ABSTRACT
Two distinct measles outbreaks, unrelated from the epidemiological point of view but caused by genetically related strains, occurred in the Friuli Venezia Giulia region of northeastern Italy. Forty-two cases were reported during the period April-May 2008. In the first outbreak the index case was a teacher who introduced the virus into the Pordenone area, involving eight adolescents and young adults. The other concomitant outbreak occurred in the city of Trieste with 33 cases. The containment of the epidemics can be explained by the high MMR vaccine coverage in an area where the first dose was delivered to 93·4% and the second dose to 88·3% of the target children. Phylogenetic analysis of 14 measles virus strains showed that they belonged to a unique D4 genotype indistinguishable from the MVs/Enfield.GBR/14.07 strain, probably introduced from areas (i.e. Piedmont and Germany) where this genotype was present or had recently caused a large epidemic.
Subject(s)
Community-Acquired Infections/epidemiology , Disease Outbreaks/statistics & numerical data , Measles Vaccine/administration & dosage , Measles virus/isolation & purification , Measles/epidemiology , Adolescent , Adult , Chi-Square Distribution , Child , Child, Preschool , Community-Acquired Infections/immunology , Community-Acquired Infections/prevention & control , Community-Acquired Infections/virology , Female , Humans , Immunization Schedule , Infant , Italy/epidemiology , Male , Measles/immunology , Measles/prevention & control , Measles/virology , Measles Vaccine/immunology , Measles virus/genetics , Measles virus/immunology , Middle Aged , Molecular Epidemiology , PhylogenyABSTRACT
AIMS: To analyse the epidemiological and molecular features of a long-lasting epidemic (12 weeks) of influenza in north-eastern Italy during the 2004-05 season. METHODS: Morbidity rates were analysed by time and age. Influenza virus isolates (93 strains) were submitted to antigenic evaluation by haemagglutination inhibition test and to molecular assessment by sequencing. RESULTS: The incidence peak (16.4 per thousand) was the highest recorded over the last six years in north-eastern Italy. The epidemic was sustained by two subsequent waves of circulating viruses: an H3N2 variant and two type B variants, respectively. In addition, scattered isolation of an H1N1 variant occurred. Antigenic and molecular characterisation showed the emergence of an H3N2 virus drifted with respect to vaccine strain, which also had a substantial impact on morbidity in vaccinated subjects. Moreover, a single K145N substitution in the HA1 site of H3N2 was the starting point of two evolutionary branches. No change was observed in H1N1 isolates. B-type virus was mainly represented by Victoria-lineage strains, though Yamagata-lineage viruses were also identified. The fluctuating circulation of these two clades has characterised B virus epidemics in recent years. CONCLUSIONS: The assessment of the H3N2 molecular change in this area was in line with results used for establishing the vaccine composition for the incoming season. The particular epidemiological features of two B virus clades, namely Yamagata-like and Victoria-like, may be considered for introduction into the influenza vaccine.