posted on 2016-02-25, 13:45authored byJ. F. Gritzfeld, A. D. Wright, A. M. Collins, S. H. Pennington, Adam K. A. Wright, A. Kadioglu, D. M. Ferreira, S. B. Gordon
Experimental human pneumococcal carriage (EHPC) is scientifically important because nasopharyngeal carriage of Streptococcus pneumoniae
is both the major source of transmission and the prerequisite of invasive disease. A model of carriage will allow accurate determination of the
immunological correlates of protection, the immunizing effect of carriage and the effect of host pressure on the pathogen in the nasopharyngeal
niche. Further, methods of carriage detection useful in epidemiologic studies, including vaccine studies, can be compared.
Aim
We aim to develop an EHPC platform that is a safe and useful reproducible method that could be used to down-select candidate novel
pneumococcal vaccines with prevention of carriage as a surrogate of vaccine induced immunity. It will work towards testing of candidate vaccines
and descriptions of the mechanisms underlying EHPC and vaccine protection from carriage1
. Current conjugate vaccines against pneumococcus
protect children from invasive disease although new vaccines are urgently needed as the current vaccine does not confer optimal protection
against non-bacteraemic pneumonia and there has been evidence of serotype replacement with non-vaccine serotypes2-4
.
Method
We inoculate with S. pneumoniae suspended in 100 μl of saline. Safety is a major factor in the development of the EHPC model and is achieved
through intensive volunteer screening and monitoring. A safety committee consisting of clinicians and scientists that are independent from the
study provides objective feedback on a weekly basis.
The bacterial inoculum is standardized and requires that no animal products are inoculated into volunteers (vegetable-based media and saline).
The doses required for colonization (104
-105
) are much lower than those used in animal models (107
)
5
. Detecting pneumococcal carriage is
enhanced by a high volume (ideally >10 ml) nasal wash that is relatively mucus free. This protocol will deal with the most important parts of
the protocol in turn. These are (a) volunteer selection, (b) pneumococcal inoculum preparation, (c) inoculation, (d) follow-up and (e) carriage
detection.
Results
Our current protocol has been safe in over 100 volunteers at a range of doses using two different bacterial serotypes
6
. A dose ranging study
using S. pneumoniae 6B and 23F is currently being conducted to determine the optimal inoculation dose for 50% carriage. A predicted 50% rate
of carriage will allow the EHPC model to have high sensitivity for vaccine efficacy with small study numbers.
Funding
This work was funded by the Bill and Melinda Gates Foundation (Grand Challenge Exploration award to SBG), the National Institutes for Health
Research (NIHR), Biomedical Research Centre in Microbial Diseases, and the NIHR Comprehensive Local Research Network.