TIMING
Research type
Research Study
Full title
opTImisation of Methods for a human InfectioN model for Group b streptococcus
IRAS ID
261556
Contact name
Kirsty Le Doare
Contact email
Sponsor organisation
St Georges University of London
Duration of Study in the UK
1 years, 0 months, 1 days
Research summary
Summary of Research
Group B Streptococcus (GBS) is the leading cause of neonatal sepsis and meningitis. In 2015, it was estimated that worldwide there were at least 320,000 infants with invasive GBS disease, 90,000 infant deaths and 10,000 cases of children with disability related to GBS meningitis.
Maternal rectovaginal colonization with GBS is the biggest risk factor for neonatal GBS sepsis and meningitis within the first 6 days of life, with transmission of the bacteria from mother to baby occurring around the time of birth. An estimated 20–35% of pregnant women are colonised with GBS. 1-2% of neonates born to GBS-colonised women develop invasive GBS disease in the absence of intrapartum antibiotic prophylaxis (IAP).
The current strategy to prevent neonatal GBS is to give antibiotics during labour, called IAP. This has various limitations and is not easily achieved outside of high income settings. Additionally, widespread antibiotic use raises concerns about antibiotic resistance.
A better approach would be a vaccine for GBS however in order to test any vaccines it would be necessary to develop a controlled human infection model whereby healthy female volunteers are artificially colonised with GBS to test the vaccines efficacy. Before developing these human infection models we need to better understand how women become colonised with GBS and whether antibodies in the blood and at the mucosal surfaces provide protection. This study will be observational and will test the antibody levels at the vaginal mucosa and in the blood of a group of women who are naturally colonised with GBS at the start of the study and a group who are not colonised. We will follow them up over 12 weeks to observe how colonisation changes and the effect that this has on the mucosal and blood stream antibody concentrations. This will inform the development of human infection studies.Summary of Results
This study investigated longitudinal variation in GBS rectovaginal colonization, serum and vaginal GBS capsular polysaccharide (CPS)-specific antibody levels. Non-pregnant women were recruited in the UK and were sampled every 2 weeks over a 12-week period. GBS isolates were taken from recto-vaginal swabs and serotyped by polymerase chain reaction. Serum and vaginal immunoglobulin G (IgG) and nasal immunoglobulin A (IgA) specific to CPS were measured by Luminex, and total IgG/A by ELISA. Seventy women were enrolled, of median age 26. Out of the 66 participants who completed at least three visits: 14/47 (29.8%) women that were GBS negative at screening became positive in follow-up visits and 16/19 (84.2%) women who were GBS positive at screening became negative. There was 50% probability of becoming negative 36 days after the first positive swab. The rate of detectable GBS carriage fluctuated over time, although serum, vaginal, and nasal CPS-specific antibody levels remained constant. Levels of CPS-specific antibodies were higher in the serum of individuals colonized with GBS than in non-colonized, but similar in the vaginal and nasal mucosa. We found correlations between antibody levels in serum and the vaginal and nasal mucosa. Our study demonstrates the feasibility of elution methods to retrieve vaginal and nasal antibodies, and the optimization of immunoassays to measure GBS-CPS-specific antibodies.
REC name
London - Central Research Ethics Committee
REC reference
19/LO/1068
Date of REC Opinion
13 Sep 2019
REC opinion
Further Information Favourable Opinion