The changing epidemiology of yellow fever and continued reports of rare but serious adverse events associated with yellow fever vaccine have drawn attention to the need to revisit criteria for the designation of areas with risk for yellow fever virus activity, and to revise the vaccine recommendations for international travel. WHO convened a working group of international experts to review factors important for the transmission of yellow fever virus and country-specific yellow fever information, to establish criteria for additions to or removal from the list of countries with risk for yellow fever virus transmission, to update yellow fever risk maps, and to revise the recommendations for vaccination for international travel. This report details the recommendations made by the working group about criteria for the designation of risk and specific changes to the classification of areas with risk for transmission of yellow fever virus.

Some highly pathogenic viruses, such as Chikungunya virus, Japanese encephalitis virus, Yellow fever virus, Dengue virus, Hanta virus, SARS-CoV, and H5N1 avian influenza virus can cause severe infectious diseases. However, the consensus method for detecting these viruses has not been well established. A rapid and sensitive microarray approach for detection of these viruses and a panel of specific probes covering nine genera and 16 virus species were designed. 70-mer oligonucleotides were used at the genus level and 50-mer oligonucleotides were at the species level, respectively. To decrease the interference of the host genome in hybridization, the consensus genus primers were designed and used to reverse transcribe only virus genome. The synthesis of the second strand was carried out with a random primer sequence (5\'-GTTTCCCAGTAGGTCTCNNNNNNNN-3\'). The amplified products were labeled and processed for microarray analyses. This microarray-based method used the highly conserved consensus primers to synthesize specifically the virus cDNA and could identify effectively Chikungunya virus, Japanese encephalitis virus, Yellow fever virus, Dengue virus, Tick borne encephalitis virus, and H5N1 avian influenza virus. Using this method, one unknown virus isolated from pig brain in Shanxi Province, China was identified. This method may have an important potential application for the diagnosis of virus infection.

Consensus sequencing of the genome of the ARILVAX live attenuated yellow fever (YF) 17D vaccine was performed directly on reconstituted virus from a vial of the vaccine secondary seed (without plaque-purification or cloning of cDNA). The genome of ARILVAX was identical in organization and size (10,862 nucleotides (nt)) to other published YF 17D sequences. A total of 12 nt heterogeneities were detected indicating that the vaccine is a heterogeneous population. Some of these indicated the presence of quasispecies with residues not reported previously for other sequenced YF 17D strains. A number of nts clearly differed from some YF vaccine strain sequences but coincided with the others, which could be due to the use of consensus sequencing approach in this study. Most (but not all) of the heterogeneities and nt differences were silent (i.e. did not result in an amino acid change). The differences are inconsequential to safety and effectiveness of ARILVAX. Other YF 17D vaccines are undoubtedly also heterogeneous and need to be re-examined using the consensus approach.