In hepatitis B virus (HBV) infection-preventing programs, serum or plasma levels of antibody to hepatitis B surface antigen (anti-HBs) are important to determine whether individuals are protective or not. We compared anti-HBs responses using passive hemagglutination assay (Mycell) and chemiluminescent immunoassay (Architect) among four recipient groups of HB vaccines, Meinyu, HBY, Bimmugen and Heptavax II, that have been approved in Japan. Overall, in a total of 1875 vaccinees Mycell results showed recipient groups of Meinyu and HBY acquired higher anti-HBs levels than those of Bimmugen and Heptavax II. Comparison of anti-HBs responses by both Mycell and Architect in recipient groups of Meinyu (n=150), HBY (n=218), Bimmugen (n=260), and Heptavax II (n=47) demonstrated the order of vaccinees' responses, such as geometric mean titers, ratios of acquiring high antibody levels (Mycell titers over 1024, Architect measurements over 1000 mIU/mL), and ratios of having unsuccessful antibody responses (Mycell titers under 8, Architect measurements under 10 mIU/mL), were somewhat different between the two assays. Comparison of Architect measurements at given Mycell titers revealed Bimmugen-recipients showed significantly lower values than HBY- or Heptavax II-recipients. Around critical protective levels, 5 of 22 Bimmugen-recipients with Mycell titers 16 or 32 showed Architect measurements under 10 mIU/mL, while 8 of 11 Heptavax II-recipients with Mycell titers below 8 demonstrated Architect measurements over 10 mIU/mL. Thus, discrepancies in anti-HBs evaluation between Mycell and Architect seemed to partly depend on administered vaccines. These results indicate anti-HBs concentration should be evaluated carefully so that we could completely prevent HBV infection.