Evaluation of <i>Haemophilus influenzae  </i>type b carrier status among children 10 years after the introduction of Hib vaccine in Brazil

Zanella, Rosemeire Cobo; Brandileone, Maria Cristina de Cunto; Andrade, Ana Lúcia; Ogassavara, Cinthya Terumi; Fiório, Cleiton Eduardo; Brandão, Angela Pires; Almeida, Samanta Cristine Grassi; Lemos, Ana Paula Silva; Gorla, Maria Cecília; Carvalhanas, Telma Regina; Sato, Helena; Liphaus, Bernadete; Nerger, Maria Lígia; Conde, Monica; Ribeiro, Ana Freitas

doi:10.1590/0074-02760150140

Abstract

The aim of the present study was to assess the prevalence of Haemophilus influenzae type b (Hib) nasopharyngeal (NP) colonisation among healthy children where Hib vaccination using a 3p+0 dosing schedule has been routinely administered for 10 years with sustained coverage (> 90%). NP swabs were collected from 2,558 children who had received the Hib vaccine, of whom 1,379 were 12-< 24 months (m) old and 1,179 were 48-< 60 m old. Hi strains were identified by molecular methods. Hi carriage prevalence was 45.1% (1,153/2,558) and the prevalence in the 12-< 24 m and 48-< 60 m age groups were 37.5% (517/1,379) and 53.9% (636/1,179), respectively. Hib was identified in 0.6% (16/2,558) of all children in the study, being 0.8% (11/1,379) and 0.4% (5/1,179) among the 12-< 24 m and 48-< 60 m age groups, respectively. The nonencapsulate Hi colonisation was 43% (n = 1,099) and was significantly more frequent at 48-< 60 m of age (51.6%, n = 608) compared with that at 12-< 24 m of age (35.6%, n = 491). The overall resistance rates to ampicillin and chloramphenicol were 16.5% and 3.7%, respectively; the co-resistance was detected in 2.6%. Our findings showed that the Hib carrier rate in healthy children under five years was very low after 10 years of the introduction of the Hib vaccine.

Haemophilus influenzae; type b; nasopharyngeal carriage; Hib conjugate vaccine; Brazil

The asymptomatic nasopharyngeal (NP) carriers of Haemophilus influenzaetype b (Hib) play an important role in the dissemination of this microorganism in a population. Hib residing in the nasopharynx can invade the bloodstream or tissue of the host causing diseases (Moxon 1986Moxon ER 1986. The carrier state: Haemophilus influenzae. J Antimicrob Chemother 18: 17-24.). Worldwide Hib conjugate vaccine has proven to be highly effective in the prevention of invasive diseases caused by Hib. Vaccination against Hib also prevents the Hib colonisation in vaccinated children, consequently decreasing its transmission to unvaccinated population that may result in herd effect (Takala et al. 1991Takala AK, Eskola J, Leinonen M, Käyhty H, Nissinen A, Pekkanen E, Mäkelä PH 1991. Reduction of oropharyngeal carriage of Haemophilus influenzae type b (Hib) in children immunized with a Hib conjugate vaccine. J Infect Dis 164: 982-986., Mohle-Boetani et al. 1993Mohle-Boetani JC, Ajello G, Breneman E, Deaver KA, Harvey C, Plikaytis B, Farley MM, Stephens DS, Wenger JD 1993. Carriage ofHaemophilus influenzae type b in children after widespread vaccination with conjugate Haemophilus influenzae type b vaccine. Pediatr Infect Dis J 12: 589-593., Murphy et al. 1993Murphy TV, Pastor P, Medley F, Osterholm MT, Granoff DM 1993. Decreased Haemophilus colonization in children vaccinated withHaemophilus influenzae type b conjugate vaccine. J Pediatr 122: 517-523., Jacups 2011Jacups SP 2011. The continuing role of Haemophilus influenzae type b carriage surveillance as a mechanism for early detection of invasive disease activity. Human Vaccines 12: 1254-1260.).

Globally, countries have introduced the Hib vaccine using different schedules, including three primary doses (3p+0 dose), two primary doses plus a booster (2p+1 dose) or three primary doses plus a booster (3p+1 dose). To date, there is no clear evidence suggesting that any one schedule is likely to provide better protection against Hib invasive disease compared with the others (WHO 2010WHO - World Health Organization 2010. Recommendations for routine immunization - summary tables. Available from: http://who.int/immunization/policy/Immunization_routine_table2.pdf?ua=1.
http://who.int/immunization/policy/Immun... ).

In July 1999, the Brazilian National Immunisation Program (NIP) introduced the monovalent Hib conjugate vaccine (PRP-Hib) into the universal infant immunisation program, using a primary series of three doses scheduled at two, four and six months of age without a booster dose (3p+0 dose). In 2002, the PRP-Hib vaccine was replaced by the combined DPT+Hib vaccine, which was in turn replaced by the pentavalent DPPT-Hib-HB in 2012; the vaccine schedule of 3p+0 dose has remained consistent to date. Since the introduction of the Hib vaccine in Brazil, the incidence of Hib meningitis declined sharply after 2001 coinciding with the consolidation of vaccination against Hib (MS/SVS/PNI 2010MS/SVS/PNI - Ministério da Saúde/Secretaria de Vigilância em Saúde/Programa Nacional de Imunização 2010. DATASUS - Sistema de Informação do Programa Nacional de Imunizações. Available from: http://tabnet.datasus.gov.br/cgi/deftohtm.exe?pni/cnv/cpniuf.def.
http://tabnet.datasus.gov.br/cgi/deftoht... ).

Surveillance of Hib carriage has been strongly recommended by the World Health Organization (WHO) as an important tool to investigate the frequency of vaccine type among the vaccinated population, as well as to evaluate the impact of vaccination (WHO 2010WHO - World Health Organization 2010. Recommendations for routine immunization - summary tables. Available from: http://who.int/immunization/policy/Immunization_routine_table2.pdf?ua=1.
http://who.int/immunization/policy/Immun... ). In general, high rates of colonisation correlate with high rates of invasive disease (Garcia et al. 2012Garcia S, Lagos R, Muñoz A, Picón T, Rosa R, Alfonso A, Abriata A, Gentile A, Romanin V, Regueira M, Chiavetta L, Agudelo CI, Castañeda E, De La Hoz F, Higuera AB, Arce P, Cohen AL, Verani J, Zuber P, Gabastou JM, Pastor D, Flannary B, Andrus J 2012. Impact of vaccination against Haemophilus influenzae type b with and without a booster dose on meningitis in four South American countries. Vaccine 30: 486-492.). In Brazil, studies investigating Hib NP carriage are scarce; only four studies have been published to date. Two were conducted before the introduction of the Hib vaccine in the NIP, in 1998, in the South and Southeast Regions of Brazil (Forleo-Neto et al. 1999Forleo-Neto E, Oliveira CF, Maluf EMCP, Bataglin C, Araujo JMR, Kunz Jr LF, Pustai AK, Vieira VSD, Zanella RC, Brandileone MCC, Mimica LMJ, Mimica IM 1999. Decreased point prevalence of Haemophilus influenzae type b (Hib) oropharyngeal colonization by mass immunization of Brazilian children less than 5 years of age with Hib polyrribosylribitol phosphate polysaccharide-tetanus toxoid conjugate vaccine in combination with diphtheria-tetanus-toxoids-pertussis vaccine. J Infect Dis 180: 1153-1158., Bricks et al. 2004Bricks LF, Mendes CMF, Lucarevschi BR, Oplustil CP, Zanella RC, Bori A, Bertoli CJ 2004. Oropharyngeal colonization by Haemophilus influenzae in healthy children from Taubaté (São Paulo), prior toHaemophilus influenzae type b vaccination program in Brazil. Rev Hosp Clin Fac Med Sao Paulo 59: 236-243.); the other two studies were carried out in the Southeast and in Central-West Regions and evaluated Hib carrier status after three and five years of Hib vaccination (Silva et al. 2006Silva MENB, Silva P, Medeiros MIC, Neme SN, Macedo C, Marin JM 2006. Nasopharyngeal colonization by Haemophilus influenzae in children attending day-care centers in Ribeirão Preto, state of São Paulo, Brazil. Braz J Microbiol 37: 33-38.,Carvalho et al. 2011Carvalho CX, Kipnis A, Thörn L, Andrade JG, Pimenta F, Brandileone MCC, Zanella RC, Flannery B, Sgambatti S, Andrade AL 2011. Carriage ofHaemophilus influenzae among Brazilian children attending day care centers in the era of widespread Hib vaccination. Vaccine 29: 1438-1442.). This paucity of data prompted us to investigate the long term prevalence of Hib NP colonisation in a Brazilian population. The aim of the present study was to report the prevalence of Hib NP colonisation among healthy children living in the municipality of São Paulo, where Hib vaccination using a 3p+0 dose schedule has been routinely administered for 10 years. The antimicrobial susceptibility of Hi isolates was also investigated.

SUBJECTS, MATERIALS AND METHODS

Study population immunised with the Hib vaccine - The present cross-sectional study was conducted in the municipality of São Paulo (population in 2010: 11,253,503 inhabitants) (IBGE 2010IBGE - Instituto Brasileiro de Geografia e Estatística 2010. População residente, total, urbana total e urbana na sede municipal, em números absolutos e relativos, com indicação da área total e densidade demográfica, segundo as unidades de federação e os municípios - 2010. Available from: http://censo2010.ibge.gov.br/sinopse/index.php?dados=21&uf=35.
http://censo2010.ibge.gov.br/sinopse/ind... ), the largest city in Brazil, during vaccination campaign in 2010. The enrollment of study participants was conducted at 16 primary health units (PHUs) conveniently selected due to high demand of children attended to these PHUs. Health children living in the urban area of São Paulo were recruited according to the spontaneous demand at PHUs. Two age groups were studied. Children aged 12-< 24 months (m) were selected because they had received the Hib vaccine a year before sample collection and children aged 48 up to < 60 m (48-< 60 m) were selected because they had been vaccinated in the five years before the study. Only one child per household was recruited.

Sample size - The number of study participants in each age group was calculated based on the 0.7% Hib carriage rate (error 0.5%) observed in previous studies conducted in vaccinated children in two Brazilian cities (Forleo-Neto et al. 1999Forleo-Neto E, Oliveira CF, Maluf EMCP, Bataglin C, Araujo JMR, Kunz Jr LF, Pustai AK, Vieira VSD, Zanella RC, Brandileone MCC, Mimica LMJ, Mimica IM 1999. Decreased point prevalence of Haemophilus influenzae type b (Hib) oropharyngeal colonization by mass immunization of Brazilian children less than 5 years of age with Hib polyrribosylribitol phosphate polysaccharide-tetanus toxoid conjugate vaccine in combination with diphtheria-tetanus-toxoids-pertussis vaccine. J Infect Dis 180: 1153-1158., Carvalho et al. 2011Carvalho CX, Kipnis A, Thörn L, Andrade JG, Pimenta F, Brandileone MCC, Zanella RC, Flannery B, Sgambatti S, Andrade AL 2011. Carriage ofHaemophilus influenzae among Brazilian children attending day care centers in the era of widespread Hib vaccination. Vaccine 29: 1438-1442.). Thus, we estimated a target population of 1,100 subjects for each age group.

Ethical considerations - The study was approved by the Ethical Committee of the Public Health Faculty of University of São Paulo (protocol 1969). Before NP specimens were collected, parents or legal guardians of children received an appropriated explanation of the study and information on the risks and discomforts of the collection procedure. Children or parents/legal guardian that refused to participated in the study were not enrolled. Written informed consent was obtained from each parents or legal guardians of children.

Data and specimen collection - A questionnaire was administered by field-workers to parents/legal guardians of each participant to obtain demographic data. The Hib vaccine schedule (3p+0 dose) was ensured by checking the vaccine card at the time of NP specimen collection. The exclusion study criteria were refusal to participate, age not within the age range, not living in the city of São Paulo, incomplete Hib vaccination or received a booster dose (3p+1 dose) and used antibiotics or had fever (≥ 38.5ºC) within the seven days before sample collection. Specimen collection was performed in three different days of vaccination campaign in 2010: March 22 (n = 681), June 12 (n = 577) and August 14 (n = 1,300). NP specimens were obtained transnasally using a flexible, sterile swab with a flocked nylon tip (Copan, USA) by trained nurses according to WHO procedure (O’Brien et al. 2003O’Brien KL, Nohynek H, World Health Organization Pneumococcal Vaccine Trials Carriage Working Group 2003. Report from a WHO Working Group: standard method for detecting upper respiratory carriage ofStreptococcus pneumoniae. Pediatr Infect Dis J 22: e1-e11.). One NP sample was obtained per child. Swabs were immediately inoculated in 1 mL of skim milk-tryptone-glucose-glycerine (STGG) transport medium (O’Brien et al. 2001O’Brien KL, Bronsdon MA, Dagan R, Yagupsky P, Janco J, Elliott J, Whitney CG, Yong-Hong Y, Robinson LGE, Schwartz B, Carlone GM 2001. Evaluation of a medium (STGG) for transport and optimal recovery of Streptococcus pneumoniae from nasopharyngeal secretions collected during field studies. J Clin Microbiol 39: 1021-1024.). Specimens were transported in a cold-box to the laboratory within 4-5 h of collection, where each tube was vortexed at high speed for 10-20 s and immediately frozen at -70ºC.

Isolation and identification - A 70 µL sample of the STGG transport medium from each specimen was inoculated on a chocolate agar plate supplemented with 300 µg bacitracin mL^-1 for the selective isolation of Hi. The plates were incubated in 5% CO₂ for 24-48 h. One colony showing the typical morphology of Hi, i.e., a smooth, grayish and wet colony was selected for DNA extraction and species identification using a real-time quantitative PCR (RT-PCR) assay targeting the protein D gene (hpd 3) as previously described (Wang et al. 2012Wang X, Theodore MJ, Mair R, Trujillo-Lopez E, du Plessis M, Wolter N, Baughman AL, Hatcher C, Vuong J, Lott L, von Gottberg A, Sacchi C, McDonald JM, Messonnier M, Mayer L 2012. Clinical validation of multiplex real-time PCR assays for detection of bacterial meningitis pathogens. J Clin Microbiol 50: 702-708.). The capsular typing of confirmed Hi isolates was performed by conventional PCR for the presence of thebexA gene to detected encapsulated Hi and for all six capsule-specific genes (van Ketel et al. 1990van Ketel RJ, de Wever B, van Alphen L 1990. Detection ofHaemophilus influenzae in cerebrospinal fluids by polymerase chain reaction DNA amplification. J Med Microbiol 33: 271-276., Falla et al. 1995Falla TJ, Crook DW, Anderson EC, Ward JI, Santosham M, Eskola J, Moxon ER 1995. Characterization of capsular genes in Haemophilus influenzae type b vaccine recipients. J Infect Dis 171: 1075-1076.). The standard strains used as positive controls in the RT-PCR and PCR assays were Hia ATCC9006, Hib ATCC35533, Hic ATCC9007, Hid ATCC9332, Hie ATCC8142 and Hif ATCC9833.

Antimicrobial susceptibility testing - A total of 272 (23.6%) Hi strains, including all encapsulated Hi (n = 54, 2.1%) and 20% (n = 218) of nonencapsulate Hi (NTHi) isolates randomly selected by using the Excel program (v.2010.11), were tested for antimicrobial susceptibility. Minimal inhibitory concentration (MIC) for ampicillin (AMP) and chloramphenicol (CHO) were determined by broth microdilution. Susceptibility criteria were defined according to the Clinical Laboratory Standards Institute guidelines (CLSI 2009CLSI - Clinical and Laboratory Standards Institute 2009.Performance standards for antimicrobial susceptibility testing. Document M100-S19, CLSI, Wayne, 156 pp.). The β-lactamase activity was determined by chromogenic cephalosporin testing using nitrocefin as substrate and following the manufacturer’s instruction (Oxoid, EUA). Hi ATCC 49247 was used as a quality control strain for MICs; Staphylococcus aureus ATCC29213 and Hi ATCC 49247 were used as positive and negative controls, respectively, in the β-lactamase testing.

Statistical analysis - Analysis were performed using the SPSS v.18.0 (SPSS, Inc, USA) software package. Differences on Hi type and NTHi rates were evaluated by Fisher’s test or chi-squared test; a p-value < 0.05 was considered to be statistically significant.

RESULTS

A total of 2,615 children were enrolled in the present study; 38 (1.4%) were excluded because they were not within the age ranges, 15 (0.6%) were from other municipality than São Paulo and four (0.1%) were excluded because sample collection had been performed in duplicate. Therefore, 2,558 children were included in the study, of whom 1,379 (53.9%) were children aged 12-< 24 m (median age = 18 m) and 1,179 (46.1%) were children aged 48-< 60 m (median age = 53 m).

The Table displays the prevalence of Hi carriage, Hi types and NTHi by age groups. On the whole, Hi colonisation rate was 45.1% (1,153/2,558), being significantly higher among children aged 48-< 60 m (53.9%, 636/1,179) compared with children aged 12-< 24 m (37.5%, 517/1,379).

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TABLE
Prevalence of Haemophilus influenzae (Hi) nasopharyngeal carriage, Hi types and nonencapsulated Hi (NTHi) by age groups in healthy vaccinated childrena, municipality of São Paulo, Brazil, 2010

Hib was found in 0.6% (n = 16) of 2,558 children, 0.8% (n = 11) and 0.4% (n = 5) in children aged 12-< 24 m and 48-< 60 m, respectively; Hi type a (Hia) was also detected in 0.6% (n = 16) of children and the other Hi types were found in low prevalence. The overall NP colonisation by encapsulate Hi was 2.1% (n = 54); among children aged 12-< 24 m and 48-< 60 m it was 1.9% (n = 26) and 2.4% (n = 28), respectively. The NTHi carriage rate was 43% (n = 1,099), being significantly more frequent in ages 48-< 60 m (51.6%, n = 608) compared with ages 12-< 24 m (35.6%, n = 491).

The overall rates of resistance to AMP and CHO were 16.5% (45/272) and 3.7% (10/272), respectively; co-resistance to AMP and CHO was detected in 2.6% (7/272) of isolates. Among encapsulate isolates, a resistance rate of 9.2% (5/54) was found for both antibiotics; NTHi isolates showed 18.3% (40/218) and 2.3% (5/218) resistance to AMP and CHO, respectively. All AMP-resistant isolates were β-lactamase producers.

DISCUSSION

In the present survey, we observed that Hib was rarely identified as a NP coloniser (0.6%) in the vaccinated paediatric population in Brazil; in addition, there were no significant differences in the prevalence of Hib between the two age groups. Only 0.8% of children who had been vaccinated within six-12 m before sample collection (age group 12-< 24 m) were Hib carriers. Children belonging to the oldest age group (48-< 60 m), who had received the vaccine in the earlier five years before the present study, also had a low rate of Hib colonisation (0.4%). Data that corroborate with the low level of Hib dissemination in São Paulo is the low incidence rates of Hib meningitis (in 2010, 3.0/100,000 inhabitants of in children younger than one year and 0.65/100,000 in children between one-four years) (CVE 2014)CVE - Centro de Vigilância Epidemiológica Prof. Alexandre Vranjac 2014. Meningites por Haemophilus influenzae b: casos, coeficientes de incidência (por 100.000 hab) e porcentagens segundo faixa etária, estado de São Paulo, 1998 a 2013. Available from: http://cve.saude.sp.gov.br/htm/cve_meni.html.
http://cve.saude.sp.gov.br/htm/cve_meni.... .

A low prevalence of Hib NP carriers was found in two studies previously conducted in Brazil involving vaccinated children attending day-care centres. One study that was performed three years after vaccination (2002-2003) among children 2-39 m of age living in the city of Ribeirão Preto, Southeast Brazil, found only 1% of Hib NP colonisation (Silva et al. 2006Silva MENB, Silva P, Medeiros MIC, Neme SN, Macedo C, Marin JM 2006. Nasopharyngeal colonization by Haemophilus influenzae in children attending day-care centers in Ribeirão Preto, state of São Paulo, Brazil. Braz J Microbiol 37: 33-38.); another study performed six years after vaccination (2005) among children 2-59 m age in Goiânia, Central-West Region of the country, also reported a very low rate (0.7%) of Hib colonisation of the nasopharynx (Carvalho et al. 2011Carvalho CX, Kipnis A, Thörn L, Andrade JG, Pimenta F, Brandileone MCC, Zanella RC, Flannery B, Sgambatti S, Andrade AL 2011. Carriage ofHaemophilus influenzae among Brazilian children attending day care centers in the era of widespread Hib vaccination. Vaccine 29: 1438-1442.). Thus, despite temporal and regional differences among studies, as well as differences among study designs and laboratory methodologies, all have observed a low prevalence of Hib carriers, suggesting that the Hib vaccine schedule of 3p+0 dose incorporated with high vaccine coverage since 1999 has been effective in keeping the Hib circulation at a low level in this population. Importantly, we observed a low percentage of Hib colonisation among the oldest children, which indicates a long-term protection of Hib vaccination.

Similar to studies conducted in other countries, Hib colonisation rates found in these studies among unvaccinated children attending day-care centres were high, in the range of 4.8-7.3% (Forleo-Neto et al. 1999Forleo-Neto E, Oliveira CF, Maluf EMCP, Bataglin C, Araujo JMR, Kunz Jr LF, Pustai AK, Vieira VSD, Zanella RC, Brandileone MCC, Mimica LMJ, Mimica IM 1999. Decreased point prevalence of Haemophilus influenzae type b (Hib) oropharyngeal colonization by mass immunization of Brazilian children less than 5 years of age with Hib polyrribosylribitol phosphate polysaccharide-tetanus toxoid conjugate vaccine in combination with diphtheria-tetanus-toxoids-pertussis vaccine. J Infect Dis 180: 1153-1158., Bricks et al. 2004Bricks LF, Mendes CMF, Lucarevschi BR, Oplustil CP, Zanella RC, Bori A, Bertoli CJ 2004. Oropharyngeal colonization by Haemophilus influenzae in healthy children from Taubaté (São Paulo), prior toHaemophilus influenzae type b vaccination program in Brazil. Rev Hosp Clin Fac Med Sao Paulo 59: 236-243.). Since the widespread introduction of the Hib vaccine worldwide, several surveys have demonstrated a reduction in the prevalence of Hib colonisation over time, reporting low rates ranging from 1.5-< 0.1% (Mohle-Boetani et al. 1993Mohle-Boetani JC, Ajello G, Breneman E, Deaver KA, Harvey C, Plikaytis B, Farley MM, Stephens DS, Wenger JD 1993. Carriage ofHaemophilus influenzae type b in children after widespread vaccination with conjugate Haemophilus influenzae type b vaccine. Pediatr Infect Dis J 12: 589-593., Barbour 1996Barbour ML 1996. Conjugate vaccines and the carriage ofHaemophilus influenzae type b. Emerg Infect Dis 2: 176-182., Millar et al. 2000Millar EV, O’Brien KL, Levine OS, Kvamme S, Reid R, Santosham M 2000. Toward elimination of Haemophilus influenzae type B carriage and disease among high-risk American Indian children. Am J Public Health 90: 1550-1554., MacVernon et al. 2004)MacVernon J, Howard AJ, Slack MP, Ramsay ME 2004. Long-term impact of vaccination on Haemophilus influenzae type b (Hib) carriage in the United Kingdom. Epidemiol Infect 132: 765-767. or even no isolation of Hib (Thomas et al. 2011Thomas JD, Jackson ML, Sharma D, Mair R, Bach MC, Castillo D, Ejigiri OG, Satola S, Cohn AC, Jerris R, Shabnam J, Farley MM, Mayer L, Messonnier M 2011. Haemophilus influenzae type b carriage among young children in Metropolitan Atlanta in the context of vaccine shortage and booster dose Desferral. Clin Vaccine Immunol 18: 2178-2180., Lowther et al. 2012)Lowther SA, Shinoda N, Juni BA, Theodore MJ, Wang X, Jawahir SL, Jackson ML, Cohn A, Danila R, Lynfield R, The Hib Survey Team 2012.Haemophilus influenzae type b infection, vaccination andH. influenzae carriage in children in Minnesota, 2008-2009.Epidemiol Infect 140: 566-574.. On the other hand, persistence of Hib carriage in specific vaccinated children (e.g., Alaskan children) has been observed (Galil et al. 1999Galil K, Singleton R, Levine OS, Fitzqerald MA, Bulkow L, Getty M, Perkins BA, Parkinson A 1999. Reemergence of invasive Haemophilus influenzae type b disease in a well-vaccinated population in remote Alaska. J Infect Dis 179: 101-106., Perdue et al. 2000Perdue DG, Bulkow LR, Gellin BG, Davidson M, Petersen KM, Singleton RJ, Parkinson AJ 2000. Invasive Haemophilus influenzae disease in Alaska residents aged 10 years and older before and after infant vaccination programs. JAMA 283: 3089-3094., Singleton et al. 2000)Singleton R, Bulkow LR, Levine OS, Butler JC, Hennessy TW, Parkinson A 2000. Experience with prevention of invasive Haemophilus influenzae type b disease by vaccination in Alaska: the impact of persistent oropharyngeal carriage. J Pediatr 137: 313-320.. Similar to studies conducted in other locations, we observed a high prevalence of NTHi colonisation, which was significantly higher among older children, while non-b encapsulate Hi was far less prevalent (Raymond et al. 2001Raymond J, Armand-Lefevre L, Moulin F, Dabernat H, Commeau A, Gendrel D, Berche P 2001. Nasopharyngeal colonization by Haemophilus influenzae in children living in an orphanage. Pediatr Infect Dis J 20: 779-784., Barbosa-Cesnik et al. 2006Barbosa-Cesnik C, Farjo RS, Patel M, Gilsdorf J, McCoy SI, Pettigrew MM, Marrs C, Foxman B 2006. Predictors for Haemophilus influenzae colonization, antibiotic resistance and for sharing an identical isolate among children attending 16 licensed day-care centers in Michigan. Pediatr Infect Dis J 25: 219-223., Sá-Leão et al. 2008Sá-Leão R, Nunes S, Brito-Avô A, Alves CR, Carriço JA, Saldanha J, Santos-Sanches I, de Lencastre H 2008. High rates of transmission of and colonization by Streptococcus pneumoniae andHaemophilus influenzae within a day care center revealed in a longitudinal study. J Clin Microbiol 46: 225-234., Carvalho et al. 2011Carvalho CX, Kipnis A, Thörn L, Andrade JG, Pimenta F, Brandileone MCC, Zanella RC, Flannery B, Sgambatti S, Andrade AL 2011. Carriage ofHaemophilus influenzae among Brazilian children attending day care centers in the era of widespread Hib vaccination. Vaccine 29: 1438-1442., Puig et al. 2014)Puig C, Martil S, Fleites A, Trabazo R, Calatayud L, Liñares J, Ardanuy C 2014. Oropharyngeal colonization by nontypable Haemophilus influenzae among healthy children attending day care centers.Microb Drug Resist 5: 450-455.. Interestingly, in the present study, the prevalence of carriers with Hib, Hia and Hie were similar, while Hic, Hid and Hif were rarely isolated. Globally, NTHi is an important cause of otitis media during childhood (Murphy et al. 2009)Murphy TF, Faden H, Bakaletz LO, Kyd JM, Forsgren A, Campos J, Virji M, Pelton SI 2009. Nontypeable Haemophilus influenzae as pathogen in children. Pediatr Infect Dis J 28: 43-48., although it is less frequent as a cause of invasive disease. Nevertheless, after introduction of Hib vaccination, a relative increase in the number of cases of invasive disease caused by NTHi as well as encapsulate non-b Hi has been reported, mainly in populations with co-morbidities (Bajanca et al. 2004Bajanca P, Canica M, Multicenter Study Group 2004. Emergence of non-encapsulated and encapsulated non-b-type invasive Haemophilus influenzae isolates in Portugal (1989-2001). J Clin Microbiol 42: 807-810., Campos et al. 2004Campos J, Hernando M, Román F, Pérez-Vázquez M, Aracil B, Oteo J, Lázaro E, de Abajo F, Group of Invasive Haemophilus Infections of the Autonomous Community of Madrid, Spain2004. Analysis of invasive Haemophilus influenzae infections after extensive vaccination againstH. influenzae type b. J Clin Microbiol 42: 524-529., Bruce et al. 2008Bruce MG, Deeks SL, Zulz T, Navarro C, Palacios C, Case C, Hemsley C, Hennessy T, Corriveau A, Lovgren M, DeByle C, Tsang R, Parkinson AJ, International Circumpolar Surveillance Hia Working Group 2008. EpidemiologyHaemophilus influenzae serotypes a, North American Arctic, 2000-2005. Emerg Infect Dis 14: 48-55., Adam et al. 2010Adam HJ, Richardson SE, Jamieson FB, Rawte P, Low DE, Fisman D 2010. Changing epidemiology of invasive Haemophilus influenzae in Ontario, Canadá: evidence for herd effects and strain replacement due to Hib vaccination. Vaccine 28: 4073-4078., Giufrè et al. 2011Giufrè M, Cardines R, Caporali MG, Accogli M, D’Ancona F, Cerquetti M 2011. Ten years of Hib vaccination in Italy: prevalence of non-encapsulatedHaemophilus influenzae among invasive isolates and the possible impact on antibiotic resistance. Vaccine 29: 3857-3862., Ladhani et al. 2012)Ladhani SN, Collins S, Vickers A, Litt DJ, Crawford C, Ramsay ME, Slack MPE 2012. Invasive Haemophilus influenzae serotype e and f disease, England and Wales. Emerg Infect Dis 18: 725-732.. In Brazil, an increased number of NTHi as well as Hia and Hif as causes of meningitis was associated with the improvement of laboratorial surveillance in the post-Hib vaccine period, rather than dissemination of non-b Hi in the population (Zanella et al. 2011)Zanella RC, Bokermann S, Andrade ALSS, Flannery B, Brandileone MC 2011. Changes in serotype distribution of Haemophilus influenzae meningitis isolates identified through laboratory-based surveillance following routine childhood vaccination against H. influenzae type in Brazil. Vaccine 29: 8937-8942.. Thus, these findings need to be monitored further and more extensively evaluated.

With regard to Hi antimicrobial resistance, we observed low resistance to AMP (16.5%) and CHO (3.6%). Comparable rates have been observed in the past several years (2010-2013) among invasive Hi isolates from Brazilian children up to five years of age (AMP: 18.3%; CHO: 6.3%) (Zanella et al. 2011Zanella RC, Bokermann S, Andrade ALSS, Flannery B, Brandileone MC 2011. Changes in serotype distribution of Haemophilus influenzae meningitis isolates identified through laboratory-based surveillance following routine childhood vaccination against H. influenzae type in Brazil. Vaccine 29: 8937-8942., SIREVA II 2014SIREVA II - Sistema de Redes de Vigilancia de los Agentes Responsables de Neumonias y Meningitis Bacterianas II 2014. Informe Regional del SIREVA II: datos por país y por grupos de edad sobre las características de los aislamientos de Streptococcus pneumoniae, Haemophilus influenzae y Neisseria meningitidis en procesos invasores SIREVA II. Available from: http://paho.org/hq/index.php?option=com_content&view=category&id=3609&layout=blog& Itemid=3953&lang=pt.
http://paho.org/hq/index.php?option=com_... ). In spite of differences among study methodologies and settings, high rates of AMP resistance in health young children have been reported in Spain (24%) (Puig et al. 2014Puig C, Martil S, Fleites A, Trabazo R, Calatayud L, Liñares J, Ardanuy C 2014. Oropharyngeal colonization by nontypable Haemophilus influenzae among healthy children attending day care centers.Microb Drug Resist 5: 450-455.), India (22.9%) (Jain et al. 2005Jain A, Kumar P, Awasthi S 2005. High nasopharyngeal carriage of drug resistant Streptococcus pneumoniae and Haemophilus influenzae in North Indian schoolchildren. Trop Med Int Health 3: 234-239.) and other countries (Rennie & Ibrahim 2005Rennie RP, Ibrahim KH 2005. Antimicrobial resistance inHaemophilus influenzae: how can we prevent the inevitable? Commentary on antimicrobial resistance in H. influenzae based on data from the TARGETed Surveillance Program. Clin Infect Dis(Suppl. 4): 234-238.), which prompts us to be wary because the nasopharynx is the ecological niche for the acquisition of new Hi strains and exchange of resistance genes.

Our findings showed that the Hib carrier rate in healthy children under five years was very low after 10 years of the introduction of the Hib vaccine. Monitoring of Hib carriage is recommended to evaluate the transmission of Hib and should be coordinated with early intervention to effectively control the recurrence of invasive Hib disease.

ACKNOWLEDGEMENTS

To all children, for participating in the study, to the directors of PHUs, for facilities used during sample collection, to Terezinha M de Paiva and Renato de S Paulino, from the Virology Center of Adolfo Lutz Institute, for the training of nurses in collecting NP samples, to Margaretti Dominguez and Mariangela Nepomuceno, for collecting information and samples, to Marta Galhardo, Maria V Paiva, Conceição M Zanellato, Sérgio Bokermann, Maria-Luiza LS Guerra, Lincoln S Prado and Gabriela R Francisco, for technical work, to Eliseu Waldmann, for assistance on database design, to Jussara HC Linchtenstein, for secretarial support, to Maria da Gloria Carvalho, Jennifer Verani and Brendan Flannery, from the Centers for Disease Control and Prevention, for the helpful discussions and for providing key supplies for this study, and to the Pan-American Health Organization.

REFERENCES

Adam HJ, Richardson SE, Jamieson FB, Rawte P, Low DE, Fisman D 2010. Changing epidemiology of invasive Haemophilus influenzae in Ontario, Canadá: evidence for herd effects and strain replacement due to Hib vaccination. Vaccine 28: 4073-4078.
Bajanca P, Canica M, Multicenter Study Group 2004. Emergence of non-encapsulated and encapsulated non-b-type invasive Haemophilus influenzae isolates in Portugal (1989-2001). J Clin Microbiol 42: 807-810.
Barbosa-Cesnik C, Farjo RS, Patel M, Gilsdorf J, McCoy SI, Pettigrew MM, Marrs C, Foxman B 2006. Predictors for Haemophilus influenzae colonization, antibiotic resistance and for sharing an identical isolate among children attending 16 licensed day-care centers in Michigan. Pediatr Infect Dis J 25: 219-223.
Barbour ML 1996. Conjugate vaccines and the carriage ofHaemophilus influenzae type b. Emerg Infect Dis 2: 176-182.
Bricks LF, Mendes CMF, Lucarevschi BR, Oplustil CP, Zanella RC, Bori A, Bertoli CJ 2004. Oropharyngeal colonization by Haemophilus influenzae in healthy children from Taubaté (São Paulo), prior toHaemophilus influenzae type b vaccination program in Brazil. Rev Hosp Clin Fac Med Sao Paulo 59: 236-243.
Bruce MG, Deeks SL, Zulz T, Navarro C, Palacios C, Case C, Hemsley C, Hennessy T, Corriveau A, Lovgren M, DeByle C, Tsang R, Parkinson AJ, International Circumpolar Surveillance Hia Working Group 2008. EpidemiologyHaemophilus influenzae serotypes a, North American Arctic, 2000-2005. Emerg Infect Dis 14: 48-55.
Campos J, Hernando M, Román F, Pérez-Vázquez M, Aracil B, Oteo J, Lázaro E, de Abajo F, Group of Invasive Haemophilus Infections of the Autonomous Community of Madrid, Spain2004. Analysis of invasive Haemophilus influenzae infections after extensive vaccination againstH. influenzae type b. J Clin Microbiol 42: 524-529.
Carvalho CX, Kipnis A, Thörn L, Andrade JG, Pimenta F, Brandileone MCC, Zanella RC, Flannery B, Sgambatti S, Andrade AL 2011. Carriage ofHaemophilus influenzae among Brazilian children attending day care centers in the era of widespread Hib vaccination. Vaccine 29: 1438-1442.
CLSI - Clinical and Laboratory Standards Institute 2009.Performance standards for antimicrobial susceptibility testing Document M100-S19, CLSI, Wayne, 156 pp.
CVE - Centro de Vigilância Epidemiológica Prof. Alexandre Vranjac 2014. Meningites por Haemophilus influenzae b: casos, coeficientes de incidência (por 100.000 hab) e porcentagens segundo faixa etária, estado de São Paulo, 1998 a 2013. Available from: http://cve.saude.sp.gov.br/htm/cve_meni.html.
» http://cve.saude.sp.gov.br/htm/cve_meni.html
Falla TJ, Crook DW, Anderson EC, Ward JI, Santosham M, Eskola J, Moxon ER 1995. Characterization of capsular genes in Haemophilus influenzae type b vaccine recipients. J Infect Dis 171: 1075-1076.
Forleo-Neto E, Oliveira CF, Maluf EMCP, Bataglin C, Araujo JMR, Kunz Jr LF, Pustai AK, Vieira VSD, Zanella RC, Brandileone MCC, Mimica LMJ, Mimica IM 1999. Decreased point prevalence of Haemophilus influenzae type b (Hib) oropharyngeal colonization by mass immunization of Brazilian children less than 5 years of age with Hib polyrribosylribitol phosphate polysaccharide-tetanus toxoid conjugate vaccine in combination with diphtheria-tetanus-toxoids-pertussis vaccine. J Infect Dis 180: 1153-1158.
Galil K, Singleton R, Levine OS, Fitzqerald MA, Bulkow L, Getty M, Perkins BA, Parkinson A 1999. Reemergence of invasive Haemophilus influenzae type b disease in a well-vaccinated population in remote Alaska. J Infect Dis 179: 101-106.
Garcia S, Lagos R, Muñoz A, Picón T, Rosa R, Alfonso A, Abriata A, Gentile A, Romanin V, Regueira M, Chiavetta L, Agudelo CI, Castañeda E, De La Hoz F, Higuera AB, Arce P, Cohen AL, Verani J, Zuber P, Gabastou JM, Pastor D, Flannary B, Andrus J 2012. Impact of vaccination against Haemophilus influenzae type b with and without a booster dose on meningitis in four South American countries. Vaccine 30: 486-492.
Giufrè M, Cardines R, Caporali MG, Accogli M, D’Ancona F, Cerquetti M 2011. Ten years of Hib vaccination in Italy: prevalence of non-encapsulatedHaemophilus influenzae among invasive isolates and the possible impact on antibiotic resistance. Vaccine 29: 3857-3862.
IBGE - Instituto Brasileiro de Geografia e Estatística 2010. População residente, total, urbana total e urbana na sede municipal, em números absolutos e relativos, com indicação da área total e densidade demográfica, segundo as unidades de federação e os municípios - 2010. Available from: http://censo2010.ibge.gov.br/sinopse/index.php?dados=21&uf=35.
» http://censo2010.ibge.gov.br/sinopse/index.php?dados=21&uf=35
Jacups SP 2011. The continuing role of Haemophilus influenzae type b carriage surveillance as a mechanism for early detection of invasive disease activity. Human Vaccines 12: 1254-1260.
Jain A, Kumar P, Awasthi S 2005. High nasopharyngeal carriage of drug resistant Streptococcus pneumoniae and Haemophilus influenzae in North Indian schoolchildren. Trop Med Int Health 3: 234-239.
Ladhani SN, Collins S, Vickers A, Litt DJ, Crawford C, Ramsay ME, Slack MPE 2012. Invasive Haemophilus influenzae serotype e and f disease, England and Wales. Emerg Infect Dis 18: 725-732.
Lowther SA, Shinoda N, Juni BA, Theodore MJ, Wang X, Jawahir SL, Jackson ML, Cohn A, Danila R, Lynfield R, The Hib Survey Team 2012.Haemophilus influenzae type b infection, vaccination andH. influenzae carriage in children in Minnesota, 2008-2009.Epidemiol Infect 140: 566-574.
MacVernon J, Howard AJ, Slack MP, Ramsay ME 2004. Long-term impact of vaccination on Haemophilus influenzae type b (Hib) carriage in the United Kingdom. Epidemiol Infect 132: 765-767.
Millar EV, O’Brien KL, Levine OS, Kvamme S, Reid R, Santosham M 2000. Toward elimination of Haemophilus influenzae type B carriage and disease among high-risk American Indian children. Am J Public Health 90: 1550-1554.
Mohle-Boetani JC, Ajello G, Breneman E, Deaver KA, Harvey C, Plikaytis B, Farley MM, Stephens DS, Wenger JD 1993. Carriage ofHaemophilus influenzae type b in children after widespread vaccination with conjugate Haemophilus influenzae type b vaccine. Pediatr Infect Dis J 12: 589-593.
Moxon ER 1986. The carrier state: Haemophilus influenzae J Antimicrob Chemother 18: 17-24.
MS/SVS/PNI - Ministério da Saúde/Secretaria de Vigilância em Saúde/Programa Nacional de Imunização 2010. DATASUS - Sistema de Informação do Programa Nacional de Imunizações. Available from: http://tabnet.datasus.gov.br/cgi/deftohtm.exe?pni/cnv/cpniuf.def.
» http://tabnet.datasus.gov.br/cgi/deftohtm.exe?pni/cnv/cpniuf.def
Murphy TF, Faden H, Bakaletz LO, Kyd JM, Forsgren A, Campos J, Virji M, Pelton SI 2009. Nontypeable Haemophilus influenzae as pathogen in children. Pediatr Infect Dis J 28: 43-48.
Murphy TV, Pastor P, Medley F, Osterholm MT, Granoff DM 1993. Decreased Haemophilus colonization in children vaccinated withHaemophilus influenzae type b conjugate vaccine. J Pediatr 122: 517-523.
O’Brien KL, Bronsdon MA, Dagan R, Yagupsky P, Janco J, Elliott J, Whitney CG, Yong-Hong Y, Robinson LGE, Schwartz B, Carlone GM 2001. Evaluation of a medium (STGG) for transport and optimal recovery of Streptococcus pneumoniae from nasopharyngeal secretions collected during field studies. J Clin Microbiol 39: 1021-1024.
O’Brien KL, Nohynek H, World Health Organization Pneumococcal Vaccine Trials Carriage Working Group 2003. Report from a WHO Working Group: standard method for detecting upper respiratory carriage ofStreptococcus pneumoniae Pediatr Infect Dis J 22: e1-e11.
Perdue DG, Bulkow LR, Gellin BG, Davidson M, Petersen KM, Singleton RJ, Parkinson AJ 2000. Invasive Haemophilus influenzae disease in Alaska residents aged 10 years and older before and after infant vaccination programs. JAMA 283: 3089-3094.
Puig C, Martil S, Fleites A, Trabazo R, Calatayud L, Liñares J, Ardanuy C 2014. Oropharyngeal colonization by nontypable Haemophilus influenzae among healthy children attending day care centers.Microb Drug Resist 5: 450-455.
Raymond J, Armand-Lefevre L, Moulin F, Dabernat H, Commeau A, Gendrel D, Berche P 2001. Nasopharyngeal colonization by Haemophilus influenzae in children living in an orphanage. Pediatr Infect Dis J 20: 779-784.
Rennie RP, Ibrahim KH 2005. Antimicrobial resistance inHaemophilus influenzae: how can we prevent the inevitable? Commentary on antimicrobial resistance in H. influenzae based on data from the TARGETed Surveillance Program. Clin Infect Dis(Suppl. 4): 234-238.
Sá-Leão R, Nunes S, Brito-Avô A, Alves CR, Carriço JA, Saldanha J, Santos-Sanches I, de Lencastre H 2008. High rates of transmission of and colonization by Streptococcus pneumoniae andHaemophilus influenzae within a day care center revealed in a longitudinal study. J Clin Microbiol 46: 225-234.
Silva MENB, Silva P, Medeiros MIC, Neme SN, Macedo C, Marin JM 2006. Nasopharyngeal colonization by Haemophilus influenzae in children attending day-care centers in Ribeirão Preto, state of São Paulo, Brazil. Braz J Microbiol 37: 33-38.
Singleton R, Bulkow LR, Levine OS, Butler JC, Hennessy TW, Parkinson A 2000. Experience with prevention of invasive Haemophilus influenzae type b disease by vaccination in Alaska: the impact of persistent oropharyngeal carriage. J Pediatr 137: 313-320.
SIREVA II - Sistema de Redes de Vigilancia de los Agentes Responsables de Neumonias y Meningitis Bacterianas II 2014. Informe Regional del SIREVA II: datos por país y por grupos de edad sobre las características de los aislamientos de Streptococcus pneumoniae, Haemophilus influenzae y Neisseria meningitidis en procesos invasores SIREVA II. Available from: http://paho.org/hq/index.php?option=com_content&view=category&id=3609&layout=blog& Itemid=3953&lang=pt.
» http://paho.org/hq/index.php?option=com_content&view=category&id=3609&layout=blog& Itemid=3953&lang=pt
Takala AK, Eskola J, Leinonen M, Käyhty H, Nissinen A, Pekkanen E, Mäkelä PH 1991. Reduction of oropharyngeal carriage of Haemophilus influenzae type b (Hib) in children immunized with a Hib conjugate vaccine. J Infect Dis 164: 982-986.
Thomas JD, Jackson ML, Sharma D, Mair R, Bach MC, Castillo D, Ejigiri OG, Satola S, Cohn AC, Jerris R, Shabnam J, Farley MM, Mayer L, Messonnier M 2011. Haemophilus influenzae type b carriage among young children in Metropolitan Atlanta in the context of vaccine shortage and booster dose Desferral. Clin Vaccine Immunol 18: 2178-2180.
van Ketel RJ, de Wever B, van Alphen L 1990. Detection ofHaemophilus influenzae in cerebrospinal fluids by polymerase chain reaction DNA amplification. J Med Microbiol 33: 271-276.
Wang X, Theodore MJ, Mair R, Trujillo-Lopez E, du Plessis M, Wolter N, Baughman AL, Hatcher C, Vuong J, Lott L, von Gottberg A, Sacchi C, McDonald JM, Messonnier M, Mayer L 2012. Clinical validation of multiplex real-time PCR assays for detection of bacterial meningitis pathogens. J Clin Microbiol 50: 702-708.
WHO - World Health Organization 2010. Recommendations for routine immunization - summary tables. Available from: http://who.int/immunization/policy/Immunization_routine_table2.pdf?ua=1.
» http://who.int/immunization/policy/Immunization_routine_table2.pdf?ua=1
Zanella RC, Bokermann S, Andrade ALSS, Flannery B, Brandileone MC 2011. Changes in serotype distribution of Haemophilus influenzae meningitis isolates identified through laboratory-based surveillance following routine childhood vaccination against H. influenzae type in Brazil. Vaccine 29: 8937-8942.

Financial support: IAL/Centre of Epidemiologic Surveillance/SES-SP, CNPq [to MCCB (302175/2010-5) and ALA (306096/2010-2)]

Publication Dates

Publication in this collection
Sept 2015

History

Received
9 Apr 2015
Accepted
14 Aug 2015

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Adam HJ, Richardson SE, Jamieson FB, Rawte P, Low DE, Fisman D 2010. Changing epidemiology of invasive Haemophilus influenzae in Ontario, Canadá: evidence for herd effects and strain replacement due to Hib vaccination. Vaccine 28: 4073-4078.

[2] Bajanca P, Canica M, Multicenter Study Group 2004. Emergence of non-encapsulated and encapsulated non-b-type invasive Haemophilus influenzae isolates in Portugal (1989-2001). J Clin Microbiol 42: 807-810.

[3] Barbosa-Cesnik C, Farjo RS, Patel M, Gilsdorf J, McCoy SI, Pettigrew MM, Marrs C, Foxman B 2006. Predictors for Haemophilus influenzae colonization, antibiotic resistance and for sharing an identical isolate among children attending 16 licensed day-care centers in Michigan. Pediatr Infect Dis J 25: 219-223.

[4] Barbour ML 1996. Conjugate vaccines and the carriage ofHaemophilus influenzae type b. Emerg Infect Dis 2: 176-182.

[5] Bricks LF, Mendes CMF, Lucarevschi BR, Oplustil CP, Zanella RC, Bori A, Bertoli CJ 2004. Oropharyngeal colonization by Haemophilus influenzae in healthy children from Taubaté (São Paulo), prior toHaemophilus influenzae type b vaccination program in Brazil. Rev Hosp Clin Fac Med Sao Paulo 59: 236-243.

[6] Bruce MG, Deeks SL, Zulz T, Navarro C, Palacios C, Case C, Hemsley C, Hennessy T, Corriveau A, Lovgren M, DeByle C, Tsang R, Parkinson AJ, International Circumpolar Surveillance Hia Working Group 2008. EpidemiologyHaemophilus influenzae serotypes a, North American Arctic, 2000-2005. Emerg Infect Dis 14: 48-55.

[7] Campos J, Hernando M, Román F, Pérez-Vázquez M, Aracil B, Oteo J, Lázaro E, de Abajo F, Group of Invasive Haemophilus Infections of the Autonomous Community of Madrid, Spain2004. Analysis of invasive Haemophilus influenzae infections after extensive vaccination againstH. influenzae type b. J Clin Microbiol 42: 524-529.

[8] Carvalho CX, Kipnis A, Thörn L, Andrade JG, Pimenta F, Brandileone MCC, Zanella RC, Flannery B, Sgambatti S, Andrade AL 2011. Carriage ofHaemophilus influenzae among Brazilian children attending day care centers in the era of widespread Hib vaccination. Vaccine 29: 1438-1442.

[9] CLSI - Clinical and Laboratory Standards Institute 2009.Performance standards for antimicrobial susceptibility testing Document M100-S19, CLSI, Wayne, 156 pp.

[10] CVE - Centro de Vigilância Epidemiológica Prof. Alexandre Vranjac 2014. Meningites por Haemophilus influenzae b: casos, coeficientes de incidência (por 100.000 hab) e porcentagens segundo faixa etária, estado de São Paulo, 1998 a 2013. Available from: http://cve.saude.sp.gov.br/htm/cve_meni.html.
» http://cve.saude.sp.gov.br/htm/cve_meni.html

[11] Falla TJ, Crook DW, Anderson EC, Ward JI, Santosham M, Eskola J, Moxon ER 1995. Characterization of capsular genes in Haemophilus influenzae type b vaccine recipients. J Infect Dis 171: 1075-1076.

[12] Forleo-Neto E, Oliveira CF, Maluf EMCP, Bataglin C, Araujo JMR, Kunz Jr LF, Pustai AK, Vieira VSD, Zanella RC, Brandileone MCC, Mimica LMJ, Mimica IM 1999. Decreased point prevalence of Haemophilus influenzae type b (Hib) oropharyngeal colonization by mass immunization of Brazilian children less than 5 years of age with Hib polyrribosylribitol phosphate polysaccharide-tetanus toxoid conjugate vaccine in combination with diphtheria-tetanus-toxoids-pertussis vaccine. J Infect Dis 180: 1153-1158.

[13] Galil K, Singleton R, Levine OS, Fitzqerald MA, Bulkow L, Getty M, Perkins BA, Parkinson A 1999. Reemergence of invasive Haemophilus influenzae type b disease in a well-vaccinated population in remote Alaska. J Infect Dis 179: 101-106.

[14] Garcia S, Lagos R, Muñoz A, Picón T, Rosa R, Alfonso A, Abriata A, Gentile A, Romanin V, Regueira M, Chiavetta L, Agudelo CI, Castañeda E, De La Hoz F, Higuera AB, Arce P, Cohen AL, Verani J, Zuber P, Gabastou JM, Pastor D, Flannary B, Andrus J 2012. Impact of vaccination against Haemophilus influenzae type b with and without a booster dose on meningitis in four South American countries. Vaccine 30: 486-492.

[15] Giufrè M, Cardines R, Caporali MG, Accogli M, D’Ancona F, Cerquetti M 2011. Ten years of Hib vaccination in Italy: prevalence of non-encapsulatedHaemophilus influenzae among invasive isolates and the possible impact on antibiotic resistance. Vaccine 29: 3857-3862.

[16] IBGE - Instituto Brasileiro de Geografia e Estatística 2010. População residente, total, urbana total e urbana na sede municipal, em números absolutos e relativos, com indicação da área total e densidade demográfica, segundo as unidades de federação e os municípios - 2010. Available from: http://censo2010.ibge.gov.br/sinopse/index.php?dados=21&uf=35.
» http://censo2010.ibge.gov.br/sinopse/index.php?dados=21&uf=35

[17] Jacups SP 2011. The continuing role of Haemophilus influenzae type b carriage surveillance as a mechanism for early detection of invasive disease activity. Human Vaccines 12: 1254-1260.

[18] Jain A, Kumar P, Awasthi S 2005. High nasopharyngeal carriage of drug resistant Streptococcus pneumoniae and Haemophilus influenzae in North Indian schoolchildren. Trop Med Int Health 3: 234-239.

[19] Ladhani SN, Collins S, Vickers A, Litt DJ, Crawford C, Ramsay ME, Slack MPE 2012. Invasive Haemophilus influenzae serotype e and f disease, England and Wales. Emerg Infect Dis 18: 725-732.

[20] Lowther SA, Shinoda N, Juni BA, Theodore MJ, Wang X, Jawahir SL, Jackson ML, Cohn A, Danila R, Lynfield R, The Hib Survey Team 2012.Haemophilus influenzae type b infection, vaccination andH. influenzae carriage in children in Minnesota, 2008-2009.Epidemiol Infect 140: 566-574.

[21] MacVernon J, Howard AJ, Slack MP, Ramsay ME 2004. Long-term impact of vaccination on Haemophilus influenzae type b (Hib) carriage in the United Kingdom. Epidemiol Infect 132: 765-767.

[22] Millar EV, O’Brien KL, Levine OS, Kvamme S, Reid R, Santosham M 2000. Toward elimination of Haemophilus influenzae type B carriage and disease among high-risk American Indian children. Am J Public Health 90: 1550-1554.

[23] Mohle-Boetani JC, Ajello G, Breneman E, Deaver KA, Harvey C, Plikaytis B, Farley MM, Stephens DS, Wenger JD 1993. Carriage ofHaemophilus influenzae type b in children after widespread vaccination with conjugate Haemophilus influenzae type b vaccine. Pediatr Infect Dis J 12: 589-593.

[24] Moxon ER 1986. The carrier state: Haemophilus influenzae J Antimicrob Chemother 18: 17-24.

[25] MS/SVS/PNI - Ministério da Saúde/Secretaria de Vigilância em Saúde/Programa Nacional de Imunização 2010. DATASUS - Sistema de Informação do Programa Nacional de Imunizações. Available from: http://tabnet.datasus.gov.br/cgi/deftohtm.exe?pni/cnv/cpniuf.def.
» http://tabnet.datasus.gov.br/cgi/deftohtm.exe?pni/cnv/cpniuf.def

[26] Murphy TF, Faden H, Bakaletz LO, Kyd JM, Forsgren A, Campos J, Virji M, Pelton SI 2009. Nontypeable Haemophilus influenzae as pathogen in children. Pediatr Infect Dis J 28: 43-48.

[27] Murphy TV, Pastor P, Medley F, Osterholm MT, Granoff DM 1993. Decreased Haemophilus colonization in children vaccinated withHaemophilus influenzae type b conjugate vaccine. J Pediatr 122: 517-523.

[28] O’Brien KL, Bronsdon MA, Dagan R, Yagupsky P, Janco J, Elliott J, Whitney CG, Yong-Hong Y, Robinson LGE, Schwartz B, Carlone GM 2001. Evaluation of a medium (STGG) for transport and optimal recovery of Streptococcus pneumoniae from nasopharyngeal secretions collected during field studies. J Clin Microbiol 39: 1021-1024.

[29] O’Brien KL, Nohynek H, World Health Organization Pneumococcal Vaccine Trials Carriage Working Group 2003. Report from a WHO Working Group: standard method for detecting upper respiratory carriage ofStreptococcus pneumoniae Pediatr Infect Dis J 22: e1-e11.

[30] Perdue DG, Bulkow LR, Gellin BG, Davidson M, Petersen KM, Singleton RJ, Parkinson AJ 2000. Invasive Haemophilus influenzae disease in Alaska residents aged 10 years and older before and after infant vaccination programs. JAMA 283: 3089-3094.

[31] Puig C, Martil S, Fleites A, Trabazo R, Calatayud L, Liñares J, Ardanuy C 2014. Oropharyngeal colonization by nontypable Haemophilus influenzae among healthy children attending day care centers.Microb Drug Resist 5: 450-455.

[32] Raymond J, Armand-Lefevre L, Moulin F, Dabernat H, Commeau A, Gendrel D, Berche P 2001. Nasopharyngeal colonization by Haemophilus influenzae in children living in an orphanage. Pediatr Infect Dis J 20: 779-784.

[33] Rennie RP, Ibrahim KH 2005. Antimicrobial resistance inHaemophilus influenzae: how can we prevent the inevitable? Commentary on antimicrobial resistance in H. influenzae based on data from the TARGETed Surveillance Program. Clin Infect Dis(Suppl. 4): 234-238.

[34] Sá-Leão R, Nunes S, Brito-Avô A, Alves CR, Carriço JA, Saldanha J, Santos-Sanches I, de Lencastre H 2008. High rates of transmission of and colonization by Streptococcus pneumoniae andHaemophilus influenzae within a day care center revealed in a longitudinal study. J Clin Microbiol 46: 225-234.

[35] Silva MENB, Silva P, Medeiros MIC, Neme SN, Macedo C, Marin JM 2006. Nasopharyngeal colonization by Haemophilus influenzae in children attending day-care centers in Ribeirão Preto, state of São Paulo, Brazil. Braz J Microbiol 37: 33-38.

[36] Singleton R, Bulkow LR, Levine OS, Butler JC, Hennessy TW, Parkinson A 2000. Experience with prevention of invasive Haemophilus influenzae type b disease by vaccination in Alaska: the impact of persistent oropharyngeal carriage. J Pediatr 137: 313-320.

[37] SIREVA II - Sistema de Redes de Vigilancia de los Agentes Responsables de Neumonias y Meningitis Bacterianas II 2014. Informe Regional del SIREVA II: datos por país y por grupos de edad sobre las características de los aislamientos de Streptococcus pneumoniae, Haemophilus influenzae y Neisseria meningitidis en procesos invasores SIREVA II. Available from: http://paho.org/hq/index.php?option=com_content&view=category&id=3609&layout=blog& Itemid=3953&lang=pt.
» http://paho.org/hq/index.php?option=com_content&view=category&id=3609&layout=blog& Itemid=3953&lang=pt

[38] Takala AK, Eskola J, Leinonen M, Käyhty H, Nissinen A, Pekkanen E, Mäkelä PH 1991. Reduction of oropharyngeal carriage of Haemophilus influenzae type b (Hib) in children immunized with a Hib conjugate vaccine. J Infect Dis 164: 982-986.

[39] Thomas JD, Jackson ML, Sharma D, Mair R, Bach MC, Castillo D, Ejigiri OG, Satola S, Cohn AC, Jerris R, Shabnam J, Farley MM, Mayer L, Messonnier M 2011. Haemophilus influenzae type b carriage among young children in Metropolitan Atlanta in the context of vaccine shortage and booster dose Desferral. Clin Vaccine Immunol 18: 2178-2180.

[40] van Ketel RJ, de Wever B, van Alphen L 1990. Detection ofHaemophilus influenzae in cerebrospinal fluids by polymerase chain reaction DNA amplification. J Med Microbiol 33: 271-276.

[41] Wang X, Theodore MJ, Mair R, Trujillo-Lopez E, du Plessis M, Wolter N, Baughman AL, Hatcher C, Vuong J, Lott L, von Gottberg A, Sacchi C, McDonald JM, Messonnier M, Mayer L 2012. Clinical validation of multiplex real-time PCR assays for detection of bacterial meningitis pathogens. J Clin Microbiol 50: 702-708.

[42] WHO - World Health Organization 2010. Recommendations for routine immunization - summary tables. Available from: http://who.int/immunization/policy/Immunization_routine_table2.pdf?ua=1.
» http://who.int/immunization/policy/Immunization_routine_table2.pdf?ua=1

[43] Zanella RC, Bokermann S, Andrade ALSS, Flannery B, Brandileone MC 2011. Changes in serotype distribution of Haemophilus influenzae meningitis isolates identified through laboratory-based surveillance following routine childhood vaccination against H. influenzae type in Brazil. Vaccine 29: 8937-8942.

Hi carrier status	Total (n = 2,558)	Age groups (months)
	Total (n = 2,558)	12-< 24 (n = 1,379)	48-< 60 (n = 1,179)

	n (%)	n (%)	n (%)	p
Carrier	1,153 (45.1)	517 (37.5)	636 (53.9)	< 0.001

b	16 (0.6)	11 (0.8)	5 (0.4)	> 0.05
a	16 (0.6)	6 (0.4)	10 (0.8)	> 0.05
c	3 (0.1)	1 (0.1)	2 (0.2)	-
d	3 (0.1)	1 (0.1)	2 (0.2)	-
e	15 (0.6)	7 (0.5)	8 (0.7)	> 0.05
f	1 (0)	0 (0)	1 (0.1)	-
Encapsulate-Hi	54 (2.1)	26 (1.9)	28 (2.4)	> 0.05
NTHi	1,099 (43)	491 (35.6)	608 (51.6)	< 0.001
Non-Hi carrier	1,405 (54.9)	862 (62.5)	543 (46.1)	< 0.001

Brasil