View clinical trials related to Infections.
Filter by:To evaluate host-immune biomarkers including TRAIL, IP-10, CRP and their computational integration for predicting COVID-19 and disease severity in patients with PCR-confirmed COVID-19.
Maternal immunisation is an evolving field that deserves special attention given its potential to have a significant positive impact on the health of women and children globally, and the potential safety and risk considerations associated with research in this population. The goal of maternal immunisation is to boost maternal levels of specific antibodies to provide the newborn and young infant with sufficient immunity at birth, through trans placental transfer in-utero, to protect them through the period of increased vulnerability. Protection should be adequate to last until they are able to respond to their own active immunisations or infectious challenges. The success of the maternal neonatal tetanus immunisation program demonstrates the utility of this approach. Several other vaccines are recommended in pregnancy, including influenza and pneumococcal vaccines. Promising new vaccines for group B streptococcus (GBS) , respiratory syncytial virus (RSV) and cytomegalovirus are under development. They are targeted for use in pregnant women in high-, middle-, and low-income countries. However, these vaccines are likely to be of most benefit in LMICs that have high rates of vaccine preventable diseases. The second work-package (WP2) of the PREPARE portfolio will describe the baseline maternal and neonatal outcomes using anonymised data collected using the routine Kawempe electronic medical records (EMR) system. Furthermore, comprehensive data on pregnancy, neonatal and infant outcome will also be collected in a prospective cohort of women enrolled in the first and second trimesters while attending antenatal care at Kawempe Hospital with follow-up of the mother-infant pair(s) up until at least 14 weeks postpartum to establish longer term outcomes. Standardised case definitions will be used to classify the outcomes.
The SARS-Cov2 pandemic remains associated with many concerns. One of the them is the real frequency of likely re-infection and subsequently the level of protection conferred by the acquired immunity following primary-infection. We propose to analyze a large set of laboratory data produced since the early beginning of the SARS-Cov2 spread in the French population to identify recurrent infection events and, more generally, gain insight about infection kinetics.
This will be a randomized, open-label study to determine if camostat+ bicalutamide decreases the proportion of people with COVID-19 who require hospitalization, compared to historical controls. Patients with symptomatic COVID-19, diagnosed as outpatients, will be randomized 1:1, stratified by gender, to treatment with standard of care alone (Arm 1) or with camostat and bicalutamide (Arm 2).
The main purpose of the study is to evaluate the safety and tolerability of oral Islatravir (ISL) once monthly (QM) as Preexposure Prophylaxis (PrEP) in cisgender men who have sex with men (MSM) and transgender women (TGW) who have sex with men and who are at high risk of HIV-1 infection with 48 or 96 weeks of treatment and a minimum follow-up of 42 days.
This cohort study aims to describe the adverse events related to the use of bacteriophages to treat serious infections, data from the literature being almost non-existent on this subject.
Surfactant protein plays important role in innate immunity against respiratory viral infections. However, investigators have shown that the surfactant protein polymorphisms are associated with severity of various pulmonary diseases such as respiratory syncytial virus (RSV), tuberculosis, pediatric acute lung injury. COVID-19 virus gains entry through the respiratory system and responsible for death due to acute respiratory failure. There is a considerable heterogeneity in presentation of COVID-19 infection from asymptomatic patients to severe infection requiring intensive care and some may die. Considering reports of COVID-19 related deaths/severe disease in the same family, it is possible that genetics play an important role in severity of COVID-19 infection. Investigators propose to study the association of surfactant proteins in COVID-19 patients. Key Objectives: a) Characterize genetic markers within the surfactant protein genes in COVID-19 positive patients, b) To determine if there is a correlation between certain genetic markers and the severity of COVID-19 infection which may be used as a prognostic marker, c) To correlate genetic markers with immune studies.
This is a limited-center, open-label dose escalating phase I/IIa study of autologous T cells expressing LVgp120duoCAR molecules in people with HIV infection. It will follow a 3+3 design. Dose escalation decisions will be made when a minimum of three participants have completed the safety-evaluation period (45 days) at a given dose level. Cohort 1 will undergo infusion of a single low-dose regimen of LVgp120duoCAR-T cells. Cohort 2 will undergo non-ablative conditioning with cyclophosphamide, followed by infusion of a single low-dose regimen of LVgp120duoCAR-T cells. Cohort 3 will undergo non-ablative conditioning with cyclophosphamide, followed infusion of a single high-dose regimen of LVgp120duoCAR-T cells. Following administration of the experimental therapy, HIV medications will be paused for participants in each group during an analytic treatment interruption.
Background: Epstein-Barr virus (EBV) causes most cases of infectious mononucleosis (mono). Up to 1 in 10 people who get mono can have fatigue that lasts more than 6 months. One out of 100 people can have severe complications. EBV is also associated with several types of cancer. Researchers want to test an EBV vaccine. Objective: To test the safety of and immune response to a new vaccine against EBV. Eligibility: Healthy adults ages 18-29 Design: Participants will be screened with a medical history and physical exam. They will give a blood sample. Screening tests will be repeated during the study. Participants will get a dose of the study vaccine as an injection in a muscle in the upper arm. They will be observed for 30 to 60 minutes. Blood pressure, heart rate, breathing rate, and temperature will be checked. The injection site will be examined. Participants will get a diary card. They will write down any side effects they have after the vaccine dose, or they may use an electronic diary card. Participants will be asked to write down or enter any important medical events that may occur at any time during the study. Participants will get a vaccine dose at 2 more study visits. They will have 4 follow-up visits at different times after a vaccine dose. Participants will have 6 telephone calls in between the in-person visits. They will also have 1 telephone call 1 year after the third dose of vaccine. If possible, this visit can occur in person. Participation will last about 18 months. There is an optional in-person visit or telephone call 2 years after the third dose of vaccine.
This is a Phase 3, blinded, randomized study of SYN023 compared to a China licensed Human Rabies Immunoglobulin (a Rabies immune globulin from human sources, HRIG) for the prevention of rabies as part of post-exposure prophylaxis (PEP). The trial will enroll the World Health Organization (WHO) Category III rabies exposure subjects. The subject's death and rabies data will be reviewed by Data and safety monitoring board (DSMB) to confirm the safety. Besides, rabies vaccine would be administered after Study Drug in each group. This trial is proposed to further the licensure of SYN023 to provide an effective PEP alternative available to those exposed persons who need such a product. A placebo-controlled rabies trial is unethical thus HRIG is selected as the control group. Rabies immune globulin from equine and human sources (HRIG) have been evaluated in many trials and HRIG is the standard of care in China.