View clinical trials related to Communicable Diseases.
Filter by:The design is an Open-label randomized controlled multicenter non-inferiority trial with blinded assessor which compares 2 antibiotic strategy: 14-day antibiotic therapy after removal of infected material (experimental group) versus 28-day antibiotic therapy after removal of infected material (control group). Randomization will be centralized, individual 1:1, stratified on center and age (<75 versus >=75 years). Analysis will be reported following CONSORT guidelines for pharmacological trials. Main analysis will be conducted according to per protocol and intent-to-treat principles. Subgroup analysis will be conducted according to age, classes of antibiotics at baseline and according to resistance testing and baseline renal clearance.
Phase III trial evaluating doravirine as an alternative to dolutegravir in treatment naïve people living with HIV-1 infection.
Helicobacter pylori (Hp) is a gram-negative bacterium that colonizes human gastric mucosa and is associated with chronic gastritis that can progress to severe complications such as peptic ulcer disease, gastric adenocarcinoma and gastric mucosa-associated lymphoid tissue lymphoma. More than half of the world's population is infected with H. pylori and Portugal is one of the countries with the highest Hp burden. All of infected patients should be treated, however, H. pylori treatment is challenged by the continuously rising antibiotic resistance which has reached alarming levels worldwide. For this reason, it is now well accepted that tailoring treatment of H. pylori infection based on systematic antimicrobial susceptibility testing is useful to avoid the increase of antibiotic resistance. Our aims are to determine prospectively the efficacy and safety of first-line H. pylori eradication treatment based on resistance profile (determined by molecular methods) vs. empirical bismuth quadruple therapy, to evaluate the accuracy of H. pylori detection by polymerase chain reaction (PCR) (vs. histopathological examination) and to estimate the prevalence of H. pylori infection and H. pylori resistance to clarithromycin and levofloxacin in Portugal. This prospective study will be the first national study to investigate the benefits of tailored H. pylori eradication treatment. The investigators expect that this project will be able to demonstrate the non-inferiority of susceptibility-guided treatment comparing with empirical therapy, and our results may change H. pylori treatment recommendations by systematically applying antibiotic susceptibility testing before prescribing eradication therapy.
Introduction: Tuberculosis (TB) infection is a key driver of the TB pandemic, with over 10.6 million people fell ill with TB disease in 2022. About one-quarter of the global population is estimated to be infected with TB bacteria. Around 5-10% of people with TB infection will develop active and contagious TB disease, which could be largely avoided if TB infection is identified and given effective preventative treatment, before progression to active disease. The long treatment of TB infection with regimens lasting from three to nine months is a significant barrier to treatment completion in individuals with a confirmed diagnosis of TB infection. Adapting a shorter regimen than the current regimens could lead to a higher treatment completion rate and increased uptake of preventative therapy for TB, as well as reduced side effects. Methods and analysis: An open-label, randomized clinical trial (1:1) will be performed in two study sites in Ha Noi, Vietnam (Vietnam National Lung Hospital and Ha Noi Lung Hospital). Adult household contacts (n=350) of people with new, bacteriologically-confirmed, pulmonary, drug-susceptible TB who initiate treatment will be invited to participate. Aim: To compare the TB preventive therapy completion rates and adverse event incidence between a new one-month regimen (1HP) versus the current three-month regimen (3HR)*. *1HP= one month of daily isoniazid (H/INH) and rifapentine (P/RPT) 3HR= three months of daily isoniazid (H/INH) and rifampicin (R/RIF)
The objective of this novel study is to establish proof of concept using a pilot randomized controlled trial to determine the effect of DHM compared to formula supplementation on the microbiome in full-term infants who are born via caesarean section and require supplementation. Secondarily, this study aims to compare the infant health outcomes of sleep and growth between groups to assess if these outcomes are mediated by infant feeding type or potential differences in microbial signatures. Finally, this study will compare maternal outcomes of depression, anger, breastfeeding self-efficacy and breastfeeding rates between groups. The infant gut microbiome plays a critical role in the developing immune, neurologic, and endocrine systems. Yet, most infants experience early life disruptions (ELDs) to their microbiome that have potential long-term health and development impacts. A major source of disruption is caesarean section (c-section) delivery because the infant is born surgically and is not exposed to important commensal bacteria required to establish the infant microbiome. Currently in Canada, over 28% of infants are born via c-section. Exclusive breastfeeding can improve gut microbiota composition in infants who are born via c-section. However, approximately 60% of infants born via c-section require formula supplementation in their first week of life. Evidence indicates that even one bottle of formula can further disrupt the gut microbiome. Donor human milk (DHM) is a superior alternative to formula when supplementation is required as its biotic properties minimize perturbations to the infant gut microbiome and may help to repair the microbiome in infants who experience ELDs. Yet, while DHM is well researched in preterm populations, evidence on the impact of DHM as a therapeutic intervention on the full-term infant gut microbiome is lacking. The hypothesis of this study is: that replacing formula with DHM supplementation will minimize gut microbiome dysbiosis and foster homeostasis following supplementation. In addition, it is hypothesized that improved homeostasis will promote improved sleep and growth outcomes in participant infants. Finally, mothers whose infants receive DHM will have lower depression and anger scores and higher breastfeeding self-efficacy and exclusive breastfeeding rates compared to mothers whose infants receive formula.
Controlled human malaria infection (CHMI) has revolutionized the development of malaria vaccines. It involves the administration of either known numbers of sporozoites or infected erythrocytes to healthy human volunteers under a controlled environment. The use of highly sensitive molecular malaria diagnostic methods informs treatment decisions before symptom development and allows the characterization of parasite growth dynamics. Sporozoite CHMI has safely been used in six countries in Africa providing a platform to assess the efficacy of candidate malaria vaccines and study the natural immunity to malaria. Blood stage CHMI involves administration of known number of Artemether Lumefantrine sensitive infected erythrocytes in healthy volunteers, and it is a more sensitive model for modelling parasite growths and study the efficacy of blood-stage malaria vaccines. It has been safely used in Australia and Europe but not in Africa. Adaptation of this model by administration of combination of suboptimal and optimal antimalarial drugs lead to increased gametocytaemia, and infection rates in mosquitoes following standard membrane feeding assay. Such adaptation allows the model to be used to study parasite transmission from human to mosquitoes and evaluate transmission blocking malaria interventions. There is an urgent need to establish an in vivo model for early-stage clinical evaluation of transmission blocking interventions (TBI) in volunteers living in malaria endemic countries. This would allow rapid and cost-effective way to down-select transmission blocking candidate malaria vaccine and gametocidal antimalarial drugs before larger, more complex, and expensive field efficacy studies are conducted. A study done in naïve individual showed 100% success in establishing a malaria infection using 2800 P. falciparum infected RBCs, while a recent study (manuscript in development) has demonstrated success in establishing infection in Tanzanian semi-immune individuals with low malaria exposure using 1000 P. falciparum infected RBCs. We will use 1000 ALU-sensitive 3D7 P. falciparum infected RBCs to establish an in vivo transmission model for studying Transmission blocking interventions and assess the efficiency of two antimalarial drugs regimens (Piperaquine and doxycycline) to induce high levels of gametocytaemia and mosquito infection rates in healthy African adults. We will also investigate the determinants of successful transmission to mosquitoes including underlying immune responses to both asexual and sexual malaria antigens, asexual parasite dynamics and gametocyte burden, sex ratio of male and female gametocytes, and the relationship between gametocyte density and mosquito infection rate
People who inject drugs are at risk of injection-related infections, like abscesses or infective endocarditis. The Injection-Related InfectionS (IRIS) program hopes to improve treatment for participants by providing a low-barrier, one-stop shop model for people who inject drugs who experience injection-related infections to access more holistic and compassionate care. IRIS is a non-randomized clinical trial, meaning that it offers a specific program to eligible patients. This program offers care for substance use and infectious disease with additional peer support and systems navigation, if interested. The investigators anticipate enrolling 80 participants in the intervention and will follow participants throughout the infection treatment period (estimated 6-12 weeks). The investigators will collect information at the time of enrolment, at the 6-month mark, and monthly via electronic medical chart review. The investigators will use an interrupted time series analysis to evaluate the impact of the intervention on rates of treatment completion, emergency department visits, hospitalizations, and death, before versus after the intervention.
The purpose of this study is that a video tool coupled with standardized information can increase the patient's understanding of the information and thus optimize their medical care
The purpose of this study is to evaluate the skin quality improvement and colonization efficacy following the application of probiotic Micrococcus luteus Q24 (BLIS Q24) to the scalp from a serum format in healthy adults.
1. Assess possibility of prediction of blood stream infections in ALL patients by profiling of NK cells using flow cytometry. 2. Assess the role of NK cells in development of drug resistance post chemotherapy.