Predicting the relative impacts of maternal and neonatal respiratory syncytial virus (RSV) vaccine target product profiles: A consensus modelling approach

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• 作者：Wirichada Pan-Ngum^a ; ^b ; ^{pan@tropmedres.ac} ; Timothy Kinyanjui^c ; ^d ; Moses Kiti^d ; Sylvia Taylor^e ; Jean-Franç ; ois Toussaint^e ; Sompob Saralamba^a ; Thierry Van Effelterre^e ; ¹ ; D. James Nokes^d ; ^f ; Lisa J. White^a ; ^g
• 关键词：Transmission model ; RSV ; Kenya ; Vaccine TPP ; Hospitalization ; Contact pattern
• 刊名：Vaccine
• 出版年：2017
• 出版时间：5 January 2017
• 年：2017
• 卷：35
• 期：2
• 页码：403-409
• 全文大小：1388 K
• 卷排序：35

文摘

Respiratory syncytial virus (RSV) is the major viral cause of infant and childhood lower respiratory tract disease worldwide. Defining the optimal target product profile (TPP) is complicated due to a wide range of possible vaccine properties, modalities and an incomplete understanding of the mechanism of natural immunity. We report consensus population level impact projections based on two mathematical models applied to a low income setting.MethodTwo structurally distinct age-specific deterministic compartmental models reflecting uncertainty associated with the natural history of infection and the mechanism by which immunity is acquired and lost were constructed. A wide range of vaccine TPPs were explored including dosing regime and uptake, and effects in the vaccinated individual on infectiousness, susceptibility, duration of protection, disease severity and interaction with maternal antibodies and natural induced immunity. These were combined with a range of vaccine implementation strategies, targeting the highest priority age group and calibrated using hospitalization data from Kilifi County Hospital, Kenya.FindingsBoth models were able to reproduce the data. The impact predicted by the two models was qualitatively similar across the range of TPPs, although one model consistently predicted higher impact than the other. For a proposed realistic range of scenarios of TPP combinations, the models predicted up to 70% reduction in hospitalizations in children under five years old. Vaccine designs which reduced the duration and infectiousness of infection were predicted to have higher impacts. The models were sensitive to the coverage and rate of loss of vaccine protection but not to the interaction between vaccine and maternal/naturally acquired immunity.ConclusionThe results suggest that vaccine properties leading to reduced virus circulation by lessening the duration and infectiousness of infection upon challenge are of major importance in population RSV disease control. These features should be a focus for vaccine development.