Background Hepatitis B virus infection is a major health problem worldwide. Understanding the mode of HBV transmission route is important but it is difficult to observe directly so mathematical modeling is an alternative approach. There are multi-level prevention strategies for perinantal transmission including immunization, immunoglobulin injection and maternal lamivudine prophylaxis use in third gestation trimester. Moreover, there is lacking of evaluation, particularly long-term follow-up, of the cost and effectiveness of these prevention strategies simultaneously for the hepatitis B virus infection and its related sequelae. The current thesis focused on three major themes, including (1) modeling the dynamics of HBV infection with a stochastic process making allowance for the mixture proportion of vertical transmission and horizontal transmission; (2) assessing the efficacy of lamivudine use in arresting perinatal transmission through a meta-analysis of literatures; (3) economic evaluation of long-term effectiveness and cost-effectiveness of universal vaccination and lamivudine use. Method For transmission mode, a five-state stochastic model, including susceptible, latent period, active viral replication, carrier and recovery, was use to quantify the dynamics of HBV infection with the consideration of vertical transmission and horizontal transmission. By including three studies on maternal lamivudine use in late pregnancy, a meta-analysis using a Bayesian approach was conducted. A decision analysis was performed to compare total costs and effectiveness between the prevention strategies: universal vaccination and no-vaccination in the year of 1984 and maternal lamivudine use and universal vaccination in the year of 2008. The Markov process was defined as a series of states including acute hepatitis B virus infection, asymptomatic carrier, chronic hepatitis, compensated and decompensated cirrhosis, hepatoma, and death. The incremental cost-effectiveness ratio per quality-adjusted life years gained and acute infection averted calculated at a 3% discount rate. By assigning a series of specific distributions to each parameter, a probabilistic cost-effective analysis using Monte Carlo simulation was conducted to yield 5000 incremental cost-effectiveness ratio replicates. Result In five-state model, the transmission parameter of annual infection rate for susceptible subjects was estimated to be 1.1-3.5% and 0.072-1.112 per year from latent period to active viral replication. Approximately with rate of 0.119-0.184 per year active viral replication may leave as chronic carrier. Annual recovery rates were 1.4-2.4% and 4.8-8.8% for carrier and transient viremia, respectively. Approximately 41.4-80.2% infected subjects were derived from vertical transmission. After allowing for heterogeneity, the efficacy of the maternal lamivudine use statistically significantly halves perinatal transmission compared with the untreated group (RR= 0.52, 95% CI: 0.24-0.94). The effectiveness of a universal vaccination program for reducing hepatocellular carcinoma cases and deaths was approximately 86% compared to no vaccination. The average life years gained per subject as a result of such a universal vaccination was 3.9. The vaccination program dominated over a no-vaccination program (less cost and more effectiveness). Given literature review on the application of lamivudine, the overall efficacy in reducing Hepatitis B virus DNA level was 98.3 % and 48 % in reducing vertical transmission with outcomes measured by HBsAg or Anti-HBc. The incremental cost-effectiveness ratio for prophylactic strategy versus routine active-passive immunoprophylaxis was $47,059 from health care payer perspective whereas dominance has been noted for societal viewpoint. Conclusion Prophylactic lamivudine use can reduce 50% chance of perinatal transmission related to hepatitis B virus infection based on integrated empirical data. The proportion of vertical transmission among all HBV infection varies even in different areas of the same country, which was higher in southern area (80%) and lower in northern area (41%) of Taiwan. The vaccination program dominated over a no-vaccination program (less cost and more effectiveness). The incremental cost-effectiveness ratio for prophylactic maternal lamivudine use versus routine universal vaccination was $47,059 from health care payer perspective whereas dominance has been noted for societal viewpoint. These findings suggest the administration of lamivudine to mothers with high HBV viremia added to current vaccination strategy may improve the vaccination breakthrough and seem to be cost-effective.