View clinical trials related to Paratyphoid Fever.
Filter by:Acute undifferentiated febrile infection (AUFI) is a common presenting syndrome in low-resource settings and better diagnostics are urgently needed to improve patient management and guide disease prevention interventions. Assessment of the host gene expression response to infection in endemic populations has demonstrated significant promise as a new approach to identifying patients with enteric fever and for potential in differentiating between other causes of AUFI. Signatures identified through new data analytic techniques could be developed into a point-of-care test for use in endemic settings. In this multisite diagnostic evaluation study we will collect prospective clinical, laboratory and diagnostic data from two endemic settings to evaluate host gene expression signatures for detecting enteric fever and for determining the cause of AUFI in LMIC settings.
Enteric fever, an infection characterised by diarrhoea and rash, is most often caused by a bacteria called Salmonella enterica. After ingesting contaminated food or drink, the Salmonellae travel first to the gut, then the bloodstream, from where they can infect other parts of the body. Antibiotics are used to kill the bacteria, but with increasing rates of antibiotic resistance, this treatment is becoming less effective. Two Salmonella variants, Typhi and Paratyphi, cause over 30 million cases of enteric fever and more than 200,000 deaths per year, mostly in developing countries. While improved hygiene and sanitation should eventually eliminate enteric fever, reduction of the disease burden in the medium term is achievable through effective vaccination. Vaccines likely to be available for mass vaccination are effective only against those Salmonella strains that bear the Vi polysaccharide capsule protein. Strains that do not have these capsule proteins, or have no capsule, will not be affected by vaccination and could 'fill' the space vacated by the capsulated strains. Indeed, enteric fever caused by S. Paratyphi A which does not carry the Vi protein, has risen during the past decade and accounts for more than half of all cases in some areas. Thus it is important that effective vaccines are available to protect against infection by both capsulated and noncapsulated Salmonella enterica. To develop such vaccines, we need a complete understanding of the human immune response to both types, including the contribution of immunity in the gut and the bloodstream, immune response to bacterial surface proteins, and the role of antibodies. How much cross-protection there is between the types of typhoidal Salmonellae after natural infection or vaccination is not known, but this is critical to vaccine development. This project aims to fill in the knowledge gaps highlighted, by fully characterising the infection process and immune response in enteric fever.
The purpose of this research study is to determine whether a new vaccine for typhoid fever is safe and effective. This study will also look at what effects (good and bad) this new vaccine, Ty800, has on the volunteers. The study will determine the highest dose of Ty800 that can be given without causing severe side effects. About 54 healthy males and females, ages 18-45 inclusive, in the Cincinnati metropolitan area will be enrolled in this study. They will be in the study for approximately 7 months, which includes a one month screening period, study product administration on Day 0, a 10-day hospital stay, an outpatient period on Days 9-28 with 4 follow-up visits, and safety follow-up phone calls at 2 and 6 months after hospital discharge. Researchers hope that this trial will help produce a vaccine that combines a high level of durable protective immunity with simplicity of administration and minimal reaction to the vaccine.
This study is part of International Vaccine Institute (IVI)'s typhoid Vi demonstration project that aims to accelerate the rational introduction of Vi vaccines in typhoid endemic countries. The purpose of this study is to determine the effectiveness of the Vi vaccine following a mass typhoid immunization campaign in an endemic area in Hechi City in the Guangxhi province of China. The cost-effectiveness and safety of Vi vaccination will also be evaluated.
This study is part of International Vaccine Institutes (IVI)'s typhoid Vi demonstration project that aims to accelerate the rational introduction of Vi vaccines in typhoid endemic countries. The primary objectives of the study are to evaluate the logistic feasibility of a mass typhoid fever immunization campaign program targeting school age children in Hue City, Vietnam and to assess the knowledge, attitudes, beliefs, and practices of parents and healthcare providers in Hue City regarding typhoid fever prevention and treatment.
This study is part of the International Vaccine Institute's (IVI's) typhoid Vi demonstration project that aims to accelerate the rational introduction of Vi vaccines in typhoid endemic countries. The purpose of this study is to determine the effectiveness of the Vi vaccine following a mass typhoid immunization campaign in an endemic area in Karachi, Pakistan. The cost-effectiveness of Vi vaccination and the logistic feasibility of a mass typhoid immunization campaign will also be evaluated.
This study is part of the International Vaccine Institute's (IVI's) typhoid Vi demonstration project that aims to accelerate the rational introduction of Vi vaccines in typhoid endemic countries. The purpose of this study is to determine the effectiveness of the Vi vaccine following a mass typhoid immunization campaign in an endemic area in Kolkata, India. The cost-effectiveness of the Vi vaccination and the logistic feasibility of a mass typhoid immunization campaign will also be evaluated.