Background It is unclear whether microneedle vaccinations of Japanese encephalitis virus can induce sufficient neutralising antibodies and reduce the amount of vaccine needed. We aimed to assess the safety and dose-sparing effect of a microneedle vaccine patch against Japanese encephalitis in healthy individuals who are naive to both the vaccine and natural infection.
MethodsThe MNA-J study was a randomised, partly blinded, active-controlled, phase 1 clinical trial at Hokkaido University (Sapporo, Japan) that enrolled healthy adults aged 20-34 years with no history of Japanese encephalitis vaccination nor of infection as confirmed by seronegativity. We excluded individuals who had been infected with or vaccinated against Japanese encephalitis. Eligible participants were randomly assigned (1:1:1) to one of three groups to receive inactivated Japanese encephalitis vaccine administered twice, 3 weeks apart, by either 2•5 μg per injection by subcutaneous injection, 0•63 μg per patch by high-dose microneedle array (MNA-25%), or 0•25 μg per patch by low-dose microneedle array (MNA-10%). The randomisation sequence, using stratification by cohort and blocks of six, was computer-generated by a statistician who was unaware of group assignment. After administration, the remaining amount of unadministered vaccine was measured by ELISA and calculated as the delivered amount of vaccine. The primary outcome was the neutralising antibody titre at day 42 after first immunisation. Successful seroconversion was defined as post-vaccination titres of 1•3 (log 10 ) or higher in individuals whose pre-vaccination titres had been less than 1 (log 10 ). This study is registered with the Japan Registry of Clinical Trials (s011190004).
FindingsBetween Aug 31 and Sept 2, 2019, 39 participants were enrolled and each was randomly assigned to a group (n=13 per group). No serious adverse events were observed. All participants in the microneedle array groups had a localised erythematous reaction. The amount of vaccine delivered by microneedle array to each participant was 0•63-1•15 μg (50-92%) of the full 1•26 μg for the MNA-25% group and 0•25-0•41 μg (51-84%) of the full 0•50 μg for the MNA-10% group. All participants demonstrated seroconversion at day 42, and the mean titres (log 10 ) were 2•55 for MNA-25%, 2•04 for MNA-10%, and 2•08 for subcutaneous injection.Interpretation A microneedle patch of the Japanese encephalitis vaccine is safe, well tolerated, and immunogenically effective. The dose-sparing effect suggests a significant potential to reduce the amount of immunogens needed. However, improved delivery is needed to make it more tolerable and user friendly.Funding FUJIFILM.
Alternatives to syringe-based administration are considered for vaccines. Intradermal vaccination with dissolvable microneedle arrays (MNA) appears promising in this respect, as an easy-to-use and painless method. In this work, we have developed an MNA patch (MNAP) made of hydroxyethyl starch (HES) and chondroitin sulphate (CS). In swines, hepatitis B surface antigen (HBsAg) formulated with the saponin QS-21 as adjuvant, both incorporated in HES-based MNAP, demonstrated the same level of immunogenicity as a commercially available aluminum-adjuvanted HBsAg vaccine, after two immunizations 28 days apart. MNAP application was associated with transient skin reactions (erythema, lump, scab), particularly evident when the antigen was delivered with the adjuvant. The thermostability of the adjuvanted antigen when incorporated in the HES-based matrix was also assessed by storing MNAP at 37, 45 or 50 °C for up to 6 months. We could demonstrate that antigenicity was retained at 37 and 45 °C and only a 10% loss was observed after 6 months at 50 °C. Our results are supportive of MNAP as an attractive alternative to classical syringe-based vaccination.
Mass vaccination campaigns using mRNA vaccines against SARS-CoV-2 have begun in many countries. Serological assays to detect antibody production may be a useful tool to monitor the efficacy of SARS-CoV-2 vaccination in individuals.
Serological tests for detection of anti–severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) Abs in blood are expected to identify individuals who have acquired immunity against SARS-CoV-2 and indication of seroprevalence of SARS-CoV-2 infection. Many serological tests have been developed to detect Abs against SARS-CoV-2. However, these tests have considerable variations in their specificity and sensitivity, and whether they can predict levels of neutralizing activity is yet to be determined. This study aimed to investigate the kinetics and neutralizing activity of various Ag-specific Ab isotypes against SARS-CoV-2 in serum of coronavirus disease 2019 (COVID-19) patients confirmed via PCR test. We developed IgG, IgM, and IgA measurement assays for each Ag, including receptor-binding domain (RBD) of spike (S) protein, S1 domain, full-length S protein, S trimer, and nucleocapsid (N) domain, based on ELISA. The assays of the S protein for all isotypes showed high specificity, whereas the assays for all isotypes against N protein showed lower specificity. The sensitivity of all Ag-specific Ab isotypes depended on the timing of the serum collection and all of them, except for IgM against N protein, reached more than 90% at 15–21 d postsymptom onset. The best correlation with virus-neutralizing activity was found for IgG against RBD, and levels of IgG against RBD in sera from four patients with severe COVID-19 increased concordantly with neutralizing activity. Our results provide valuable information regarding the selection of serological test for seroprevalence and vaccine evaluation studies.
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