0%]) with a positive history of chickenpox,

52 (67 5% [57

0%]) with a positive history of chickenpox,

52 (67.5% [57.0–78.1%]) with a negative history and 42 (84.0% [73.7–94.3%]) with an uncertain history had VZV-IgG antibodies indicating previous varicella infection (Table 1). 16 oral fluid samples were found to have insufficient total IgG for reliable detection of specific VZV-IgG, including 13 (81%) from respondents with a negative or uncertain history, suggesting these may be true negatives. To assess the best-case scenario, our initial analysis therefore grouped together negative, equivocal, and insufficient oral fluid results (Table 2). Under these conditions, 11 (9.1% [4.0–14.4%]) with a positive history, 25 (32.5% selleck [21.2–43.0%]) with a negative history and 8 (16.0% [5.7–26.3%]) with an uncertain history had no evidence of previous varicella infection. An adolescent varicella immunisation programme would offer the vaccine to those with either a negative or uncertain history, of whom 94 (74.0% [66.3–81.7%]) were positive for VZV-IgG and 33 (26.0% [18.3–33.7%]) were negative. To assess the worst-case scenario, our second analysis see more discounted samples with insufficient IgG and assumed equivocal results were positive (Table 3). Under these conditions, 96 (84.2% [77.5–91.0%]) with a negative or uncertain history of chickenpox had antibodies indicating previous varicella infection. Using paired serum and oral fluid samples, the assay used in this study was previously shown to have a sensitivity

of 96.3% and specificity of 90.9%. [HPA unpublished data] In populations with a high seroprevalence of VZV-IgG, the positive predictive value (PPV) of this assay will approach 100%, but NPV may be lower. To explore this, we assumed

the PPV to be 100% and varied the NPV between 50% and 100%. Using the study data as described above, Fig. 1 shows the impact on the expected proportion of respondents with a negative or uncertain chickenpox history testing positive for VZV-IgG (i.e. the proportion of vaccine-eligible individuals who might receive vaccine unnecessarily). Under the best-case scenario, this proportion increased from 74% to 87% and under the worst-case scenario from 84% to 92% as NPV falls to 50%. Adolescent Montelukast Sodium varicella vaccination is being considered in the UK with the aim of preventing serious adult disease and to avoid infection in pregnancy in those susceptible. Previous reviews have found antenatal screening for varicella, and childhood vaccination not to be cost-effective [6] and [13]. Cost-effectiveness of an adolescent varicella vaccination programme in the UK is likely to depend on the proportion of vaccine doses given unnecessarily to individuals with prior natural immunity. We therefore assessed the validity of reported chickenpox history to determine vaccine eligibility, by asking parents about their child’s history of chickenpox, explicitly setting the context in terms of the implications for vaccination. We then tested the adolescents for varicella antibodies to determine previous exposure.

Comments are closed.