Epidemiology and prevention of influenza in children in Argentina and Brazil

ABSTRACT

A group of influenza experts from Argentina and Brazil got together to discuss the burden of influenza in children, review current vaccine coverage rates in both countries, analyze vaccine effectiveness, and discuss strategies to improve prevention. Active surveillance of respiratory viruses is carried out nationwide in both countries. Years 2014 and 2015 were mild influenza seasons; influenza virus type A/H3N2 prevailed, whereas type B represented less than 30% of isolates. Trivalent inactivated influenza vaccine is included in National Immunization Programs for 1) children 6 months to 2 years old in Argentina; 2) children 6 months to 5 years old in Brazil; and 3) all high-risk individuals. Coverage rates in both countries were about 80% (albeit lower for the second dose). Experts from both countries proposed the following strategies to improve prevention: 1) increase surveillance; 2) assess effectiveness and long-term safety of influenza vaccines; 3) reinforce vaccination programs in order to increase coverage rates; and 4) consider introducing more effective vaccines, such as adjuvanted trivalent vaccines. In Argentina, estimating case-fatality rates was also recommended. Other proposed actions included enhancing education of health professionals and the lay community, and better use of communication resources to raise awareness of the burden of influenza and promote vaccine uptake.

Keywords
Orthomyxoviridae; pediatrics; influenza vaccines; Argentina; Brazil; South America

RESUMEN

Expertos en influenza de Argentina y Brasil reunidos en un grupo de trabajo evaluaron la carga de enfermedad de influenza en niños, analizaron las coberturas vacunales, la efectividad de las vacunas y discutieron estrategias para mejorar la prevención. En ambos países se realiza vigilancia de virus respiratorios en todo el territorio. Las últimas temporadas de gripe fueron leves, con predominio de influenza A H3N2, influenza B representó menos del 30% de los aislamientos (con co-circulación de ambos linajes). La vacuna de influenza inactivada trivalente está incluida en el Programa Nacional de Inmunizaciones en niños entre 6 meses-2 años en Argentina y hasta los 5 años en Brasil, y en niños mayores con factores de riesgo. Las coberturas alcanzan 80% (menor para la segunda dosis).

Las estrategias propuestas incluyen incrementar la vigilancia de la enfermedad y estimar la tasa de letalidad (Argentina), realizar vigilancia de efectividad y seguridad de las vacunas, fortalecer los programas para aumentar las coberturas y considerar incorporar nuevas vacunas más eficaces. También se discutieron acciones de educación, tanto en la comunidad como en los trabajadores de la salud, y de comunicación para concientizar sobre el impacto de influenza en la población y la importancia de su prevención.

Palabras clave
Orthomyxoviridae; pediatría; vacunas contra la influenza; Argentina; Brasil; América del Sur

RESUMO

Um grupo de especialistas em influenza da Argentina e do Brasil reuniu-se para discutir o ônus da influenza em crianças, analisar os índices de cobertura vacinal nos dois países, analisar a efetividade das vacinas e discutir estratégias para melhorar a prevenção. A vigilância ativa de vírus respiratórios é realizada em âmbito nacional em ambos os países. Nos anos 2014 e 2015, as temporadas de gripe foram leves; o tipo A/H3N2 do vírus da influenza prevaleceu, enquanto que o tipo B representou menos de 30% dos isolados. A vacina trivalente inativada contra a influenza está incluída nos programas nacionais de vacinação para 1) crianças de 6 meses a 2 anos de idade na Argentina; 2) crianças de 6 meses a 5 anos de idade no Brasil; e 3) todos os indivíduos de alto risco. As taxas de cobertura em ambos os países foram de aproximadamente 80% (porém menores para a segunda dose).

Os especialistas de ambos os países propuseram as seguintes estratégias para melhorar a prevenção: 1) aumentar a vigilância; 2) avaliar a efetividade e segurança a longo prazo das vacinas contra a influenza; 3) reforçar os programas de vacinação para aumentar as taxas de cobertura; e 4) considerar a possibilidade de introduzir vacinas mais eficazes, como as vacinas tríplices com adjuvante. Recomendou-se também calcular as taxas de letalidade na Argentina. Outras ações propostas incluíram melhorar a capacitação dos profissionais da saúde e da comunidade leiga e melhorar o uso de recursos em comunicação para aumentar a conscientização sobre o ônus da influenza e promover a vacinação.

Palavras-chave
Orthomyxoviridae; pediatria; vacinas contra influenza; Argentina; Brasil; América do Sul

Worldwide, influenza causes a substantial health burden in children, particularly infants and young children. In the United States, despite universal influenza immunization, reported hospitalizations rates for children in 2014–2015 were 50–60 per 100 000, and 100–170 influenza-related pediatric deaths occurred that same season (¹1 Centers for Disease Control and Prevention (US). FluView: Influenza Hospitalizations Surveillance Network [Internet]. Atlanta: CDC; 2015. Available from: https://gis.cdc.gov/GRASP/Fluview/FluHospRates.html Accessed on 1 November 2015
https://gis.cdc.gov/GRASP/Fluview/FluHos... ). Most hospitalizations (80%) were caused by influenza A subtype H3N2 (A/H3N2), but influenza B accounted for one-third of deaths (²2 Ambrose CS, Levin MJ. The rationale for quadrivalent influenza vaccines. Hum Vaccin Immunother. 2012;8(1):81–8.).

On November 18, 2015, influenza experts from Argentina and Brazil participated in a roundtable meeting in Rio de Janeiro to 1) assess the burden of influenza illness in children; 2) analyze vaccine coverage and vaccine effectiveness; and 3) discuss strategies to improve prevention. This article summarizes the results of the meeting (“Looking into the Future in the Prevention of Influenza in Children: How Will New Vaccines Provide Better Protection”), which was organized by a nonprofit organization known as FIDEC (Fighting Infectious Diseases in Emerging Countries) (Miami, Florida, United States). The working group of influenza experts discussed influenza epidemiology in Argentina and Brazil, influenza immunization programs, coverage rates, and evidence for vaccine effectiveness. The experts reviewed the rationale for routine immunization in children, discussed challenges in achieving effective control programs, and proposed strategies and actions to improve protection.

EPIDEMIOLOGY AND BURDEN OF INFLUENZA

Argentina

In Argentina, influenza surveillance data are provided by the National Laboratory Surveillance System (Sistema Nacional de Vigilancia de Salud, SNVS). In 2014, the system reported 2 308 influenza virus isolates (77% type A and 23% type B) (³3 Ministerio de Salud (AR). Boletín Integrado de Vigilancia. October 2015. Buenos Aires: MSAL; 2015. Available from: http://www.msal.gob.ar/images/stories/boletines/Boletin-Integrado-De-Vigilancia-N282-SE43.pdf Accessed on 9 November 2015.
http://www.msal.gob.ar/images/stories/bo... ). Up until epidemiological week 43 of 2015, the system reported 2 049 isolates: 91% type A (52% H3, 10% H1N1pdm09, and 38% not subtyped) and 9% type B (mainly Yamagata) (³3 Ministerio de Salud (AR). Boletín Integrado de Vigilancia. October 2015. Buenos Aires: MSAL; 2015. Available from: http://www.msal.gob.ar/images/stories/boletines/Boletin-Integrado-De-Vigilancia-N282-SE43.pdf Accessed on 9 November 2015.
http://www.msal.gob.ar/images/stories/bo... ).

The burden of influenza can be assessed through acute respiratory infection hospitalizations. At a children’s hospital in Buenos Aires (Hospital de Niños Ricardo Gutierrez), during 2000–2013, influenza accounted for 7% of all respiratory virus isolations (⁴4 Gentile A, Lucion F, Juarez M, Bakir J. Viral respiratory infections. Clinical epidemiological pattern in children admitted in a pediatric hospital during the years 2000-2013. Poster presented at the 54th Interscience Conference on Antimicrobial Agents and Chemotherapy (ICAAC), 5–9 September 2014, Washington, D.C., USA. Washington: American Society for Microbiology; 2014.). In a pharmaco-economic study at the same institution, estimated annual costs attributable to influenza in children under 5 years old ranged from US$ 250 000 to US$ 350 000 (⁵5 Giglio ND, Castellano VE, Rüttimann RW, Vidal GI, Gentile A. Epidemia de influenza del año 2009 en un hospital pediátrico y costos médicos directos en menores de 5 años comparados con el período 2006–2008. Arch Argent Pediatr. 2012;110(1):19–26.). Influenza mortality data are not available for the same period for Argentina.

Brazil

In Brazil, disease surveillance covers influenza-like illness (ILI) (at sentinel sites) and severe acute respiratory syndrome (SARS) (in patients admitted to intensive care units, and in universal SARS surveillance). In 2014–2015, the influenza seasons were mild (⁶6 Ministério da Saúde (BR). Boletim Epidemiológico. Influenza: monitoramento até a Semana Epidemiológica 52 de 2014. Brasília: MS; 2014. Available from: http://portalsaude.saude.gov.br/images/pdf/2015/janeiro/23/Boletim-Epidemiol--gico-Influenza-SE52-2014.pdf Accessed on 1 November 2015.
http://portalsaude.saude.gov.br/images/p... , ⁷7 Ministério da Saúde (BR). Boletim Epidemiológico. Influenza: monitoramento até a Semana Epidemiológica 42 de 2015. Brasília: MS; 2015. Available from: http://u.saude.gov.br/images/pdf/2015/novembro/03/Boletim-Epidemiol--gico-Influenza-SE42-2015.pdf Accessed on 1 November 2015.
http://u.saude.gov.br/images/pdf/2015/no... ), with type A/H3N2 predominant and late circulation of type B. In 2015, approximately 12 000 ILI samples were processed; 25% were positive for a respiratory virus, and 50% of those were influenza (55% A/H3N2, 30% B, 8% non-subtyped A, and 7% A/H1N1) (⁷7 Ministério da Saúde (BR). Boletim Epidemiológico. Influenza: monitoramento até a Semana Epidemiológica 42 de 2015. Brasília: MS; 2015. Available from: http://u.saude.gov.br/images/pdf/2015/novembro/03/Boletim-Epidemiol--gico-Influenza-SE42-2015.pdf Accessed on 1 November 2015.
http://u.saude.gov.br/images/pdf/2015/no... ). Influenza was more prevalent in children more than 4 years old, and type B predominated in adolescents. The South and Southeast regions accounted for most of the positive samples, with A/H3N2 prevailing, and co-circulation of A/H3N2, A/H1N1, and B occurring in the South region. Based on the results of the universal SARS surveillance, 8% of 12 300 samples were influenza viruses. In São Paulo, 20% of influenza-related hospitalizations were due to type B (⁷7 Ministério da Saúde (BR). Boletim Epidemiológico. Influenza: monitoramento até a Semana Epidemiológica 42 de 2015. Brasília: MS; 2015. Available from: http://u.saude.gov.br/images/pdf/2015/novembro/03/Boletim-Epidemiol--gico-Influenza-SE42-2015.pdf Accessed on 1 November 2015.
http://u.saude.gov.br/images/pdf/2015/no... ).

A total of 1 420 SARS-related deaths were reported up to October 2015, with 151 (11%) caused by influenza (45% A/H3N2, 23% B, 17% A/H1N1, and 15% non-subtyped A) (⁷7 Ministério da Saúde (BR). Boletim Epidemiológico. Influenza: monitoramento até a Semana Epidemiológica 42 de 2015. Brasília: MS; 2015. Available from: http://u.saude.gov.br/images/pdf/2015/novembro/03/Boletim-Epidemiol--gico-Influenza-SE42-2015.pdf Accessed on 1 November 2015.
http://u.saude.gov.br/images/pdf/2015/no... ). The influenza mortality rate was 0.08 per 100 000 population, and 70% had at least one risk factor (age over 60 years, chronic cardiovascular or pulmonary condition, diabetes, or obesity). Only 11% had received a flu vaccine. A/H1N1 had a higher case-fatality rate than other influenza viruses.

In a study of respiratory viral infections in children under 2 years old hospitalized at the Santa Casa Hospital in São Paulo, from 2008 to 2010 (⁸8 Durigon GS, Oliveira DB, Felicio MC, Finelli C, Pereira MF, Storni JG, et al. Poor outcome of acute respiratory infection in young children with underlying health condition in Brazil. Int J Infect Dis. 2015;34:3–7.), 10% of all respiratory isolates were influenza viruses and 50% of children had underlying health conditions.

ROUTINE IMMUNIZATION, COVERAGE RATES, AND VACCINE EFFECTIVENESS

Argentina

In Argentina, trivalent inactivated influenza vaccine (IIV3) was introduced into the National Immunization Program (NIP) in 2011 for children 6 months to 2 years old and other target groups including 1) high-risk individuals (e.g., those with chronic respiratory and cardiovascular conditions, diabetes, immunocompromising conditions, etc.); 2) pregnant or postpartum women; 3) health care workers; and 4) adults 65 years old and older (⁹9 Direccion Nacional de Control de Enfermedades Inmunoprevenibles, Ministerio de Salud (AR). Vacunación antigripal Argentina 2015. Lineamientos técnicos y Manual del vacunador. Buenos Aires: DiNaCEI-MSAL; 2015. Available from: http://www.msal.gob.ar/images/stories/bes/graficos/0000000621cnt-lineamientos_tecnicos_gripe_2015.pdf Accessed on 9 November 2015.
http://www.msal.gob.ar/images/stories/be... ). From 2011 to 2015, vaccine coverage in young children (6 months to 2 years old) ranged between 72% (for the first dose) and 50% (for the second) (⁹9 Direccion Nacional de Control de Enfermedades Inmunoprevenibles, Ministerio de Salud (AR). Vacunación antigripal Argentina 2015. Lineamientos técnicos y Manual del vacunador. Buenos Aires: DiNaCEI-MSAL; 2015. Available from: http://www.msal.gob.ar/images/stories/bes/graficos/0000000621cnt-lineamientos_tecnicos_gripe_2015.pdf Accessed on 9 November 2015.
http://www.msal.gob.ar/images/stories/be... ).

IIV3 effectiveness was assessed through a case-control study carried out at three pediatric hospitals (¹⁰10 Gentile A, Juarez S, Hernandez M, Moya A. Influenza vaccine effectiveness in preventing hospitalizations in children between 6–24 months. Case-control multicenter study. Poster presented at the 33rd Annual Meeting of the European Society for Paediatric Infectious Diseases, 6–10 May 2014, Dublin, Ireland. Geneva: ESPID; 2014.). Although the total number of cases was low (38 cases and 92 controls), preliminary effectiveness was 73% in children 6 months to 2 years old. Results from the Pan American Health Organization (PAHO) Network for Evaluation of Influenza Vaccine Effectiveness in the Latin America and Caribbean Region (Red para la Evaluación de Vacunas En Latino América y el Caribe–influenza, REVELAC-i) assessing influenza vaccine effectiveness showed a lower protection rate (48%) for the prevention of severe infections in children under 5 years old (¹¹11 Pan American Health Organization. Status of influenza vaccination in the Americas and formation of the Network for Evaluation of Influenza Vaccine Effectiveness—REVELAC-i. Presented at the XXII Technical Advisory Group on Vaccine-preventable Diseases (TAG) Meeting, 1–2 July 2014, Washington D.C., USA. Washington: PAHO; 2014.).

Vaccination of pregnant women can help prevent influenza in newborns and young infants (¹²12 Zaman K, Roy E, Arifeen SE, Rahman M, Raqib R, Wilson E, et al. Effectiveness of maternal influenza immunization in mothers and infants. N Engl J Med. 2008;359(15):1555–64.). In 2015, IIV3 coverage in this population exceeded 90% (³3 Ministerio de Salud (AR). Boletín Integrado de Vigilancia. October 2015. Buenos Aires: MSAL; 2015. Available from: http://www.msal.gob.ar/images/stories/boletines/Boletin-Integrado-De-Vigilancia-N282-SE43.pdf Accessed on 9 November 2015.
http://www.msal.gob.ar/images/stories/bo... ). A study carried out in Argentina using the influenza A/H1N1 MF59-adjuvanted vaccine (¹³13 Rubinstein F, Micone P, Bonotti A, Wainer V, Schwarcz A, Augustovski F, et al. Influenza A/H1N1 MF59 adjuvanted vaccine in pregnant women and adverse perinatal outcomes: multicentre study. BMJ. 2013;346:f393.) demonstrated that vaccinated pregnant women had a lower risk of 1) giving birth to low-weight babies (odds ratio (OR): 0.74) and 2) premature deliveries (OR: 0.79). Furthermore, vaccination was not associated with adverse perinatal or maternal events.

Brazil

In Brazil, influenza immunization is routinely administered to children 6 months to 5 years old, adults 60 years old and older, pregnant or postpartum women, health care workers, the indigenous population, individuals in prison, and high-risk groups (e.g., those with chronic respiratory or cardiovascular diseases, diabetes, immunocompromising conditions, etc.) (¹⁴14 Ministério da Saúde (BR). Campanha Nacional de Vacinação contra a Influenza 2015. Brasília: MS; 2015. Available from: http://portalsaude.saude.gov.br/images/pdf/2015/abril/09/Informe-Cp-Influenza---25-03-2015-FINAL.pdf Accessed on 1 November 2015.
http://portalsaude.saude.gov.br/images/p... ). Overall, in 2011–2014, vaccination coverage exceeded 80% in all groups (¹⁵15 Ministério da Saúde (BR). Campanha influenza coberturas vacinais e doses aplicadas Brasil 2014. Brasília: MS; 2014. Available from: http://pni.datasus.gov.br/ Accessed on 1 November 2015.
http://pni.datasus.gov.br/... ), and in 2015 approximately 50 million people (25% of the population) were immunized (¹⁴14 Ministério da Saúde (BR). Campanha Nacional de Vacinação contra a Influenza 2015. Brasília: MS; 2015. Available from: http://portalsaude.saude.gov.br/images/pdf/2015/abril/09/Informe-Cp-Influenza---25-03-2015-FINAL.pdf Accessed on 1 November 2015.
http://portalsaude.saude.gov.br/images/p... ). Most vaccines used during the 2016 influenza season were manufactured locally by the Instituto Butantan (São Paulo).

RATIONALE AND HURDLES OF ROUTINE INFLUENZA IMMUNIZATION IN CHILDREN

The burden of influenza in children is substantial and hospitalization rates are highest among the youngest children (¹⁶16 Glezen WP. Emerging infections: pandemic influenza. Epidemiol Rev. 1996;18(1):64–76., ¹⁷17 Neuzil KM, Mellen BG, Wright PF, Mitchel EF Jr, Griffin MR. The effect of influenza on hospitalizations, outpatient visits, and courses of antibiotics in children. N Engl J Med. 2000;342(4):225–31.). Notably, half of flu-related hospitalizations and deaths occur in previously healthy children, so a vaccination strategy that only includes children with comorbidities does not seem to be effective (¹⁸18 Centers for Disease Control and Prevention (US). Influenza activity—United States, 2012–13 season and composition of the 2013–14 influenza vaccine. MMWR Morb Mortal Wkly Rep. 2013;62(23):473–9.).

Influenza immunization in children is the most effective way to prevent disease, affording both direct and indirect protection. The protective effect of the vaccine depends largely on the match between vaccine strains and circulating viruses. As children are usually the family members who bring influenza into their household, vaccinating children could help mitigate outbreaks (¹⁹19 Chin TD, Mosley WH, Poland JD, Rush D, Belden EA, Johnson O. Epidemiologic studies of type B influenza in 1961–1962. Am J Public Health Nations Health. 1963;53(7):1068–74.). One health care model showed that vaccinating 20% of schoolchildren had a greater impact on flu-related mortality than vaccinating 90% of the elderly (²⁰20 Halloran ME, Longini IM Jr. Public health. Community studies for vaccinating schoolchildren against influenza. Science. 2006;311(5761):615–6.). When influenza immunization of schoolchildren was introduced in Japan, all-cause deaths, as well as influenza and pneumonia-related deaths, were significantly reduced in all age groups (²¹21 Reichert TA, Sugaya N, Fedson DS, Glezen WP, Simonsen L, Tashiro M. The Japanese experience with vaccinating schoolchildren against influenza. N Engl J Med. 2001;344(12):889–96.), and when vaccination was stopped, mortality rates increased, especially in the elderly.

There are, however, several hurdles to introducing an early childhood influenza control program. First, there are limited vaccine options. IIV3s have moderate efficacy in young children (²²22 Jefferson T, Smith S, Demicheli V, Harnden A, Rivetti A, Di Pietrantonj C. Assessment of the efficacy and effectiveness of influenza vaccines in healthy children: systematic review. Lancet. 2005;365(9461):773–80.), and do not induce persistent immune response. Inactivated influenza vaccines, quadrivalent (IIV4s) offer broader protection against the two B lineages, which usually co-circulate yet alternate in dominance (²2 Ambrose CS, Levin MJ. The rationale for quadrivalent influenza vaccines. Hum Vaccin Immunother. 2012;8(1):81–8.). Although B viruses predominate in children, they are a significant cause of hospitalizations and deaths in all age groups. Use of IIV4 could reduce a mismatch between a vaccine and circulating B lineages, but the benefits would be modest (²³23 Skowronski DM, De Serres G, Dickinson J, Petric M, Mak A, Fonseca K, et al. Component-specific effectiveness of trivalent influenza vaccine as monitored through a sentinel surveillance network in Canada, 2006–2007. J Infect Dis. 2009;199(2):168–79.). Adjuvanted IIV3s (aIIV3s) are more effective than non-adjuvanted vaccines. In a trial of MF59-adjuvanted IIV3 in 4 700 children 6–72 months old (²⁴24 Vesikari T, Knuf M, Wutzler P, Karvonen A, Kieninger-Baum D, Schmitt HJ, et al. Oil-in-water emulsion adjuvant with influenza vaccine in young children. N Engl J Med. 2011;365(15):1406–16.), efficacy was 85% (the highest ever reported in children 6–24 months old) and persisted after the second dose, and there were no safety issues. According to one study, the correlate of protection threshold is higher in children than in adults (²⁵25 Black S, Nicolay U, Vesikari T, Knuf M, Del Giudice G, Della Cioppa G, et al. Hemagglutination inhibition antibody titers as a correlate of protection for inactivated influenza vaccines in children. Pediatr Infect Dis J. 2011;30(12):1081–5.); for example, titers of 1:110 in children and 1:40 in adults were both associated with 50% clinical protection. In Canada, aIIV3 is licensed for use in infants and young children 6–24 months old due to its superior immunogenicity and acceptable safety profile (²⁶26 Public Health Agency of Canada. Statement on seasonal influenza vaccine for 2015–2016. Ottawa: PHAC; c2016. Available from: http://www.phac-aspc.gc.ca/naci-ccni/flu-2015-grippe-eng.php Accessed on 2 November 2015.
http://www.phac-aspc.gc.ca/naci-ccni/flu... ). At the roundtable meeting, use of the live attenuated vaccine was also discussed, but as this vaccine is not available in Argentina or Brazil, the information was not included in this report.

A second hurdle to introducing a childhood influenza control program is related to safety and reduced confidence due to adverse events following immunization (AEFIs), a problem mostly seen in Europe and North America. Unexpected AEFIs with two flu vaccines have had a negative impact (²⁷27 Barker CI, Snape MD. Pandemic influenza A H1N1 vaccines and narcolepsy: vaccine safety surveillance in action. Lancet Infect Dis. 2014;14(3):227–38., ²⁸28 Armstrong PK, Dowse GK, Effler PV, Carcione D, Blyth CC, Richmond PC, et al. Epidemiological study of severe febrile reactions in young children in Western Australia caused by a 2010 trivalent inactivated influenza vaccine. BMJ Open. 2011;1(1):e000016.). In addition, poor vaccine performance could discredit the integrity of the NIP and dampen the success of other routine vaccines.

A third hurdle concerns funding requirements. Introducing flu vaccine into an NIP requires evidence of cost-effectiveness involving high vaccine efficacy; reasonable cost (with drawbacks including the need for two-dose priming and/or annual revaccination); and negligible AEFI costs. Currently, 29 countries in Latin American but only seven in Europe have routine influenza childhood immunization programs, and vaccine uptake in developed countries does not surpass 30%.

At the meeting, various solutions were suggested to overcome these hurdles, including 1) using more efficacious vaccines; 2) building greater confidence in safety by extending post-licensure surveillance; and 3) making public programs more flexible by broadening the interval of the two-dose schedule, irrespective of the season, and expanding school delivery programs to include children 1–5 years old.

CHALLENGES IN INFLUENZA PREVENTION IN ARGENTINA AND BRAZIL

The meeting participants agreed that assessing the burden of disease and the impact of vaccination is more difficult for influenza than for other vaccine-preventable diseases because influenza cannot be eradicated, symptoms are nonspecific, cases are not usually virologically tested, and herd protection is difficult to measure.

Immunization rates are decreasing in Argentina and Brazil (⁹9 Direccion Nacional de Control de Enfermedades Inmunoprevenibles, Ministerio de Salud (AR). Vacunación antigripal Argentina 2015. Lineamientos técnicos y Manual del vacunador. Buenos Aires: DiNaCEI-MSAL; 2015. Available from: http://www.msal.gob.ar/images/stories/bes/graficos/0000000621cnt-lineamientos_tecnicos_gripe_2015.pdf Accessed on 9 November 2015.
http://www.msal.gob.ar/images/stories/be... , ¹⁵15 Ministério da Saúde (BR). Campanha influenza coberturas vacinais e doses aplicadas Brasil 2014. Brasília: MS; 2014. Available from: http://pni.datasus.gov.br/ Accessed on 1 November 2015.
http://pni.datasus.gov.br/... ) for flu as well as other vaccines, although both countries still retain the highest influenza vaccination rates worldwide. One reason for this downward trend is parent misinformation. Parents often see influenza as a mild disease and thus view the influenza-like symptoms from the vaccines as outweighing any benefits (²⁹29 American Academy of Pediatrics. Immunization resources addressing common concerns of vaccine-hesitant parents. Elk Grove Village, IL: AAP; 2013. Available from: https://www.aap.org/en-us/Documents/immunization_vaccine-hesitant%20parent_final.pdf Accessed on 2 November 2015.
https://www.aap.org/en-us/Documents/immu... ). In addition, people get tired of having to get shots every year. The growing influence of local anti-vaccination advocacy groups is also a cause for concern.

Another factor in the lower coverage is the logistics related to limited staffing for administering routine vaccines in a crowded childhood immunization calendar.

Education of health care workers is another problem that needs to be tackled. As shown in a study evaluating missed opportunities for flu vaccination, from the parents’ perspective (³⁰30 Gentile A, Juárez M, Hernandez S, Moya A, Bakir J, Lucion M. Influenza vaccine: delayed vaccination schedules and missed opportunities in children under 2 years old. Vaccine. 2015;33(32):3913–7.), the main reason for the lower coverage was a lack of information from health care workers, who were not recommending the vaccine. In Argentina, few specialists recommend influenza vaccination for children with chronic comorbidities at high-risk for flu-related complications.

In discussing the best vaccine options, the meeting participants emphasized the superiority of the aIIV3 compared to the IIV4. While the second B strain may add 15% efficacy, leading to an overall IIV4 efficacy of 60%–65%, the efficacy of adjuvanted vaccines exceeds 80%, while also providing protection for mismatched B lineage. In Brazil, although the IIV4 became available in the private market in 2015, the Ministry of Health is not considering incorporating it into the NIP in the near future.

Safety concerns for use of repetitive doses of adjuvanted vaccines in young children were also addressed. Canada has licensed the aIIV3 with limited indication in the youngest age group (6–24 months) (²⁶26 Public Health Agency of Canada. Statement on seasonal influenza vaccine for 2015–2016. Ottawa: PHAC; c2016. Available from: http://www.phac-aspc.gc.ca/naci-ccni/flu-2015-grippe-eng.php Accessed on 2 November 2015.
http://www.phac-aspc.gc.ca/naci-ccni/flu... ). In Argentina, the national immunization committee has resolved to continue using IIV3 and will consider incorporating adjuvanted vaccines in the future (a technology transfer agreement will enable local vaccine production).

STRATEGIES AND ACTIONS TO IMPROVE PROTECTION

Following the roundtable meeting discussions the participants proposed strategies to improve disease surveillance and actions to increase protection in Argentina and Brazil.

Surveillance strategies

Recommended surveillance strategies included 1) developing an influenza monitoring system and unified national database (both countries) and 2) estimating case-fatality rates (in Argentina only).

Protection actions

Recommended protective actions were grouped into three categories: 1) vaccination, 2) education, and 3) communication. Proposed vaccination actions included 1) conducting continued surveillance of effectiveness of inactivated vaccines; 2) estimating coverage in different populations; 3) increasing vaccination in pregnant women for protection of young infants; 4) promoting vaccination at childcare centers; 5) carrying out long-term vaccine safety surveillance to avoid AEFIs; 6) considering the introduction of aIIV3s for infants and children; and 7) considering universal vaccination of schoolchildren to gain herd protection (in Brazil; in Argentina, this strategy was not deemed feasible in the short-term because the main objective there is to reduce morbidity and mortality in high-risk groups rather than reducing viral circulation). Proposed education actions included: 1) enhancing education of health professionals; 2) reinforcing the nurse’s role in promoting immunization and delivering vaccines; 3) raising awareness of the risk of influenza in the population; 4) targeting high-risk groups, working with scientific societies and specialists; and 5) strengthening the physician–parent relationship and helping parents understand the risk/benefits of vaccines. In the same vein, the following communication activities were suggested to raise awareness of the value of vaccines: 1) using media to communicate the risks of vaccine-preventable diseases; 2) using the Internet and social media to promote vaccine uptake; and 3) using reminder cards for vaccination schedules.

CONCLUSIONS

The high burden of influenza in children in Argentina and Brazil calls for sustained efforts to improve protective measures. There is a need for more effective flu vaccines for infants and young children. Surveillance programs should continue to 1) monitor for changes in circulating viruses and 2) assess vaccine effectiveness and safety. Increasing vaccine coverage levels, introducing adjuvanted vaccines, and continuing the development of more effective vaccines are all goals that should be pursued.

Conflicts of interest

None.

Funding

Novartis Vaccines (Cambridge, Massachusetts) provided financial support for the meeting.

Disclaimer

Authors hold sole responsibility for the views expressed in the manuscript, which may not necessarily reflect the opinion or policy of the RPSP/PAJPH or the Pan American Health Organization (PAHO).

REFERENCES

¹
Centers for Disease Control and Prevention (US). FluView: Influenza Hospitalizations Surveillance Network [Internet]. Atlanta: CDC; 2015. Available from: https://gis.cdc.gov/GRASP/Fluview/FluHospRates.html Accessed on 1 November 2015
» https://gis.cdc.gov/GRASP/Fluview/FluHospRates.html
²
Ambrose CS, Levin MJ. The rationale for quadrivalent influenza vaccines. Hum Vaccin Immunother. 2012;8(1):81–8.
³
Ministerio de Salud (AR). Boletín Integrado de Vigilancia. October 2015. Buenos Aires: MSAL; 2015. Available from: http://www.msal.gob.ar/images/stories/boletines/Boletin-Integrado-De-Vigilancia-N282-SE43.pdf Accessed on 9 November 2015.
» http://www.msal.gob.ar/images/stories/boletines/Boletin-Integrado-De-Vigilancia-N282-SE43.pdf
⁴
Gentile A, Lucion F, Juarez M, Bakir J. Viral respiratory infections. Clinical epidemiological pattern in children admitted in a pediatric hospital during the years 2000-2013. Poster presented at the 54th Interscience Conference on Antimicrobial Agents and Chemotherapy (ICAAC), 5–9 September 2014, Washington, D.C., USA. Washington: American Society for Microbiology; 2014.
⁵
Giglio ND, Castellano VE, Rüttimann RW, Vidal GI, Gentile A. Epidemia de influenza del año 2009 en un hospital pediátrico y costos médicos directos en menores de 5 años comparados con el período 2006–2008. Arch Argent Pediatr. 2012;110(1):19–26.
⁶
Ministério da Saúde (BR). Boletim Epidemiológico. Influenza: monitoramento até a Semana Epidemiológica 52 de 2014. Brasília: MS; 2014. Available from: http://portalsaude.saude.gov.br/images/pdf/2015/janeiro/23/Boletim-Epidemiol--gico-Influenza-SE52-2014.pdf Accessed on 1 November 2015.
» http://portalsaude.saude.gov.br/images/pdf/2015/janeiro/23/Boletim-Epidemiol--gico-Influenza-SE52-2014.pdf
⁷
Ministério da Saúde (BR). Boletim Epidemiológico. Influenza: monitoramento até a Semana Epidemiológica 42 de 2015. Brasília: MS; 2015. Available from: http://u.saude.gov.br/images/pdf/2015/novembro/03/Boletim-Epidemiol--gico-Influenza-SE42-2015.pdf Accessed on 1 November 2015.
» http://u.saude.gov.br/images/pdf/2015/novembro/03/Boletim-Epidemiol--gico-Influenza-SE42-2015.pdf
⁸
Durigon GS, Oliveira DB, Felicio MC, Finelli C, Pereira MF, Storni JG, et al. Poor outcome of acute respiratory infection in young children with underlying health condition in Brazil. Int J Infect Dis. 2015;34:3–7.
⁹
Direccion Nacional de Control de Enfermedades Inmunoprevenibles, Ministerio de Salud (AR). Vacunación antigripal Argentina 2015. Lineamientos técnicos y Manual del vacunador. Buenos Aires: DiNaCEI-MSAL; 2015. Available from: http://www.msal.gob.ar/images/stories/bes/graficos/0000000621cnt-lineamientos_tecnicos_gripe_2015.pdf Accessed on 9 November 2015.
» http://www.msal.gob.ar/images/stories/bes/graficos/0000000621cnt-lineamientos_tecnicos_gripe_2015.pdf
¹⁰
Gentile A, Juarez S, Hernandez M, Moya A. Influenza vaccine effectiveness in preventing hospitalizations in children between 6–24 months. Case-control multicenter study. Poster presented at the 33^rd Annual Meeting of the European Society for Paediatric Infectious Diseases, 6–10 May 2014, Dublin, Ireland. Geneva: ESPID; 2014.
¹¹
Pan American Health Organization. Status of influenza vaccination in the Americas and formation of the Network for Evaluation of Influenza Vaccine Effectiveness—REVELAC-i. Presented at the XXII Technical Advisory Group on Vaccine-preventable Diseases (TAG) Meeting, 1–2 July 2014, Washington D.C., USA. Washington: PAHO; 2014.
¹²
Zaman K, Roy E, Arifeen SE, Rahman M, Raqib R, Wilson E, et al. Effectiveness of maternal influenza immunization in mothers and infants. N Engl J Med. 2008;359(15):1555–64.
¹³
Rubinstein F, Micone P, Bonotti A, Wainer V, Schwarcz A, Augustovski F, et al. Influenza A/H1N1 MF59 adjuvanted vaccine in pregnant women and adverse perinatal outcomes: multicentre study. BMJ. 2013;346:f393.
¹⁴
Ministério da Saúde (BR). Campanha Nacional de Vacinação contra a Influenza 2015. Brasília: MS; 2015. Available from: http://portalsaude.saude.gov.br/images/pdf/2015/abril/09/Informe-Cp-Influenza---25-03-2015-FINAL.pdf Accessed on 1 November 2015.
» http://portalsaude.saude.gov.br/images/pdf/2015/abril/09/Informe-Cp-Influenza---25-03-2015-FINAL.pdf
¹⁵
Ministério da Saúde (BR). Campanha influenza coberturas vacinais e doses aplicadas Brasil 2014. Brasília: MS; 2014. Available from: http://pni.datasus.gov.br/ Accessed on 1 November 2015.
» http://pni.datasus.gov.br/
¹⁶
Glezen WP. Emerging infections: pandemic influenza. Epidemiol Rev. 1996;18(1):64–76.
¹⁷
Neuzil KM, Mellen BG, Wright PF, Mitchel EF Jr, Griffin MR. The effect of influenza on hospitalizations, outpatient visits, and courses of antibiotics in children. N Engl J Med. 2000;342(4):225–31.
¹⁸
Centers for Disease Control and Prevention (US). Influenza activity—United States, 2012–13 season and composition of the 2013–14 influenza vaccine. MMWR Morb Mortal Wkly Rep. 2013;62(23):473–9.
¹⁹
Chin TD, Mosley WH, Poland JD, Rush D, Belden EA, Johnson O. Epidemiologic studies of type B influenza in 1961–1962. Am J Public Health Nations Health. 1963;53(7):1068–74.
²⁰
Halloran ME, Longini IM Jr. Public health. Community studies for vaccinating schoolchildren against influenza. Science. 2006;311(5761):615–6.
²¹
Reichert TA, Sugaya N, Fedson DS, Glezen WP, Simonsen L, Tashiro M. The Japanese experience with vaccinating schoolchildren against influenza. N Engl J Med. 2001;344(12):889–96.
²²
Jefferson T, Smith S, Demicheli V, Harnden A, Rivetti A, Di Pietrantonj C. Assessment of the efficacy and effectiveness of influenza vaccines in healthy children: systematic review. Lancet. 2005;365(9461):773–80.
²³
Skowronski DM, De Serres G, Dickinson J, Petric M, Mak A, Fonseca K, et al. Component-specific effectiveness of trivalent influenza vaccine as monitored through a sentinel surveillance network in Canada, 2006–2007. J Infect Dis. 2009;199(2):168–79.
²⁴
Vesikari T, Knuf M, Wutzler P, Karvonen A, Kieninger-Baum D, Schmitt HJ, et al. Oil-in-water emulsion adjuvant with influenza vaccine in young children. N Engl J Med. 2011;365(15):1406–16.
²⁵
Black S, Nicolay U, Vesikari T, Knuf M, Del Giudice G, Della Cioppa G, et al. Hemagglutination inhibition antibody titers as a correlate of protection for inactivated influenza vaccines in children. Pediatr Infect Dis J. 2011;30(12):1081–5.
²⁶
Public Health Agency of Canada. Statement on seasonal influenza vaccine for 2015–2016. Ottawa: PHAC; c2016. Available from: http://www.phac-aspc.gc.ca/naci-ccni/flu-2015-grippe-eng.php Accessed on 2 November 2015.
» http://www.phac-aspc.gc.ca/naci-ccni/flu-2015-grippe-eng.php
²⁷
Barker CI, Snape MD. Pandemic influenza A H1N1 vaccines and narcolepsy: vaccine safety surveillance in action. Lancet Infect Dis. 2014;14(3):227–38.
²⁸
Armstrong PK, Dowse GK, Effler PV, Carcione D, Blyth CC, Richmond PC, et al. Epidemiological study of severe febrile reactions in young children in Western Australia caused by a 2010 trivalent inactivated influenza vaccine. BMJ Open. 2011;1(1):e000016.
²⁹
American Academy of Pediatrics. Immunization resources addressing common concerns of vaccine-hesitant parents. Elk Grove Village, IL: AAP; 2013. Available from: https://www.aap.org/en-us/Documents/immunization_vaccine-hesitant%20parent_final.pdf Accessed on 2 November 2015.
» https://www.aap.org/en-us/Documents/immunization_vaccine-hesitant%20parent_final.pdf
³⁰
Gentile A, Juárez M, Hernandez S, Moya A, Bakir J, Lucion M. Influenza vaccine: delayed vaccination schedules and missed opportunities in children under 2 years old. Vaccine. 2015;33(32):3913–7.

Publication Dates

Publication in this collection
08 June 2017

History

Received
17 June 2016
Accepted
21 Sept 2016

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] ¹
Centers for Disease Control and Prevention (US). FluView: Influenza Hospitalizations Surveillance Network [Internet]. Atlanta: CDC; 2015. Available from: https://gis.cdc.gov/GRASP/Fluview/FluHospRates.html Accessed on 1 November 2015
» https://gis.cdc.gov/GRASP/Fluview/FluHospRates.html

[2] ²
Ambrose CS, Levin MJ. The rationale for quadrivalent influenza vaccines. Hum Vaccin Immunother. 2012;8(1):81–8.

[3] ³
Ministerio de Salud (AR). Boletín Integrado de Vigilancia. October 2015. Buenos Aires: MSAL; 2015. Available from: http://www.msal.gob.ar/images/stories/boletines/Boletin-Integrado-De-Vigilancia-N282-SE43.pdf Accessed on 9 November 2015.
» http://www.msal.gob.ar/images/stories/boletines/Boletin-Integrado-De-Vigilancia-N282-SE43.pdf

[4] ⁴
Gentile A, Lucion F, Juarez M, Bakir J. Viral respiratory infections. Clinical epidemiological pattern in children admitted in a pediatric hospital during the years 2000-2013. Poster presented at the 54th Interscience Conference on Antimicrobial Agents and Chemotherapy (ICAAC), 5–9 September 2014, Washington, D.C., USA. Washington: American Society for Microbiology; 2014.

[5] ⁵
Giglio ND, Castellano VE, Rüttimann RW, Vidal GI, Gentile A. Epidemia de influenza del año 2009 en un hospital pediátrico y costos médicos directos en menores de 5 años comparados con el período 2006–2008. Arch Argent Pediatr. 2012;110(1):19–26.

[6] ⁶
Ministério da Saúde (BR). Boletim Epidemiológico. Influenza: monitoramento até a Semana Epidemiológica 52 de 2014. Brasília: MS; 2014. Available from: http://portalsaude.saude.gov.br/images/pdf/2015/janeiro/23/Boletim-Epidemiol--gico-Influenza-SE52-2014.pdf Accessed on 1 November 2015.
» http://portalsaude.saude.gov.br/images/pdf/2015/janeiro/23/Boletim-Epidemiol--gico-Influenza-SE52-2014.pdf

[7] ⁷
Ministério da Saúde (BR). Boletim Epidemiológico. Influenza: monitoramento até a Semana Epidemiológica 42 de 2015. Brasília: MS; 2015. Available from: http://u.saude.gov.br/images/pdf/2015/novembro/03/Boletim-Epidemiol--gico-Influenza-SE42-2015.pdf Accessed on 1 November 2015.
» http://u.saude.gov.br/images/pdf/2015/novembro/03/Boletim-Epidemiol--gico-Influenza-SE42-2015.pdf

[8] ⁸
Durigon GS, Oliveira DB, Felicio MC, Finelli C, Pereira MF, Storni JG, et al. Poor outcome of acute respiratory infection in young children with underlying health condition in Brazil. Int J Infect Dis. 2015;34:3–7.

[9] ⁹
Direccion Nacional de Control de Enfermedades Inmunoprevenibles, Ministerio de Salud (AR). Vacunación antigripal Argentina 2015. Lineamientos técnicos y Manual del vacunador. Buenos Aires: DiNaCEI-MSAL; 2015. Available from: http://www.msal.gob.ar/images/stories/bes/graficos/0000000621cnt-lineamientos_tecnicos_gripe_2015.pdf Accessed on 9 November 2015.
» http://www.msal.gob.ar/images/stories/bes/graficos/0000000621cnt-lineamientos_tecnicos_gripe_2015.pdf

[10] ¹⁰
Gentile A, Juarez S, Hernandez M, Moya A. Influenza vaccine effectiveness in preventing hospitalizations in children between 6–24 months. Case-control multicenter study. Poster presented at the 33^rd Annual Meeting of the European Society for Paediatric Infectious Diseases, 6–10 May 2014, Dublin, Ireland. Geneva: ESPID; 2014.

[11] ¹¹
Pan American Health Organization. Status of influenza vaccination in the Americas and formation of the Network for Evaluation of Influenza Vaccine Effectiveness—REVELAC-i. Presented at the XXII Technical Advisory Group on Vaccine-preventable Diseases (TAG) Meeting, 1–2 July 2014, Washington D.C., USA. Washington: PAHO; 2014.

[12] ¹²
Zaman K, Roy E, Arifeen SE, Rahman M, Raqib R, Wilson E, et al. Effectiveness of maternal influenza immunization in mothers and infants. N Engl J Med. 2008;359(15):1555–64.

[13] ¹³
Rubinstein F, Micone P, Bonotti A, Wainer V, Schwarcz A, Augustovski F, et al. Influenza A/H1N1 MF59 adjuvanted vaccine in pregnant women and adverse perinatal outcomes: multicentre study. BMJ. 2013;346:f393.

[14] ¹⁴
Ministério da Saúde (BR). Campanha Nacional de Vacinação contra a Influenza 2015. Brasília: MS; 2015. Available from: http://portalsaude.saude.gov.br/images/pdf/2015/abril/09/Informe-Cp-Influenza---25-03-2015-FINAL.pdf Accessed on 1 November 2015.
» http://portalsaude.saude.gov.br/images/pdf/2015/abril/09/Informe-Cp-Influenza---25-03-2015-FINAL.pdf

[15] ¹⁵
Ministério da Saúde (BR). Campanha influenza coberturas vacinais e doses aplicadas Brasil 2014. Brasília: MS; 2014. Available from: http://pni.datasus.gov.br/ Accessed on 1 November 2015.
» http://pni.datasus.gov.br/

[16] ¹⁶
Glezen WP. Emerging infections: pandemic influenza. Epidemiol Rev. 1996;18(1):64–76.

[17] ¹⁷
Neuzil KM, Mellen BG, Wright PF, Mitchel EF Jr, Griffin MR. The effect of influenza on hospitalizations, outpatient visits, and courses of antibiotics in children. N Engl J Med. 2000;342(4):225–31.

[18] ¹⁸
Centers for Disease Control and Prevention (US). Influenza activity—United States, 2012–13 season and composition of the 2013–14 influenza vaccine. MMWR Morb Mortal Wkly Rep. 2013;62(23):473–9.

[19] ¹⁹
Chin TD, Mosley WH, Poland JD, Rush D, Belden EA, Johnson O. Epidemiologic studies of type B influenza in 1961–1962. Am J Public Health Nations Health. 1963;53(7):1068–74.

[20] ²⁰
Halloran ME, Longini IM Jr. Public health. Community studies for vaccinating schoolchildren against influenza. Science. 2006;311(5761):615–6.

[21] ²¹
Reichert TA, Sugaya N, Fedson DS, Glezen WP, Simonsen L, Tashiro M. The Japanese experience with vaccinating schoolchildren against influenza. N Engl J Med. 2001;344(12):889–96.

[22] ²²
Jefferson T, Smith S, Demicheli V, Harnden A, Rivetti A, Di Pietrantonj C. Assessment of the efficacy and effectiveness of influenza vaccines in healthy children: systematic review. Lancet. 2005;365(9461):773–80.

[23] ²³
Skowronski DM, De Serres G, Dickinson J, Petric M, Mak A, Fonseca K, et al. Component-specific effectiveness of trivalent influenza vaccine as monitored through a sentinel surveillance network in Canada, 2006–2007. J Infect Dis. 2009;199(2):168–79.

[24] ²⁴
Vesikari T, Knuf M, Wutzler P, Karvonen A, Kieninger-Baum D, Schmitt HJ, et al. Oil-in-water emulsion adjuvant with influenza vaccine in young children. N Engl J Med. 2011;365(15):1406–16.

[25] ²⁵
Black S, Nicolay U, Vesikari T, Knuf M, Del Giudice G, Della Cioppa G, et al. Hemagglutination inhibition antibody titers as a correlate of protection for inactivated influenza vaccines in children. Pediatr Infect Dis J. 2011;30(12):1081–5.

[26] ²⁶
Public Health Agency of Canada. Statement on seasonal influenza vaccine for 2015–2016. Ottawa: PHAC; c2016. Available from: http://www.phac-aspc.gc.ca/naci-ccni/flu-2015-grippe-eng.php Accessed on 2 November 2015.
» http://www.phac-aspc.gc.ca/naci-ccni/flu-2015-grippe-eng.php

[27] ²⁷
Barker CI, Snape MD. Pandemic influenza A H1N1 vaccines and narcolepsy: vaccine safety surveillance in action. Lancet Infect Dis. 2014;14(3):227–38.

[28] ²⁸
Armstrong PK, Dowse GK, Effler PV, Carcione D, Blyth CC, Richmond PC, et al. Epidemiological study of severe febrile reactions in young children in Western Australia caused by a 2010 trivalent inactivated influenza vaccine. BMJ Open. 2011;1(1):e000016.

[29] ²⁹
American Academy of Pediatrics. Immunization resources addressing common concerns of vaccine-hesitant parents. Elk Grove Village, IL: AAP; 2013. Available from: https://www.aap.org/en-us/Documents/immunization_vaccine-hesitant%20parent_final.pdf Accessed on 2 November 2015.
» https://www.aap.org/en-us/Documents/immunization_vaccine-hesitant%20parent_final.pdf

[30] ³⁰
Gentile A, Juárez M, Hernandez S, Moya A, Bakir J, Lucion M. Influenza vaccine: delayed vaccination schedules and missed opportunities in children under 2 years old. Vaccine. 2015;33(32):3913–7.

Saúde Pública

Saúde Pública

Epidemiology and prevention of influenza in children in Argentina and Brazil

Epidemiología y prevención de la gripe en niños en Argentina y Brasil

Epidemiologia e prevenção da influenza em crianças na Argentina e no Brasil

ABSTRACT

RESUMEN

RESUMO

EPIDEMIOLOGY AND BURDEN OF INFLUENZA

Argentina

Brazil

ROUTINE IMMUNIZATION, COVERAGE RATES, AND VACCINE EFFECTIVENESS

Argentina

Brazil

RATIONALE AND HURDLES OF ROUTINE INFLUENZA IMMUNIZATION IN CHILDREN

CHALLENGES IN INFLUENZA PREVENTION IN ARGENTINA AND BRAZIL

STRATEGIES AND ACTIONS TO IMPROVE PROTECTION

Surveillance strategies

Protection actions

CONCLUSIONS

Conflicts of interest

Funding

Disclaimer

REFERENCES

Publication Dates

History