Group B streptococcus vaccination in pregnant women with or without HIV in Africa: a non-randomised phase 2, open-label, multicentre trial

Robert S Heyderman, Shabir A Madhi, Neil French, Clare Cutland, Bagrey Ngwira, Doris Kayambo, Robert Mboizi, Anthonet Koen, Lisa Jose, Morounfolu Olugbosi, Frederik Wittke, Karen Slobod, Peter M Dull, Robert S Heyderman, Shabir A Madhi, Neil French, Clare Cutland, Bagrey Ngwira, Doris Kayambo, Robert Mboizi, Anthonet Koen, Lisa Jose, Morounfolu Olugbosi, Frederik Wittke, Karen Slobod, Peter M Dull

Abstract

Background: Neonates born to women infected with HIV are at increased risk for invasive group B streptococcus (GBS) disease. We aimed to compare safety and immunogenicity of trivalent glycoconjugate GBS vaccine in pregnant women with and without HIV in Malawi and South Africa.

Methods: In our non-randomised phase 2, open-label, multicentre study, we recruited pregnant women attending two antenatal clinics, one in Blantyre, Malawi, and one in Soweto, Johannesburg, South Africa. Participants were divided into three groups on the basis of their HIV infection status (no infection, infection and high CD4 cell count [>350 cells per μL], and infection and low CD4 cell count [>50 to ≤350 cells per μL]) and received a 5 μg dose of glycoconjugate GBS vaccine (serotypes Ia, Ib, and III, with CRM197 [Novartis Vaccines, Siena, Italy]) intramuscularly at 24-35 weeks' gestation. GBS serotype-specific antibody concentrations were measured before vaccination (day 1), day 15, day 31, and at delivery, and in infants at birth and day 42 of life. The primary outcomes were safety in mothers and infants and the amount of placental transfer of GBS serotype-specific antibodies from mothers to their infants. All immunogenicity and safety analyses were done on the full analysis set, including participants who, or whose mother, correctly received the vaccine and who provided at least one valid assessable serum sample. This study is registered with ClinicalTrials.gov, number NCT01412801.

Findings: 270 women and 266 infants were enrolled between Sept 26, 2011, and Dec 4, 2012 (90 women and 87 infants without HIV, 89 and 88 with HIV and high CD4 cell counts, and 91 and 91 with HIV and low CD4 cell counts, respectively). Seven women were lost to follow-up, six withdrew consent, one died, and two relocated. Eight infants died or were stillborn and two were lost to follow-up. Across serotypes, fold change in antibody concentrations were higher for the HIV-uninfected group than the HIV-infected groups. Transfer ratios were similar across all three groups (0·49-0·72; transfer ratio is infant geometric mean antibody concentration in blood collected within 72 h of birth divided by maternal geometric mean antibody concentration in blood collected at delivery); however, at birth, maternally derived serotype-specific antibody concentrations were lower for infants born to women infected with HIV (0·52-1·62 μg/mL) than for those born to women not infected with HIV (2·67-3·91 μg/mL). 151 (57%) of 265 women reported at least one solicited adverse reaction: 39 (45%) of 87 women with HIV and low CD4 cell counts, 52 (59%) of 88 women with HIV and high CD4 cell counts, and 60 (67%) of 90 women in the HIV-uninfected group. 49 (18%) of 269 women had at least one adverse event deemed possibly related to the vaccine (six [7%] in the HIV and low CD4 cell count group, 12 [13%] in the HIV and high CD4 cell count group, and 21 [23%] in the HIV-uninfected group), as did three (1%) of 266 neonates (zero, two [1%], and one [1%]); none of these events was regarded as serious.

Interpretation: The vaccine was less immunogenic in women infected with HIV than it was in those not infected, irrespective of CD4 cell count, resulting in lower levels of serotype-specific maternal antibody transferred to infants, which could reduce vaccine protection against invasive GBS disease. A validated assay and correlate of protection is needed to understand the potential protective value of this vaccine.

Funding: Novartis Vaccines and Diagnostics division (now part of the GlaxoSmithKline group of companies), Wellcome Trust UK, Medical Research Council: Respiratory and Meningeal Pathogens Research Unit.

Copyright © 2016 Heyderman et al. Open Access article distributed under the terms of CC BY. Published by Elsevier Ltd.. All rights reserved.

Figures

Figure
Figure
Study profile Most participants who did not complete the study were from the Malawi site, with the exception of the two women who relocated: one woman in the high CD4 cell count group who was lost to follow-up after delivery and one infant in the high CD4 cell count group who died between birth and day 42.

References

    1. Liu L, Oza S, Hogan D. Global, regional, and national causes of child mortality in 2000–13, with projections to inform post-2015 priorities: an updated systematic analysis. Lancet. 2015;385:430–440.
    1. Dagnew AF, Cunnington MC, Dube Q. Variation in reported neonatal group B streptococcal disease incidence in developing countries. Clin Infect Dis. 2012;55:91–102.
    1. Stoll BJ, Hansen NI, Sanchez PJ. Early onset neonatal sepsis: the burden of group B Streptococcal and E. coli disease continues. Pediatrics. 2011;127:817–826.
    1. Berardi A, Rossi C, Lugli L. Group B streptococcus late-onset disease: 2003–2010. Pediatrics. 2013;131:e361–e368.
    1. Englund J. Maternal immunization with Haemophilus influenzae type b vaccines in different populations. Vaccine. 2003;21:3455–3459.
    1. Park DE, Johnson TS, Nonyane BA. The differential impact of coadministered vaccines, geographic region, vaccine product and other covariates on pneumococcal conjugate vaccine immunogenicity. Pediatr Infect Dis J. 2014;33(suppl 2):S130–S139.
    1. McIntyre PB, O'Brien KL, Greenwood B, van de Beek D. Effect of vaccines on bacterial meningitis worldwide. Lancet. 2012;380:1703–1711.
    1. Munoz FM, Ferrieri P. Group B streptococcus vaccination in pregnancy: moving toward a global maternal immunization program. Vaccine. 2013;31(suppl 4):D46–D51.
    1. Steinhoff MC, Omer SB, Roy E. Neonatal outcomes after influenza immunization during pregnancy: a randomized controlled trial. CMAJ. 2012;184:645–653.
    1. WHO: Standards for Maternal and Neonatal Care Maternal Immunization against tetanus. 2006. (accessed Aug 18, 2015).
    1. Eaton JW, Rehle TM, Jooste S. Recent HIV prevalence trends among pregnant women and all women in sub-Saharan Africa: implications for HIV estimates. AIDS. 2014;28(suppl 4):S507–S514.
    1. Dangor Z, Lala SG, Cutland CL. Burden of invasive group B streptococcus disease and early neurological sequelae in South African infants. PLoS One. 2015;10:e0123014.
    1. Epalza C, Goetghebuer T, Hainaut M. High incidence of invasive group B streptococcal infections in HIV-exposed uninfected infants. Pediatrics. 2010;126:e631–e638.
    1. Cutland CL, Schrag SJ, Thigpen MC. Increased risk for group B streptococcus sepsis in young infants exposed to HIV, Soweto, South Africa, 2004–2008. Emerg Infect Dis. 2015;21:638–645.
    1. Dangor Z, Kwatra G, Izu A. HIV-1 is associated with lower Group B streptococcus capsular and surface-protein IgG antibody levels and reduced transplacental antibody transfer in pregnant women. J Infect Dis. 2015;212:453–462.
    1. Kerneis S, Launay O, Turbelin C, Batteux F, Hanslik T, Boelle PY. Long-term immune responses to vaccination in HIV-infected patients: a systematic review and meta-analysis. Clin Infect Dis. 2014;58:1130–1139.
    1. Madhi SA, Leroux-Roels G, Koen A, et al. Safety and immunogenicity of an investigational maternal trivalent vaccine to prevent perinatal group B streptococcus (GBS) infection. 31st ESPID meeting; Milan; May 28–June 1, 2013. 44.
    1. Donders GGG, Halperin SA, Devlieger R. Maternal immunization with an investigational trivalent group B Streptococcal vaccine: a randomized controlled trial. Obstet Gynecol. 2016;127:213–221.
    1. Blencowe H, Cousens S, Oestergaard MZ. National, regional, and worldwide estimates of preterm birth rates in the year 2010 with time trends since 1990 for selected countries: a systematic analysis and implications. Lancet. 2012;379:2162–2172.
    1. Gray KJ, Kafulafula G, Matemba M, Kamdolozi M, Membe G, French N. Group B streptococcus and HIV infection in pregnant women, Malawi, 2008–2010. Emerg Infect Dis. 2011;17:1932–1935.
    1. Madzivhandila M, Adrian PV, Cutland CL, Kuwanda L, Schrag SJ, Madhi SA. Serotype distribution and invasive potential of group B streptococcus isolates causing disease in infants and colonizing maternal-newborn dyads. PLoS One. 2011;6:0017861.
    1. Department of Health SA The National Antenatal Sentinel HIV and Syphilis Prevalence Survey in South Africa, 2011. 2012. (accessed Oct 1, 2014).
    1. Bello GA, Chipeta J, Aberle-Grasse J. Assessment of trends in biological and behavioural surveillance data: is there any evidence of declining HIV prevalence or incidence in Malawi? Sex Transm Infect. 2006;82:i9–13.
    1. Madhi SA, Kuwanda L, Cutland C, Holm A, Kayhty H, Klugman KP. Quantitative and qualitative antibody response to pneumococcal conjugate vaccine among African human immunodeficiency virus-infected and uninfected children. Pediatr Infect Dis J. 2005;24:410–416.
    1. Shahid NS, Steinhoff MC, Roy E, Begum T, Thompson CM, Siber GR. Placental and breast transfer of antibodies after maternal immunization with polysaccharide meningococcal vaccine: a randomized, controlled evaluation. Vaccine. 2002;20:2404–2409.
    1. Quiambao BP, Nohynek HM, Kayhty H. Immunogenicity and reactogenicity of 23-valent pneumococcal polysaccharide vaccine among pregnant Filipino women and placental transfer of antibodies. Vaccine. 2007;25:4470–4477.
    1. Baker C, Rench MA, McInnes P. Immunization of pregnant women with group B streptococcal type III capsular polysaccharide-tetanus toxoid conjugate vaccine. Vaccine. 2003;21:3468–3472.
    1. Edwards MS, Lane HJ, Hillier SL, Rench MA, Baker CJ. Persistence of functional antibodies to group B streptococcal capsular polysaccharides following immunization with glycoconjugate vaccines. Vaccine. 2012;30:4123–4126.
    1. Baker CJ, Carey VJ, Rench MA. Maternal antibody at delivery protects neonates from early onset group B streptococcal disease. J Infect Dis. 2014;209:781–788.
    1. Lin FYC, Philips JB, Azimi PH. Level of maternal antibody required to protect neonates against early-onset disease caused by group B streptococcus type Ia: a multicenter, seroepidemiology study. J Infect Dis. 2001;184:1022–1028.
    1. Lin FYC, Weisman LE, Azimi PH. Level of maternal IgG anti-group B streptococcus type III antibody correlated with protection of neonates against early-onset disease caused by this pathogen. J Infect Dis. 2004;190:928–934.
    1. Dangor Z, Kwatra G, Izu A, Lala SG, Madhi SA. Review on the association of Group B streptococcus capsular antibody and protection against invasive disease in infants. Expert Rev Vaccines. 2014;22:1–15.

Source: PubMed

Sponsorit ja yhteistyökumppanit

Sairaudet

Huumeiden interventiot

3
Tilaa