BACKGROUND
In settings with low pneumococcal conjugate vaccine (PCV) coverage, multi-age cohort mass campaigns could increase population immunity, and fractional dosing could increase affordability. We aimed to evaluate the effect of mass campaigns on nasopharyngeal pneumococcal carriage of Pneumosil (PCV10) in children aged 1-9 years in Niger.
METHODS
In this three-arm, open-label, cluster-randomised trial, 63 clusters of one to four villages in Niger were randomly assigned (3:3:1) using block randomisation to receive campaigns consisting of a single full dose of a 10-valent PCV (Pneumosil), a single one-fifth dose of Pneumosil, or no campaign. Independently sampled carriage surveys were done among 2268 households 6 months before and after vaccination, collecting nasopharyngeal swabs from healthy children for culture and serotyping; those with contraindication to nasopharyngeal swabbing were excluded. The primary outcome was nasopharyngeal carriage of vaccine-serotype pneumococcus. We tested whether vaccine-type carriage was reduced in full-dose versus control clusters; and whether fractional doses were non-inferior to full-doses (lower bound 95% CI more than -7·5%), using generalised estimating equations to analyse cluster summaries at baseline and follow-up, controlling for covariates to estimate risk differences and their 95% CIs. The study is registered with ClinicalTrials.gov (NCT05175014) and the Pan-African Clinical Trials Registry (PACTR20211257448484).
FINDINGS
Surveys were done between Dec 22, 2021, and March 18, 2022, and between Dec 12, 2022, and March 9, 2023. The vaccination campaign ran from June 15 to Aug 2, 2022. Participants' characteristics were consistent across surveys and groups. Pre-vaccination, vaccine-type carriage was 15·6% (149 of 955 participants) in the full-dose group, 17·9% (170 of 948) in the fractional-dose group, and 18·8% (60 of 320) in the control group. Post-vaccination, vaccine-type carriage was 4·6% (44 of 967) in the full-dose group, 8·0% (77 of 962) in the fractional-dose group, and 16·5% (53 of 321) in the control group. The primary analysis showed a risk difference of -16·2% (95% CI -28·6 to -3·0) between the full-dose group and control group (p=0·002 for superiority), and -3·8% (-6·1 to -1·6) between the full-dose group and fractional-dose group, meeting the non-inferiority criteria. No adverse events were judged to be related to vaccination.
INTERPRETATION
Multi-age cohort campaigns had a marked effect on vaccine-type carriage and fractional-dose campaigns met non-inferiority criteria. Such campaigns should be considered in low-coverage settings, including humanitarian emergencies, to accelerate population protection.
Information on Streptococcus pneumoniae nasopharyngeal (NP) carriage before the pneumococcal conjugate vaccine (PCV) introduction is essential to monitor impact. The 10-valent PCV (PCV10) was officially introduced throughout Ugandan national childhood immunization programs in 2013 and rolled-out countrywide during 2014. We aimed to measure the age-specific Streptococcus pneumoniae carriage and serotype distribution across all population age groups in the pre-PCV10 era in South Western Uganda.
METHODS
We conducted a two-stage cluster, age-stratified, cross-sectional community-based study in Sheema North sub-district between January and March 2014. One NP swab was collected and analyzed for each participant in accordance with World Health Organization guidelines.
RESULTS
NP carriage of any pneumococcal serotype was higher among children <2years old (77%; n=387) than among participants aged ≥15years (8.5%; n=325) (chi2 p<0.001). Of the 623 positive cultures, we identified 49 serotypes among 610 (97.9%) isolates; thirteen (2.1%) isolates were non-typeable. Among <2years old, serotypes 6A, 6B, 14, 15B, 19F and 23F accounted for half of all carriers. Carriage prevalence with PCV10 serotypes was 29.4% among individuals aged <2years (n=387), 23.4% in children aged 2-4years (n=217), 11.4% in 5-14years (n=417), and 0.4% among individuals ≥15years of age (n=325). The proportion of carried pneumococci serotypes contained in PCV10 was 38.1% (n=291), 32.8% (n=154), 29.4% (n=156), and 4.4% (n=22) among carriers aged <2years, 2-4years, 5-14years and ≥15years, respectively.
DISCUSSION
In Sheema district, the proportion of PCV10 serotypes was low (<40%), across all age groups, especially among individuals aged 15years or older (<5%). PCV10 introduction is likely to impact transmission among children and to older individuals, but less likely to substantially modify pneumococcal NP ecology among individuals aged 15years or older.