Influenza Clinical Trial
Official title:
Immunogenicity and Safety of Different Dosing Schedules of Trivalent Influenza Vaccine in HIV-infected Pregnant Women: a Randomized Controlled Trial
The overall aim of this project is to evaluate the safety and immunogenicity of 3 different dosing options of trivalent influenza vaccine (TIV) vaccination of HIV-infected pregnant women: single dose, double dose (at same time point) and two-doses (1 month apart).
Determining the contribution of influenza to early childhood morbidity and mortality in
sub-Saharan Africa and the potential to prevent influenza disease through vaccination may
contribute to reducing childhood deaths; since influenza illness is a vaccine preventable
disease for which vaccines are developed, licensed and available at reasonable cost.
Unfortunately, infants at highest risk for serious disease are those under 6 months of age,
for whom trivalent inactivated influenza vaccine (TIV) is poorly immunogenic and not
licensed. As pregnant women also have an increased risk of serious illness (3.3-5.5 fold for
hospitalization for influenza-associated acute cardio-respiratory illness) from influenza
infection, one strategy to prevent the complications of influenza in pregnant women and
young infants is through maternal TIV immunization, which is recommended by the WHO. This
could result in direct protection of the women and protection of the young infant consequent
to transplacental transfer of TIV induced antibody.
Barriers to administration of vaccines during pregnancy including lack of information on
effectiveness and concerns about safety probably explain the virtual non-existent use of TIV
in pregnant women from low-middle income countries, including South Africa. Although there
was a national campaign for influenza vaccination of pregnant women in South Africa during
2010 due to the concern of continued circulation of H1N1-2009pdm influenza virus, the uptake
of vaccine remains poor. TIV immunization of pregnant women is still not provided as
standard of care to pregnant women attending antenatal-clinics in South Africa, in part
because of absence of any data from any African setting with regard to its risk-benefit
ratio.
The immunogenicity and efficacy of TIV in HIV-infected adults was only recently documented
in an African setting. This placebo-controlled, community-based randomized, placebo
controlled trial, conducted at Themba Lethu HIV clinic, Helen Joseph hospital, reported that
TIV was associated with a 75% reduction in influenza-confirmed illness. The results of the
study also confirmed the safety of TIV among African HIV-infected adults. The study,
however, only included 7 women who were pregnant. In addition to no differences in solicited
adverse event rates, there was also no difference in either cluster of differentiation 4
(CD4+) cell count changes or HIV viral control in those on antiretroviral treatment between
TIV vaccinees compared to placebo recipients. This allayed previous concerns regarding the
potential negative effect of TIV which centered around the observed transient increase in
HIV-1 viral load, even in HIV infected individuals on ART and who were virologically
suppressed (viral load <400 copies/ml). Decreases in CD4+ lymphocyte counts have also been
observed in HIV-infected individuals post TIV vaccination. These changes, however, even in
past studies were infrequent (4-18%) and resolved at later time-points and were considered
to be clinically non-significant.
Only recently has data become available from another low-income country (Bangladesh) in
which the benefit of maternal TIV vaccination was demonstrated by a 63% (95% confidence
interval (CI) 5 to 85) reduction in laboratory-confirmed influenza illness in infants under
24 weeks of age in children born to mothers vaccinated with TIV and a 36% reduction in
clinical illness in vaccinated mothers. There has, however, not been any study on the
effectiveness of maternal immunization with TIV on influenza- associated morbidity and
mortality either in the mothers or infants in African settings.
Much of influenza virus associated morbidity and mortality may be due to the synergistic
lethality of influenza with bacterial pathogens leading to pneumonia as well as other viral
co-infections. Superimposed bacterial infections, especially Streptococcus pneumoniae and in
patients treated with antibiotics, Staphylococcus aureus, contribute to a large proportion
(28-65%) of pneumonia deaths associated with influenza illness during pandemics. Unpublished
data from the Bangladeshi study show that infants of mothers who received TIV (with
pneumococcal conjugate vaccine, 7 valent (PCV7) given to infants) were better protected from
acquisition of pneumococcal carriage during influenza season than infants of TIV-unimmunized
mothers. No data in the African setting are available to support or refute this observation
from Bangladesh. As introduction of pneumococcal conjugate vaccines (PCV) in low-income
countries is a priority of the Global Alliance for Vaccines and Immunization (GAVI), with 7
African countries already approved, and many others to follow, to introduce PCV within the
next five years.
Despite the encouraging results on maternal immunization from Bangladesh, and the
preliminary data supporting that TIV is efficacious mainly in HIV-infected non-pregnant
adults, further data are needed to advocate for routine use of TIV during pregnancy in
settings with a high prevalence of HIV. Reasons for this include that the impact of maternal
HIV on the kinetics of TIV induced transplacental antibody transfer cannot be derived from
available data. This is important as the primary focus of this proposal, and major potential
public health benefit of maternal TIV vaccination, is targeted at protection of young
infants. HIV infection is known to decrease placental integrity and lower antibody levels in
the fetus and newborn. Furthermore, maternal hypergamma-globulinemia that is characteristic
of HIV-infection may be associated with decreased neonatal antibody levels. This paradox is
explained by the limited number of placental antibody receptors, resulting in immunoglobulin
G (IgG) antibodies competing for available receptors and thereby decreasing vaccine-specific
antibody transport. Preterm birth increases with HIV, chronic maternal disease or
malnutrition. Transfer of maternal antibody which is gestational age dependant, may be more
affected by maternal immunization in sub-Saharan Africa where these conditions are common.
In 2011, two Maternal influenza vaccination trials are being conducted in pregnant women
from the Soweto community, one in HIV-infected women, and the other in HIV-uninfected women.
In both these trials (HREC reference number 101106 and 101107) the immunogenicity of a
single dose of TIV administered between 20 and 36 weeks of gestation was investigated.
HIV-uninfected women showed a good response one month post vaccination with 85.3%, 92.7% and
98.5% of women having seroprotective levels of antibodies to the vaccine strains, H3N2, H1N1
and B respectively, however, HIV-infected women showed an inferior response to vaccination.
The CD4+ cell count at baseline (prior to vaccination) affected the immunological response
mounted by HIV-infected women: 12.5%, 12.5% and 62.5% of women with CD4+ cell count <200,
and 50%, 66.7% and 77.8% of women with CD4+ count ≥500 had seroprotective levels to vaccine
strains, H3N2, H1N1 and B respectively, one month post receipt of single-dose TIV.
The overall aim of this project is to evaluate the safety and immunogenicity of 3 different
dosing options of TIV vaccination of HIV-infected pregnant women: single dose, double dose
(at same time point) and two-doses (1 month apart)
;
Allocation: Randomized, Endpoint Classification: Safety Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Investigator, Outcomes Assessor), Primary Purpose: Prevention
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