Using an established model of human typhoid infection, whereby healthy adults are deliberately exposed to typhoid-causing bacteria, the investigators will determine how effective a new typhoid conjugate vaccine (Vi-TCV) is in preventing infection. The new typhoid vaccine will be compared with a control vaccine (meningococcal ACWY). The protective effect of a currently used typhoid polysaccharide vaccine (Vi-PS) will also be studied and compared with the control vaccine using this model of typhoid infection. A second component of this study will involve vaccinating 15-20 participants with Vi-PS. Serum will be obtained prior to vaccination and 4-6 weeks after vaccination. The post-vaccination serum will be pooled and used to create an anti-Vi IgG serum standard.
Typhoid fever is an infection caused by a bacterium, Salmonella Typhi, that only causes disease in humans. It is transmitted faecal-orally and causes more than 22 million infections every year in developing countries, such as areas of Asia, Africa and South America, where access to clean drinking water and sanitation facilities is limited. Although typhoid fever is treatable with effective antibiotics, there are more than 200,000 deaths every year in these resource-limited regions. Salmonella Typhi could be eradicated but improving sanitation and living conditions in endemic regions is difficult. Vaccination to prevent the transmission of Salmonella Typhi could significantly reduce the burden of disease. The currently licensed typhoid vaccines are only moderately effective in preventing infection in people who have been immunised and no vaccines are licensed for use in young children. Novel typhoid vaccines have been developed to overcome these problems, but more research and information is needed to study how well these vaccines work before they can be routinely used. This study proposes to investigate the protective effect of a novel typhoid vaccine (typhoid Vi polysaccharide capsule - tetanus toxoid conjugate vaccine) using a human challenge model of typhoid infection. Healthy adults will be vaccinated with the novel typhoid vaccine, a currently used typhoid vaccine (Vi polysaccharide capsule vaccine) or a control vaccine. One month after vaccination, participants will be exposed to live Salmonella Typhi by drinking a solution containing the bacteria. Participants will then be closely monitored to determine which participants develop infection and which are protected. In addition to assessing the protective effect of conjugated and unconjugated typhoid vaccines, the effect the vaccines have on the immune system and on the clinical course of typhoid infection will also be studied. It is hoped that the knowledge gained from this study will contribute to the use of vaccines against Salmonella Typhi to help control this preventable disease.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
SINGLE
Enrollment
112
Each 0.5mL vaccine dose contains 25μg of purified Vi capsular polysaccharide (S. Typhi Ty2 strain) conjugated to non-toxic tetanus toxoid. The vaccine will be administered 28 days prior to typhoid challenge
Each 0.5 mL vaccine dose contains 25 μg of purified Vi capsular polysaccharide (S. Typhi Ty2 strain). The vaccine will be administered 28 days prior to typhoid challenge
Each vaccine dose contains N. meningitidis oligosaccharides (10μg MenA oligosaccharide, 5μg of each of MenC, Men Y and MenW-135 oligosaccharides) conjugated to 32.7 μg to 64.1μg Diphtheria CRM197 protein with residual formaldehyde dose less than 0.30μg. The vaccine will be administered 28 days prior to typhoid challenge
Centre for Clinical Vaccinology and Tropical Medicine
Oxford, Oxfordshire, United Kingdom
Clinically or microbiologically proven typhoid infection
Clinical (fever \>38 degrees for more than 12 hours) or microbiologically (blood culture positive) proven typhoid infection following oral challenge with Salmonella Typhi.
Time frame: Up to 14 days after typhoid challenge dose administration
Clinical manifestations of typhoid infection after typhoid challenge as determined by physical examination, participant symptom reporting and microbiological assays
In particular comparing control and typhoid vaccination groups regarding time to onset of symptoms, duration of illness, symptom severity, time to onset of bacteraemia, time to onset of stool shedding, and inflammatory response after typhoid challenge
Time frame: Clinical signs and solicited symptoms occurring during the 21 day period after challenge; microbiological assays and unsolicited symptoms followed up over the course of one year
Host immune responses (including Geometric Mean Titres of Salmonella Typhi antigen specific antibodies, antigen specific cell frequencies) at baseline, post-vaccination and post-typhoid challenge time points
Time frame: From baseline (pre-vaccination) to final follow up visit at one year
Laboratory and high-throughput assays to measure gene expression and protein translation at baseline, post-vaccination and post-challenge time points
To assess variation in genomic response to vaccination with Vi-TCV, Vi-PS and control vaccine and subsequent Salmonella Typhi challenge
Time frame: From baseline (pre-vaccination) to 28 days after challenge (total duration 2 months)
Exploratory analysis of blood and faeces samples to investigate novel diagnostic methods for detecting Salmonella Typhi infection
Time frame: From time of challenge until time of typhoid diagnosis (maximum time frame of 14 days)
Assessment of the number of participants reporting solicited local and systemic reactions, and unsolicited adverse events following vaccination with Vi-TCV
Time frame: From time of vaccination until 7 days post-vaccination
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