Can incorporating genotyping data into efficacy estimators improve efficiency of early phase malaria vaccine trials?

Background Early phase malaria vaccine field trials typically measure malaria infection by PCR or thick blood smear microscopy performed on serially sampled blood. Vaccine efficacy (VE) is the proportion reduction in an endpoint due to vaccination and is often calculated as $ VE_{HR} $ = 1–hazard ratio or $ VE_{RR} $ = 1–risk ratio. Genotyping information can distinguish different clones and distinguish multiple infections over time, potentially increasing statistical power. This paper investigates two alternative VE endpoints incorporating genotyping information: $ VE_{molFOI} $, the vaccine-induced proportion reduction in incidence of new clones acquired over time, and $ VE_{C} $, the vaccine-induced proportion reduction in mean number of infecting clones per exposure. Methods Power of $ VE_{molFOI} $ and $ VE_{C} $ was compared to that of $ VE_{HR} $ and $ VE_{RR} $ by simulations and analytic derivations, and the four VE methods were applied to three data sets: a Phase 3 trial of RTS,S malaria vaccine in 6912 African infants, a Phase 2 trial of PfSPZ Vaccine in 80 Burkina Faso adults, and a trial comparing Plasmodium vivax incidence in 466 Papua New Guinean children after receiving chloroquine + artemether lumefantrine with or without primaquine (as these VE methods can also quantify effects of other prevention measures). By destroying hibernating liver-stage P. vivax, primaquine reduces subsequent reactivations after treatment completion. Results In the trial of RTS,S vaccine, a significantly reduced number of clones at first infection was observed, but this was not the case in trials of PfSPZ Vaccine or primaquine, although the PfSPZ trial lacked power to show a reduction. Resampling smaller data sets from the large RTS,S trial to simulate phase 2 trials showed modest power gains from $ VE_{C} $ compared to $ VE_{HR} $ for data like those from RTS,S, but $ VE_{C} $ is less powerful than $ VE_{HR} $ for trials in which the number of clones at first infection is not reduced. $ VE_{molFOI} $ was most powerful in model-based simulations, but only the primaquine trial collected enough serial samples to precisely estimate $ VE_{molFOI} $. The primaquine $ VE_{molFOI} $ estimate decreased after most control arm liver-stage infections reactivated (which mathematically resembles a waning vaccine), preventing $ VE_{molFOI} $ from improving power. Conclusions The power gain from the genotyping methods depends on the context. Because input parameters for early phase power calculations are often uncertain, these estimators are not recommended as primary endpoints for small trials unless supported by targeted data analysis. Trial registrations: NCT00866619, NCT02663700, NCT02143934..

Medienart:	E-Artikel

Erscheinungsjahr:	2023
Erschienen:	2023

Enthalten in:	Zur Gesamtaufnahme - volume:22
Enthalten in:	Malaria journal - 22(2023), 1 vom: 19. Dez.

Sprache:	Englisch

Beteiligte Personen:	Potter, Gail E. [VerfasserIn] Callier, Viviane [VerfasserIn] Shrestha, Biraj [VerfasserIn] Joshi, Sudhaunshu [VerfasserIn] Dwivedi, Ankit [VerfasserIn] Silva, Joana C. [VerfasserIn] Laurens, Matthew B. [VerfasserIn] Follmann, Dean A. [VerfasserIn] Deye, Gregory A. [VerfasserIn]

Links:	Volltext [kostenfrei]

Themen:	Clone Early phase Efficacy Efficiency Genotyping Molecular endpoints Molecular force of infection Trial efficiency Vaccine efficacy

Anmerkungen:	© This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply 2023

doi:	10.1186/s12936-023-04802-0

funding:
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PPN (Katalog-ID):	SPR054136571