Naegleria fowleri, a free-living amoeba, is the causative agent of primary amoebic meningoencephalitis, a fatal human disease of the central nervous system often contracted after swimming in fresh water. Identifying sites contaminated by N. fowleri is important in order to prevent the disease. An Enzyme-Linked ImmunoSorbent Assay (ELISA) has been developed for the specific identification of N. fawleri in primary cultures of environmental water samples. Of 939 samples isolated from artificially heated river water and screened by ELISA, 283 were positive. These results were subsequently confirmed by isoelectric focusing, the established reference method. A sensitivity of 97.4% and a specificity of 97% were obtained. These results indicate that this ELISA method is reliable and can be considered as a powerful tool for the detection of N. fowleri in environmental water samples.
To formulate inactivated influenza vaccines, the concentration of hemagglutinin (HA) must be accurately determined. The standard test currently used to measure HA in influenza vaccines is the Single Radial Immunodiffusion (SRID) assay. We developed a very rapid, simple and sensitive alternative quantitative HA assay, namely the Latex Agglutination Assay (LAA). The LAA uses the Spherotest technology, which is based on the agglutination of HA-specific immunoglobulin-coated latex beads. The amount of HA in a sample is calculated from the level of bead agglutination by a simple absorbance measurement at 405nm against a standard curve generated using a monovalent vaccine standard. In less than 2hours, tens of samples could be quantified using the LAA as opposed to 2days for the SRID assay. Ten steps are required to complete an SRID assay as compared to 6 steps for the LAA, from sample preparation through spectrophotometric analysis. Furthermore, the limit of detection of the LAA was found to be approximately 15ng HA/mL, similar to an ELISA, with the quantification of less than 1.8μg HA/mL. The quantification limit of the SRID is usually considered to be approximately 5μg HA/mL. The development of the assay and a comparison of the titers obtained by SRID and LAA for several monovalent vaccines corresponding to various strains were performed. For A/H5N1 and A/H1N1 monovalent vaccines, the LAA was found to be linear and accurate as compared to the SRID. The precision of the LAA was close to that of the standard test, and good reproducibility from one laboratory to another was observed. Moreover, the LAA enabled HA quantification in AlOOH-adjuvanted and in emulsion-adjuvanted low-dose vaccines as well as unadjuvanted vaccines. In conclusion, LAA may be useful to rapidly and accurately measure influenza HA protein in monovalent vaccines, especially in those containing less than 5μg/mL of HA in the presence of an adjuvant.
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