibility, safety, and efficacy of a minimal monitoring (MINMON) strategy to deliver interferon- and RBV-free, pan-genotypic DAA therapy to treat active HCV in HCV treatment naïve participants.
This study will assess the impact of an HIV-1 RNA testing intervention targeting adult patients aged 18-39 years who seek urgent care for symptoms at primary care facilities and meet specific risk criteria for acute HIV infection. All newly diagnosed HIV-infected patients in the intervention arm will be linked to care and offered both immediate treatment and assisted partner notification. Partners will also be tested using the HIV testing intervention, and pre-exposure prophylaxis will be offered to uninfected individuals with HIV-infected partners. The cost-effectiveness of this intervention will be evaluated.
Next Generation Sequencing is capable of sequencing millions of small strands of DNA from a single blood sample, potentially improving its sensitivity compared to PCR testing, which only detects predetermined larger strands of DNA. We will test the ability of NGS to detect Borrelia burgdorferi DNA in the blood of pediatric patients with Lyme disease. We will conduct an observational study of NGS testing on pediatric patients at all stages of Lyme disease. Study involvement will require a single study visit for clinical data collection and blood draw. We will enroll patients at all phases of suspected Lyme disease, collect clinically relevant information, and test for Lyme disease using Next Generation Sequencing and standard Lyme serologic testing. If the patient has multiple erythema migrans, Lyme meningitis, facial nerve palsy, arthritis, or carditis, a B. burgdorferi serum PCR will also be sent. Enrollment and Next Generation Sequencing blood draw will occur before or up to 24 hours after the first dose of antibiotics is administered. We will also study the impact of antibiotics on NGS testing by running the test 6-24 hours after antibiotics are started among a small subset of patients with a multiple erythema migrans rash. Collected data will be analyzed with basic descriptive statistics.
Clostridium difficile infection (CDI) is the most common cause of antibiotic associated diarrhoea in the western world. The infection causes significant diarrhoea, which in some cases can be serious and lead to secondary complications and even death. The infection is particularly an issue in elderly, frail patient, who are often already burdened with several other medical issues. Recent work has demonstrated that numerous cases are missed, either due to inadequate diagnostic tests or lack of clinical suspicion. The public-private partnership in COMBACTE-CDI will quantify the burden of CDI via a large, complex, multi-centre, multi-country study, and describe current management practices. An increased understanding of the CDI burden across Europe and better understanding of transmission of the organism will provide a basis for the further development of public health interventions and practices. Based on a previous successful study model (EUCLID), hospitals/laboratories of interest which carry out diagnostic testing of samples from both in-patients and community patients (including Long-Term Care Facilities patients) will be approached for inclusion in the study. Samples sent to the sites on the selected study date (regardless of test requested) will be tested at a central laboratory for CDI to look for missed cases of CDI. A follow up case/control study will collect data on outcomes and risk factors. Data will be used to construct transmission models and cost effective-ness models. Ultimately, a best practice model for CDI management will be developed.