The personnel were divided into two age groups: under 40 (16 cases) and over 40 (24 cases) years at the baseline in 1994. All the serum samples from one subject were tested simultaneously to minimize interassay variations in titers. the total incidence rate per 100 person-years at risk was 6.9 in Helsinki and 4.9 in Oulu, and annual incidence rates varied from 0 to 15.4. By EIA, annual incidence rates in Oulu varied from 0 to 10.8. The seroconversions by MIF were usually not confirmed by EIA and vice versa. Prevalence and persistence rates, respectively, Rabbit Polyclonal to DP-1 of IgA antibodies were higher in EIA (62% and 26%) than in MIF (26% and 17%), whereas the figures for IgG were quite similar. The prevalence of IgG and IgA antibodies was higher in older persons than in younger ones. The presence of antibodies did not offer protection from reinfection. is a common respiratory pathogen, and almost all people are infected by the age of 20. Seroepidemiological studies have shown that the antibody prevalence rises with age in adult populations (39). Frequent reinfections or persistent infections might explain the higher antibody prevalence in older age groups (13, 28, 50). causes SY-1365 upper and lower respiratory tract infections in humans and causes about 10% SY-1365 of the pneumonia cases in adults worldwide (14, 38). Persistent infections have been associated with several chronic SY-1365 diseases, such as asthma (16, 17), chronic obstructive pulmonary disease (47), and coronary heart disease (34, 40, 41). The epidemiological situation affects the prevalence of immunoglobulin G (IgG) and IgA antibodies (25, 38). Seroepidemiological surveys have shown that both epidemic and endemic respiratory tract infections occur in different parts of the world, and epidemics are more common in sparsely populated areas (38). It has also been suggested that asymptomatic infections or infections with mild respiratory symptoms are common (14). Most transmissions seem to take place at schools, military bases, and workplaces, although the spread of infections at home has also been reported (13, 26, 39). After an acute infection, IgM titers usually fall within 2 months and normalize within 4 to 6 6 months. Elevated IgG levels may persist for several years and occasionally be detectable over 3 years after the acute infection (29). At the Department of Virology, University of Helsinki, and at the National Public Health Institute in Oulu, annual serum samples are collected from both laboratory and office personnel. We followed the prevalence and persistence of antibodies in the sera of healthy employees for 31 years in Helsinki and for 6 years in Oulu. Our aim was also to follow the kinetics of IgG and IgA antibodies in multiple sera obtained from the same individuals and compare antibody findings obtained by conventional microimmunofluorescence (MIF) and commercial enzyme immunoassay (EIA) in part of the sera. MATERIALS AND METHODS The study subjects belonged to the personnel SY-1365 of the Department of Virology, University of Helsinki, and the National Public Health Institute in Oulu. The annual serum samples were collected for occupational health surveillance and as preinfection sera. A total of 592 serum specimens from 87 persons, 67 women and 20 men, were tested. Informed consent was obtained from all study subjects. In Helsinki, 407 sera were collected from 47 persons. All subjects included in Helsinki had at least three serum samples taken from 1958 to 1990. The follow-up time varied from 3 to 31 years. From 77% of the persons, blood samples were obtained every year. The sera from 55 subjects in Oulu were collected during the period from 1994 to 1999. One serum sample was available from 11 subjects, two sera were from 4 subjects, and at least three sera were from 40 subjects (185 sera) for the measurement of antibodies. The follow-up.