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Influenza vaccination of individuals over the age of 60: impact on hospital admissions and deaths from respiratory and circulatory diseases in Fortaleza, Brazil

Impacto da vacinação de maiores de 60 anos para influenza sobre as internações e óbitos por doenças respiratórias e circulatórias em Fortaleza - CE - Brasil

Mônica Cardoso Façanha

INTRODUCTION

Due to its high degree of antigenic variability, influenza is one of the infectious diseases that most concerns health authorities. Such concern is centered around the possibility that a single infected individual could transmit influenza to multiple susceptible individuals, thereby leading to epidemics, or even pandemics, which are typically abrupt, peaking in two to three weeks and persisting for eight weeks.(1) Infants up to 23 months of age and individuals over 60 years of age are among the populations that are the most vulnerable to complications and death from influenza.(2)
Individuals with primary or secondary immunological deficiencies, heart disease or lung disease are also considered highly vulnerable and are prime candidates for vaccination against influenza. Health professionals who treat patients with respiratory diseases or work in nursing homes, as well as individuals who work with birds or pigs are also more vulnerable to the acquisition of the infection.

The vaccination of elderly individuals against influenza reduces the risk of hospital admission for heart disease by up to 19%, for cerebrovascular diseases by up to 23%, and for influenza or pneumonia by up to 32%, as well as reducing death from all causes by up to 50%.(2) The vaccine administrated in Brazil is composed of two strains of influenza A (H3N2 and H1N1) and one strain of influenza B.(3) The viral strains isolated from patients in the southern hemisphere, including those in greatest circulation and isolated in Brazil, are part of the composition of the vaccine administrated in the country. The production, packaging and distribution of the vaccine requires approximately six months, and administration requires an extra one to two months.(4) The protective antibodies are detected one to two weeks after the administration of the vaccine, and antibody titers peak at four to six weeks after administration, ideally coinciding with the maximum viral load.(3)

Until 2003, the state of Ceará was not a participant in the Sistema de Vigilância da Influenza (Influenza Awareness System), then in effect in twelve states of the five regions of Brazil. This system has various objectives, including tracking the many circulating strains of the influenza virus and monitoring influenza-related morbidity and mortality, as well as evaluating the impact of the vaccine.(5) In 2002, this system identified a flu syndrome treatment peak between weeks 29 and 40 in the southern and southeastern regions, and the influenza B virus was isolated. Between weeks 15 and 19 of 2003, another flu syndrome treatment peak was detected, related to outbreaks in the central-west and northern regions, and the influenza A (H1N2) virus was isolated.(3) In the city of Fortaleza (Ceará), etiological studies of children with acute respiratory diseases in which viruses were isolated have been carried out. In the period from August of 1984 to August of 1986, a community-based study was conducted involving 175 children below the age of five and presenting acute respiratory diseases, among which 5.9% of the viruses isolated were influenza. The isolation of the influenza virus coincided with the rainy season. Influenza viruses were isolated in the periods: February to April of 1985; February to April of 1986, October to November of 1984; and October to November of 1985.(6) In a hospital-based study of children, conducted from January of 2001 to June of 2003, the influenza virus was identified in 27.65% of the isolates. This calls attention to the fact that isolates of the influenza virus and the respiratory syncytial virus were only found between the months of January and June, whereas adenovirus and parainfluenza virus type 3 can be seen at any time of the year.(7-8)

Due to the growth of the elderly population and its vulnerability, the Brazilian Ministério da Saúde (Ministry of Health) introduced influenza vaccination for those over the age of 65 in 1999 for those over the age of 60 in the year 2000. Brazil has met the goal, set by the Ministry of Health, of vaccinating 70% of these individuals.(9) In Fortaleza, campaigns to vaccinate the elderly begin between the 7th and the 23rd of April and continue until May. The citywide campaign has reached an ever-increasing proportion of the target population, growing from 80% in 1999 to 92% in 2003.(10) The pneumococcal vaccine is not included in the vaccines administered en masse to the elderly during the campaigns in Fortaleza, being reserved for the institutionalized elderly.

The objective of this study was to evaluate the impact of influenza vaccination on rates of hospitalization for respiratory and cardiovascular diseases, as well as on mortality rates among those over the age of 60.

METHODS

Fortaleza presents little variation in temperature over the course of the year. Between 1995 and 2000, the absolute maximum temperature registered was 33°C, and the absolute minimum was 21°C. The principal climatic variation is the rainy season, which occurs at the beginning of the year, lasting for three to five months, in general from February to June.(11)
The hospitalization records of Fortaleza residents over the age of 60 were reviewed, limited to the 1995-2003 period.(12) In addition, the files of the Sistema de Informação de Mortalidade (Mortality Database)(13), made available by the Ministry of Health via the Departamento de Informação e Informática do Sistema Único de Saúde (DATASUS, Unified Health Care System Department of Information and Information Science), were searched for the 1995-2001 period. With this data source, it is possible to build tables based on the year of occurrence, city, gender, age, diagnosis, etc., using the Tabnet program, which is also made available. Hospital admissions and deaths were classified according to the International Classification of Diseases, Ninth Revision (ICD-9) for the 1995-1997 period and according to the International Classification of Diseases, Tenth Revision (ICD-10) for the 1998-2001 period. The data obtained from hospitalization records were used as numerators in the calculation of coefficients of hospital admission, and those obtained from the Mortality Database were used as numerators in the calculation of coefficients of mortality.

To calculate the coefficients of hospital admission and mortality (by age bracket and by cause), the population used was that estimated by the Instituto Brasileiro de Geografia e Estatística (Brazilian Institute of Geography and Statistics) and released by the Ministry of Health.(14)
The statistical analyses were made with the Epi Info program, version 6.04, using the chi-square test.(15)

RESULTS

Between 1995 and 2003, 29,867 individuals over the age of 60 were hospitalized for diseases of the respiratory system, with an annual mean of 3318.6 admissions and standard deviation (SD) of 355.6. Between 1995 and 1998, the annual mean was 3067.3 (SD: 365.8), compared with 3519.6 (SD: 195.6) between 1999 and 2003. The monthly mean was 2488.9 (SD: 411.5), being 1022.4 (SD: 145.2) between 1995 and 1998 (ranging from 858 in November to 1321 in April), and 1466.5 (SD: 195.6) between 1999 and 2003. In terms of absolute numbers, there was a reduction in the number of admissions in the post-vaccination period only when compared with 1995.

Adjusting the number of admissions in relation to the population and using 1998 as a reference, no significant reduction was observed between the coefficients of hospital admission prior to and following the initiation of the vaccination program, nor was there any such difference for diseases of the respiratory system in general, flu or pneumonia (p > 0.05) (Figure 1). In a year-to-year comparison, we observed a reduction between 1995 and 1996, an increase in 1997, stabilization in 1998, new growth in 1999, a reduction in 2000, a reduction in 2001, stabilization in 2002 and continued stabilization in 2003 (Table 1). If we compare only those years in which there were population counts (1996) or censuses (2000), there was a reduction in the number of admissions (p < 0.00001).

Taking 1998 as a reference year, there was no reduction in the coefficients of hospital admission for diseases of the circulatory system in 1999 (p > 0.641), although there were reductions in 2000 (p < 0.002) and 2001 (p < 0.0014), returning to 1998 levels in 2002 (p > 0.5) and 2003 (p > 0.72). In addition, no difference was found between 2000 and 2001 (p > 0.95) (Figure 1). There was a tendency toward a decrease from 1995 to 2000, shifting toward an increase by 2003 (Table 1).

Comparing the 1995-1998 period with the 1999-2003 period, the distribution curves of the total number of cases per month adjusted for population were virtually identical, with no difference between the groups of months preceding the initiation of the vaccination program and those of the months following (p > 0.05) (Figure 2).

There was a significant reduction (p < 0.05) in the number of deaths (Table 2) and in the overall mortality rate among individuals over the age of 60 in the years 1999, 2000 and 2001 in relation to 1998. Comparing 2000 and 2001, there was an increase in the overall mortality rate (p < 0.004). Mortality from respiratory diseases increased from 1998 to 1999 (p < 0.005) and decreased in 2000 and 2001 (p < 0.0001). Between 2000 and 2001, there was no significant reduction (p > 0.36). From 1998 to 1999, there was no significant difference in mortality from diseases of the circulatory system (p = 0.34), although mortality from such diseases was lower than the 1998 level in 2000 and 2001 (p < 0.0001). There was no significant difference between 2000 and 2001 (p = 0.34) (Figure 3).

DISCUSSION

The present study had several limitations: only approximately 70% of the population of Fortaleza is fully served by the Unified Health Care System, the remaining 30% subscribing to private health care plans; the number of admissions under the Unified Health Care System is restricted by the number of beds available and by the requirement that all admissions be authorized, which can result in repressed demand for hospital admission; the cause of hospital admission was based on the stated principal diagnosis, defined as being the motivation for admission (there may have been subsequent, undocumented, changes in diagnosis).(6)

In Fortaleza, the population of individuals over the age of 60 presented abrupt increases in 1996, when it grew by approximately 10,000, thereafter growing by approximately 3000/year until 1999, when it grew by approximately 20,000, returning to the 3000/year rate in 2001. These increases coincided with the recounting of the population that occurred in 1996 and with the census of 2000. It is possible that the reduction in the mortality rate would not have occurred if the growth of the population had been more homogeneous. When the discrepancies were lower (between 2000 and 2001), no reduction in the mortality rate was seen. The same rationale can be applied in relation to the coefficients of hospital admission.

Influenza epidemics occur predominantly in winter in regions where this season brings cold weather, together with the peak of acute respiratory diseases and their complications.(2) In Fortaleza, the period during which the treatment of acute respiratory diseases peaks is between March and June.(16) The highest numbers of admissions are seen in March and April. If this period coincides with the greatest circulation of the influenza virus, the second half of February would be the ideal period in which to administer the vaccine since it should be given at least two weeks before the arrival of the virus.(3) Administering the vaccine between April and May would reduce its effectiveness since, at the peak of the epidemic, the elderly would not have built up a protective quantity of antibodies.
In the city of São Paulo (state of São Paulo), a reduction in the number de episodes consistent with flu was seen in elderly individuals having received the vaccine in comparison with those not having received it. However, there were no significant differences in the overall hospitalization rates, in the rates of hospital admission for respiratory diseases, or in the overall use of antibiotics in the treatment of respiratory diseases.(17)

In the city of Maceió (state of Alagoas), the influenza virus was isolated with greater frequency in the oropharynx and nasopharynx of children treated at the two surveillance clinics in July, September, October and December. If the distribution of the influenza virus in Fortaleza presented seasonality similar to that seen in Maceió, one would expect greater effectiveness of the vaccination program.(18) There were no reports of the influenza virus being isolated in elderly individuals in Fortaleza. However, there were reports of the influenza virus being isolated in the nasopharynx of children, exclusively in the first semester (February to June) in the period from January of 2001 to June of 2003.(7-8)

In the final analysis, taking into consideration the fact that the vaccine against influenza administered to the elderly had the objective of reducing the risk of serious illness or death from influenza complications, it was not possible, from the data analyzed, to assess the effectiveness of such vaccination in the elderly population of Fortaleza. It is possible that infection occurred prior to the administration of the vaccine, or that another viral subtype was introduced, as occurred in the state of Pará. Studies of the seasonality of the influenza virus in Fortaleza should be conducted in order to re-evaluate the timing of the vaccination campaign.

REFERENCES

1. Forleo-Neto E, Halker E, Santos VJ, Paiva TM, Toniolo-Neto J. Influenza. Rev Soc Bras Med Trop. 2003;36(2):267-74.
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6. Arruda E, Hayden FG, McAuliffe JF, Sousa MA, Mota SB, McAuliffe MI, et al. Acute respiratory viral infections in ambulatory children of urban northeast Brazil. J Infect Dis. 1991;164(2):252-8.
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8. Furtado FM, Furtado FVS, Mendes ACS, Carvalho SBLM, Moura FEA. Vigilância de influenza em crianças atendidas no Hospital Infantil Albert Sabin, Fortaleza, durante três anos consecutivos (2001- 2003) [abstract]. In: 13 Congresso Brasileiro de Infectologia; 2003 Ago 31- Set 3; Goiânia-GO. Anais. Goiânia: Sociedade Goiana de Infectologia; 2003
9. Brasil. Ministério da Saúde. Campanha Nacional de Vacinação: informe técnico 2004. Brasília, DF. [citado 2004 Maio 20]. Disponível em: http://portal.saude.gov.br/portal/arquivos/pdf/doses_aplicadas.pdf
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11. Ceará. Centro de Estratégias de Desenvolvimento do Estado do Ceará Iplance Fundação Instituto de Pesquisa e Informação do Ceará. Anuário Estatístico do Ceará 2001. Fortaleza, CE: Iplance; 2001. V.10. Tomo 1. 88p.
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17. Gutierrez EB, Li HV, Santos ACS & Lopes MH. Effectiveness of influenza vaccination in elderly outpatients in São Paulo city, Brazil. Rev Inst Med Trop S Paulo. 2001;43(6):317-20.
18. Oliveira JF, Sá JPO, Cruz MEM. Identificação e monitorização do vírus Influenza A e B, na população de Maceió. Ciênc Saúde Coletiva. 2004;9(1):241-6.

*Study conducted in the Community Health Department of the Universidade Federal do Ceará (UFC, Federal University of Ceará) School of Medicine, Fortaleza, Ceará, Brazil
1. Professor of Clinical Treatment of Infectious Diseases in the Community Health Department of the Universidade Federal do Ceará (UFC, Federal University of Ceará) School of Medicine, Fortaleza, Ceará, Brazil
Correspondence to: Mônica Cardoso Façanha. Rua Pinto Madeira, 777, apto 701, Centro, Fortaleza -CE. CEP: 60150-000. Tel.: (85) 4009-8044, Fax: (85) 4009-8050; e-mail: mfacanha@yahoo.com
Submitted: 21 June, 2004. Accepted, after review: 26 April, 2005.

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