Emergence of ciprofloxacin-resistant Neisseria meningitidis B from asymptomatic carriers during an outbreak in Peru, 2017.

Asymptomatic carriers are a likely source of transmission of Neisseria meningitidis to close contacts who are placed at a higher risk for invasive meningococcal disease (IMD). Although N. meningitidis ciprofloxacin-resistance is rare, there have been an increase in the reports of resistant isolates mainly in patients diagnosed with IMD, and little is known about the N. meningitidis ciprofloxacin-resistance in the carrier populations. We performed a pharyngeal carriage study during a 2017 military setting outbreak in Peru, caused by a ciprofloxacin-resistant N. meningitidis B. The isolates analysed came from two hospitalized cases and six asymptomatic carriers. Whole-genome sequence-based analysis was performed and showed that strains carrying the Thr91Ile mutation, in the gene encoding for subunit A of DNA gyrase (gyrA), were responsible for the fluoroquinolone resistance (MICs ≥0.256 µg ml-1) and were closely related to highly virulent strains from France, Norway and the UK. Phylogenetic analysis of the gyrA gene revealed that likely these Peruvian isolates acquired resistance through horizontal gene transfer from Neisseria lactamica. Our study provides evidence for the emergence and propagation of ciprofloxacin-resistant N. meningitidis B from asymptomatic carriers, and recommends the introduction of serogroup B vaccines for high-risk populations.

Why the Anti-Meningococcal B Vaccination during Adolescence Should Be Implemented in Italy: An Overview of Available Evidence.

Although meningococcal disease has a low incidence in Italy, it is a public health concern owing to its high lethality rate and high frequency of transitory and/or permanent sequelae among survivors. The highest incidence rates are recorded in infants, children and adolescents, and most of the cases are due to Neisseria meningitidis B. In Italy, anti-meningococcal B (anti-MenB) vaccination is free for infants but, despite the considerable disease burden in adolescents, no national recommendation to vaccinate in this age-group is currently available. The aim of this study was to assess the main available scientific evidence to support the Italian health authorities in implementing a program of free anti-MenB vaccination for adolescents. We conducted an overview of the scientific literature on epidemiology, disease burden, immunogenicity and safety of available vaccines, and economic evaluations of vaccination strategies. Each case of invasive meningococcal disease generates a considerable health burden (lethality rate: 9%; up to 60% of patients experience at least one sequela) in terms of impaired quality of life for survivors and high direct and indirect costs (the mean overall cost of acute phase for a single case amounts to about EUR 13,952; the costs for post-acute and the long-term phases may vary widely depending of the type of sequela, reaching an annual cost of about EUR 100,000 in cases of severe neurological damage). Furthermore, vaccination against meningococcus B in adolescence proved cost-effective. The study highlights the need to actively offer the anti-MenB vaccination during adolescence at a national level. This would make it possible to avoid premature deaths and reduce the high costs borne by the National Health Service and by society of supporting survivors who suffer temporary and/or permanent sequelae.

Evaluation of intranasal and subcutaneous route of immunization in neonatal mice using DODAB-BF as adjuvant with outer membrane vesicles of Neisseria meningitis B.

BACKGROUND: The Neisseria meningitidis bacterium is a Gram-negative diplococcus that can be classified into different serogroups according to the capsular structure. Six of them (A, B, C, W, X, Y) are responsible for causing Invasive Meningococcal Disease (IMD). The strategies for the development of a vaccine for serogroup B have been directed to the use of outer membrane vesicles (OMVs). The aim of this study was to evaluate the immunogenicity of antigenic determinants from OMVs of N. meningitidis B complexed with two different adjuvants: DODAB-BF and aluminum hydroxide (alum), comparing the evaluation of intranasal and subcutaneous route of immunization. METHODS: We used prime-boost immunization for the first time in outbred neonatal mice evaluating the cellular and humoral immune response. RESULTS: Immunoblot, ELISA DOT-ELISA and ELISpot were used universal methods of antibody detection, in order to detect the humoral and cellular immune response in male and female mice. Immunoblot analyzes the specificity of antibodies with the homologous N. meningitidis strain. ELISA served to quantify and compare the titers of antibodies in the serum of mice immunized with DODAB-BF + OMVs and alum + OMVs for IgG, IgG1, and IgG2a. Intranasal immunization produced a mixed response in the T helper cells Th1 and Th2, while subcutaneous immunization exhibited a Th1 profile. The DOT-ELISA identified cross-reactivity with DODAB-BF to different serogroups of N. meningitidis (B, C, W, and Y) that was not observed with alum. ELISpot analyzed IFN-γ- and IL-4 and the results showed the response directly to Th1 and Th2 profile. CONCLUSION: Our findings indicate that DODAB-BF can be an alternative adjuvant for mucosal cell activation with OMVs of N. meningitidis B and that DODAB-BF was similar to aluminum hydroxide as an adjuvant for subcutaneous immunization.

Vaccinating Italian infants with a new multicomponent vaccine (Bexsero®) against meningococcal B disease: A cost-effectiveness analysis.

The European Medicines Agency has approved a multicomponent serogroup B meningococcal vaccine (Bexsero®) for use in individuals of 2 months of age and older. A cost-effectiveness analysis (CEA) from the societal and Italian National Health Service perspectives was performed in order to evaluate the impact of vaccinating Italian infants less than 1 y of age with Bexsero®, as opposed to non-vaccination. The analysis was carried out by means of Excel Version 2011 and the TreeAge Pro® software Version 2012. Two basal scenarios that differed in terms of disease incidence (official and estimated data to correct for underreporting) were considered. In the basal scenarios, we considered a primary vaccination cycle with 4 doses (at 2, 4, 6 and 12 months of age) and 1 booster dose at the age of 11 y, the societal perspective and no cost for death. Sensitivity analyses were carried out in which crucial variables were changed over probable ranges. In Italy, on the basis of official data on disease incidence, vaccination with Bexsero® could prevent 82.97 cases and 5.61 deaths in each birth cohort, while these figures proved to be three times higher on considering the estimated incidence. The results of the CEA showed that the Incremental Cost Effectiveness Ratio (ICER) per QALY was €109,762 in the basal scenario if official data on disease incidence are considered and €26,599 if estimated data are considered. The tornado diagram indicated that the most influential factor on ICER was the incidence of disease. The probability of sequelae, the cost of the vaccine and vaccine effectiveness also had an impact. Our results suggest that vaccinating infants in Italy with Bexsero® has the ability to significantly reduce meningococcal disease and, if the probable underestimation of disease incidence is considered, routine vaccination is advisable.

Desenvolvimento e manutenção de memória imunológica após imunização contra Neisseria meningitidis B com a vacina VA-MENGOC-BC / Development and maintenance of immunological memory after immunization against Neisseria meningitidis B with vaccine VA-MENGOC-BC

Neisseria meningitidis é uma das principais causas de meningite bacteriana e septicemia em todo o mundo, acometendo principalmente crianças menores de 4 anos. Atualmente, não existe uma vacina universal contra o meningococo B (MenB). A imunidade protetora contra o meningococo caracteriza-se pela presença e persistência de anticorpos bactericidas, porém pouco se sabe sobre os mecanismos de desenvolvimento desta memória sorológica. Avaliamos em modelo animal e em humanos, a geração e manutenção das células secretoras de anticorpos (ASC) e dos linfócitos B de memória (LBm) após vacinação contra MenB. Utilizamos como referência a vacina diftérica (dt ou DTP), considerada ter ótima eficácia em humanos. Para o estudo em modelo animal, grupos de 6 a 8 camundongos suíços, fêmeas, de 5 a 6 semanas, foram imunizados com 3 doses da vacina VA-MENGOC-BC ou DTP, via intramuscular, com intervalo de 2 semanas entre as doses. Aproximadamente 2, 4 ou 6 meses após a última dose, os animais receberam a dose reforço. A vacina anti-MenB induziu uma resposta primária de ASC maior que a resposta à dose reforço. Ao contrário, a resposta de ASC à vacina dT foi maior após o booster. A resposta de LBm anti-MenB permaneceu constante (média de 1%) ao longo de todo o estudo, mas a resposta ao toxóide diftérico (TD) foi maior após o booster (média de 1,9%) que após a imunização primária. A concentração de IgC, anticorpos bactericidas e opsonizantes contra MenB foi dose-dependente e foi reativada após a administração das doses reforços. Esses resultados sugerem que os LBm presentes no baço foram responsáveis pela forte resposta de anticorpos observada após a dose reforço. Para o TD, ambas ASC e LBm foram importantes na manutenção da memória sorológica. Para o estudo em humanos, seis voluntários foram imunizados com 3 doses da vacina VA-MENGOC-BC, via intramuscular, com intervalo de 6 a 7 semanas entre as doses. Seis meses após a imunização primária, os indivíduos receberam uma dose...

Neisseria meningitides is one of the leading causes of bacterial meningitis and septicemia worldwide, particularly in children less than four years old. Currently, there is no universal vaccine agoinst serogroup B meningococcus (MenB). Protective immunity against meningococcus is characterized by the presence and persistence of bactericidal antibody, but little is known about the mechanisms of development of the serological memory. In this study, we evaluated in animal model and in humans the generation and maintenance of antibody secreting cells (ASC) and memory B cell after vaccination against MenB. We used the diphtheria vaccine (dT or DTP) as a reference for efficacy in humans. Five to six-week old female Swiss mice in groups of 6 to 8 were immunized with three intramuscular injections of VA-MENGOC-BC or DTP vaccine 2 weeks apart. Approximately 2, 4 or 6 months after the last dose, mice received a booster injection of the vaccine. Vaccination against MenB induced a higher ASC primary response compared with the booster response. In contrast, ASC response to dT was higher after booster than after primary immuinization. Memory B-cell to MenB remained at constant levels (mean of 1%) during the whole study, but the response to diphtheria toxoid (TD) was higher after boosting (mean of 1.9%) when compared with the primary response. IgG, bactericidal and opsonic antibody concentrations to MenB was dose-dependent and was reactivated after booster doses. These data suggest that spleen memory B-cells were responsible for the strong boosting antibody response to MenB. For TD, both ASC and memory B-cell were important for maintenance of the serological memory. For the human study, six volunteers were immunized with three intramuscular injections of VA-MENGOC-BC 6 to 8 weeks apart. Six months after the last dose, subjects received a booster dose. Another group of volunteers (n=5) were immunized with a booster dose of dT vaccine. Three doses of vaccine...

Evaluación citotóxica y genotóxica del adyuvante AFCo1 por el ensayo de morfología de la cabeza del espermatozoide en ratón NMRI / Cytotoxic and genotoxic evaluation of the adjuvant AFCo1 by the sperm head morphology assay in NMRI mice

Se realizó un estudio para evaluar el potencial citogenotóxico en células espermàticas de ratón, del adyuvante AFCo1 (Adyuvante Finlay Cocleato 1) obtenido a partir del proteoliposoma de Neisseria meningitidis serogrupo B. El AFCo1 y su diluente se administraron por vía intranasal en una dosis de 40 µL (1 mg/mL), mientras que los controles positivo (ciclofosfamida) y negativo (agua destilada estéril), se administraron por vía oral a razón de 40 mg y 1 mL/kg respectivamente. Se utilizaron ratones (NMRI) de 8-12 semanas de edad, con peso corporal entre 27-30 g, a los cuales se les aplicaron cinco dosis con un intervalo de 24 h durante los primeros cinco días del experimento. Se evaluó la toxicidad general (peso corporal) e indicadores testiculares de citotoxicidad testicular (concentración espermàtica) y genotoxicidad (morfología espermàtica). El AFCo1 y su diluente no provocaron toxicidad general, citotoxicidad, ni genotoxicidad. La ciclofosfamida sí produjo citotoxicidad (47,77 por ciento) y genotoxicidad (534,61 por ciento). Se concluye que el AFCo1 y su diluente pueden ser considerados como no tóxicos para las células espermàticas en el nivel de dosis y para el biomodelo animal utilizado(AU)

This study was developed to evaluate the cytogenotoxic potential on mice spermatic cells of the candidate adjuvant, AFCol (Adjuvant Finlay Cochleate 1 Adjuvant); obtained from the proteoliposome of Neisseria meningitidis serogroup B. The AFCo1 and its diluent were administered via intranasal in a 40 µL dose (1 mg/mL), while the positive control (ciclofosfamide) and the negative one (sterile distilled water) were administered orally in 40 mg and 1 mL/kg respectively. Rats (NMRI) were from 8 to 12 week of age with weighing from 27 to 30 g and they were administered 5 doses with an interval of 24 hours during the first 5 days of the experiment. General toxicity (body weight), cytotoxicity of testicles (spermatic concentration) and genotoxicity (spermatic morphology) were evaluated. AFCol and its diluent provided neither general toxicity, cytotoxicity, nor genotoxicity. The cyclophosphamide produced cytotoxicity (47.77 percent) and genotoxicity (534.61 percent). It is concluded that AFCol and its diluent, could be considered non toxic for the spermatic cells with the dose level and the animal biomodel used(AU)