SciELO - Scientific Electronic Library Online

 
vol.21 issue3Effects of violence and discrimination on the mental health of bisexuals, lesbians, and gays in Mexico CityBlood donation: a marketing perspective author indexsubject indexarticles search
Home Pagealphabetic serial listing  

Cadernos de Saúde Pública

Print version ISSN 0102-311X

Cad. Saúde Pública vol.21 no.3 Rio de Janeiro May/June 2005

http://dx.doi.org/10.1590/S0102-311X2005000300027 

ARTIGO ARTICLE

 

Heterogeneous geographic distribution of human T-cell lymphotropic viruses I and II (HTLV-I/II): serological screening prevalence rates in blood donors from large urban areas in Brazil

 

Distribuição geográfica heterogênea dos vírus linfotrópicos humanos de célula T tipos I e II (HTLV-I/II): prevalência na triagem sorológica de doadores de sangue de grandes áreas urbanas no Brasil

 

 

Bernadette Catalan-SoaresI; Anna Bárbara de F. Carneiro-ProiettiI; Fernando Augusto ProiettiII; Interdisciplinary HTLV Research GroupIII

IFundação Hemominas, Belo Horizonte, Brasil
IIFaculdade de Medicina, Universidade Federal de Minas Gerais, Belo Horizonte, Brasil
IIIInterdisciplinary HTLV Research Group, composed by Barbosa EF, Brito-Melo GEA, Carneiro-Proietti ABF, Catalan-Soares BC, Cruz B, Guedes AC, Kroon EG, Lambertucci JR, Namen-Lopes MSS, Martins ML, Martins Filho OA, Nobre V, Pfeilstiker OMC, Pinheiro SR, Proietti FA, Ribas JGR, Thorun GW

Correspondence

 

 


ABSTRACT

Brazil may have the highest absolute number of HTLV-I/II seropositive individuals in the world. Screening potential blood donors for HTLV-I/II is mandatory in Brazil. The public blood center network accounts for about 80.0% of all blood collected. We conducted a cross-sectional study to assess the geographic distribution of HTLV-I/II serological screening prevalence rates in blood donors from 27 large urban areas in the various States of Brazil, from 1995 to 2000. Enzyme immunoassay (EIA) was used to test for HTLV-I/II. The mean prevalence rates ranged from 0.4/1,000 in Florianópolis, capital of Santa Catarina State, in the South, to 10.0/1,000 in São Luiz, Maranhão State, in the Northeast. EIA prevalence rates are lower in the South and higher in the North and Northeast. The reasons for such heterogeneity may be multiple and need further studies.

HTLV-I; HTLV-II; Blood Donors; Immunoenzyme Techniques


RESUMO

Devido ao tamanho absoluto de sua população, o Brasil pode abrigar o maior número absoluto de pessoas soropositivas para HTLV-I/II. A triagem sorológica para o HTLV-I/II, dos candidatos à doação de sangue é obrigatória no país e a rede de hemocentros é responsável pela coleta de aproximadamente 80,0% do sangue doado. Conduzimos estudo transversal para determinar e quantificar a distribuição geográfica das taxas de prevalência para HTLV-I/II resultantes da triagem em candidatos a doadores de sangue, doando em 27 áreas urbanas correspondendo às capitais de cada um dos Estados brasileiros, no período de 1995 a 2000. Neste estudo, o teste de EIA foi utilizado para testar a presença de anticorpos para HTLV-I/II. As taxas de prevalência médias apresentaram grande heterogeneidade geográfica, variando de 0,4/1.000 em Florianópolis, na Região Sul, até uma taxa 25 vezes maior, 10,0/1.000 em São Luís, na Região Nordeste. Em média, as taxas de soropositividade ao EIA são menores nas capitais do Sul do país, tendendo a aumentar em direção ao Nordeste e Norte. As razões para esta heterogeneidade podem ser múltiplas e necessitam de mais estudos.

HTLV-I; HTLV-II; Doadores de Sangue; Técnicas Imunoenzimáticas


 

 

Introduction

Since 1989 several studies have reported on the occurrence of human T-lymphotropic viruses I and II (HTLV-I/II) and associated diseases in Brazil 1,2,3,4. However, only mandatory screening for the viruses in potential blood donors, beginning in 1993, allowed for a better understanding of the public health importance and distribution of the viruses.

Two diseases are clearly associated with HTLV-I seropositivity: adult T-cell leukemia (ATL) 5,6,7,8 and a neurological disease, HTLV-I associated myelopathy/tropical spastic paraparesis (HAM/TSP) 9,10,11. Other diseases have been associated with HTLV-I, for example polymyositis, polyarthritis, uveitis, and dermatological conditions 12,13.

Although HTLV-I/II enzyme immunoassay (EIA) screening is mandatory, the Brazilian Ministry of Health does not require confirmatory tests by blood centers. There is a recommendation that donors who are seropositive according to EIA be referred to their physicians or to city, State, or Federal public health services for confirmatory tests and counseling. Depending on the city and State there is no established or clear referral policy, and the blood centers frequently assume the responsibility for confirmatory testing and counseling. In Brazil, reporting of HTLV-I/II-associated diseases is not required. Consequently, nationwide data on their occurrence are not available for meaningful public health recommendations for physicians and other health professionals.

Based on data from blood donations and in only one population-based study in the State of Bahia (Northeast region), it is estimated that Brazil may have the largest absolute number of seropositive individuals in the world, about 2.5 million 8.

In 2000, the HTLV Chapter of the Brazilian Virology Society (SBV) recommended a nationwide descriptive study of HTLV-I/II seroprevalence among individuals donating blood at the network of public blood centers in the country. This network, known as the Public Blood Center Network, has services in each of the 26 States and the Federal District (or Brasília, the national capital). This paper reports the results of this study. To our knowledge, this is the first comprehensive description of the geographic distribution of HTLV-I/II screening results among potential blood donors in Brazil.

 

Material and methods

Study population

Brazil is a tropical country with a territory of 8,514,215 km2 and a population of 169,799,170. The country is divided administratively and politically into 26 States and the Federal District. The States are highly heterogeneous in size, population density, demography, economic development, and social and health indicators. Our data refer to the largest urban areas in each State, represented by the State capitals. It is estimated that about half of the Brazilian population live in these 27 Greater Metropolitan Areas 14.

The Public Blood Center Network is the largest and most important network of blood centers in Brazil and is responsible for about 80.0% of the blood collected in the country. Blood donor selection procedures (clinical exam and interview, blood collection, laboratory testing) are relatively uniform throughout the Network, following official written guidelines issued by the Ministry of Health.

Donor candidates are submitted to a routine pre-donation questionnaire and clinical examination. Individuals considered eligible for blood donation are between 18 and 60 years of age, in general good health, and have no report of risk behavior for retrovirus infection (use of illegal injecting drugs, unsafe sexual practices, etc.) and no history of blood/blood product transfusion in the previous ten years. Qualified donors are tested for bloodborne infections, namely HTLV-I/II, HIV-1/2, HBV, HCV, Trypanosoma cruzi, and Treponema pallidum. In Brazil, all donors are volunteers, since the law forbids any reimbursement or compensation for blood donation.

For HTLV-I/II, donor candidates are considered seropositive if their serum samples are positive for antibodies in the EIA as well as in the Western Blot (WB) confirmatory test, according to manufacturer's instructions. However, since WB testing is not legally required, in many centers the test is not performed. In this situation, after initial counseling individuals are referred to their physicians or city, State, or Federal public health services.

Study design and source of information

We conducted an observational cross-sectional study. The unit of study is each blood center belonging to the Public Blood Center Network, located in the 26 State capitals and the Federal District (Brasília). We began by describing the study objectives and methodology to the director of each of the 27 blood centers. After their consent we mailed a questionnaire requesting information for the period from January 1995 to December 2000 on the following: number of donations, number of blood samples tested for HTLV-I/II and the serological results for EIA (and WB when available), as well as information on test manufacturers.

 

Results

EIA was performed on 6,218,619 donations/ donors from the 27 Greater Metropolitan Areas from January 1995 to December 2000. Only 11 blood centers (40.1%) reported conducting WB on EIA-seropositive samples for at least one year during the study period. Therefore this information was not further considered in this report.

Figure 1 shows the geographic location of the 27 blood centers participating in the study as well as the mean HTLV-I/II prevalence rates for the period 1995-2000. There is important geographic heterogeneity between the mean prevalence rates, ranging from 0.4/1,000 in Florianópolis, Santa Catarina State, in the South, to a rate 25 times higher, 10.0/1,000 in São Luís, Maranhão State, in the Northeast. On average, EIA prevalence rates are lower in the main cities in the South and higher in the North and Northeast (Figure 2).

 

 

 

 

Table 1 shows average prevalence rates by year. The highest mean prevalence rate was in 1996. Nationwide, beginning in 1997 there was a consistent decrease in the rates, ranging from 5.55/1,000 in 1995, one year after implementation of mandatory HTLV-I/II screening, to 3.26/ 1,000 in 2000.

 

 

Discussion

Our results display an important geographic heterogeneity in the distribution of HTLV-I/II serological screening prevalence rates in potential blood donors from large urban areas in Brazil. Similar data were reported 4 in a more limited sample including five cities representing four of the five Brazilian regions (no city from the Central Western Region was included). Primary population-based studies from other HTLV-I/II endemic areas report similar results. In Japan, the geographic distribution of HTLV-I/II is characterized by important variability, with clustering of the infection and much higher seroprevalence rates in some areas than in others, especially in the Southwest 15,16. In Colombia (South America) and Jamaica (Caribbean), seroprevalence was higher in low-altitude areas 17,18. However, another study from Jamaica did not find major geographic variation in HTLV-I seroprevalence among the country's political subdivisions 19.

The decrease in overall seroprevalence with time may be a result of the current exclusion of HTLV-I/II seropositive individuals from the pool of potential blood donors. It is possible that these individuals are not replaced with equal numbers (or at an equal rate) of seropositive blood donor candidates, resulting in the decreasing trend found in our study, even for such a short period of time.

It is well known in Brazil that blood donors and possibly potential blood donors are not representative of the general population. There are many reasons for the non-comparability. It may be a consequence of official guidelines (for example, age 18-60 years) and poorly studied behaviors (for example, the fact that potential blood donors are predominantly male). However, nationwide data derived from this group can be compared, even considering the methodological limitations of our study. All services under the Public Blood Center Network follow similar national guidelines for routine pre-donation questionnaires and serological screening, using third-generation EIA as the screening test for HTLV-I/II. As a consequence, concerning age, sex distribution, and behavioral profile, eligible donors are quite similar all over the country. Therefore, variability between blood centers in the distribution of these variables, especially age and sex, known to be highly correlated with HTLV-I/II seropositivity, could hardly explain the heterogeneous seroprevalence rates between centers. However, we can not rule out other potential sources of bias, like variability between EIA manufacturers and/or among laboratory personnel responsible for the testing.

This study was not designed to address the determinants of HTLV-I/II geographic variability among blood donors. However, at least three possibilities could be suggested. One is prehistoric population migration from Asia through North America, reaching what is now the North and Northeast area of Brazil before the rest of the country. Other possibilities are the African slave trade during Portuguese colonization, mostly to the Southeast and Northeast of Brazil, suggesting a Post-Columbian African origin of the virus 20, and the intense Japanese immigration during the first half of the 20th century, mostly to São Paulo State in the Southeast. Besides, in relation to economic, educational, health, and other inequalities (which are worse on average in the North and Northeast), there is a clear positive ecological or aggregate correlation trend with the higher HTLV-I/II seroprevalence rates among blood donors in these regions of the country. This finding is similar to individual data we reported from one of the blood centers, in Belo Horizonte, Minas Gerais State, in the Southeast 21; the study population consisted of former blood donor candidates, who were HTLV-I/II seropositive or seroindeterminate, and seronegative blood donors (EIA and WB tested), enrolled in an open prevalence prospective cohort study. The cross-sectional analysis at the baseline visit evaluated behavioral and environmental risk factors. In the multinomial logistic regression model, HTLV-I/II seropositivity was associated with history of receiving a blood transfusion, use of non-intravenous illegal drugs, and fewer years of formal education, a marker for socioeconomic status.

Nevertheless, further studies are needed to better elucidate the observed spatial heterogeneity in HTLV-I/II seroprevalence among blood donors in Brazil.

 

Contributors

B. Catalan-Soares and A. B. F. Carneiro-Proietti contributed to the data collection at the respective blood centers in the Brazilian State capitals and Federal District. B. Catalan-Soares and F. A. Proietti tabulated and analyzed the data. The three authors participated in drafting and reformulating the article and in the literature review. The various sectors in the article were approached main according to the respective authors' specialties (A. B. F. Carneiro-Proietti: Hematology; B. Catalan-Soares and F. A. Proietti: Epidemiology and Statistics).

 

Acknowledgments

The authors would like to thank the directors of all participating Public Blood Centers (Hemocenter Network) and the following individuals: HEMOSC: Jane Terezinha Martins, Fernando César Luiz; HEMOPAR: Maria do Pilar G. E. Bertol; Elza Candeu Jagher; PRÓ-SANGUE: Nanci Alves Salles; Dalton Chamone; HEMORIO: Katia Machado da Motta, Sílvia Maia Farias Carvalho; HEMOMINAS: Adriano Eustáquio do Amaral, Marcelo Eduardo Lima Souza; HEMOES: Fabrício Souza; HEMOBA: Aurelino de Jesus Santana, Rita de Cássia de Jesus A. Cabral; HEMOSE: Maria Cristina Andrusyszyn Celino, Davis Almeida; HEMOAL: Dimas Ferreira da Silva Junior; HEMOPE: Paula Loureiro, Ana Cristina Bezerra; HEMOÍBA: Socorro Pires; HEMONORTE: Manoel Josué Batista Neto; HEMOCE: Vânia Barreto A. F. Gomes; HEMOPI: José da Silva Fonte; HEMOMAR: Dinaura M. Cruz; HEMOPA: Ana Suely Leitte Saraiva, Maria do Socorro de O. Cardoso; HEMOAM: Claudia Abrahim; HEMORAIMA: Erika Araújo; HEMOACRE: Edilene Maria Alves Sabóia; HEMORON: Maria do Socorro Rodrigues da Silva; HEMOMAT: Brígida Rosa; HEMOSUL: Hélio Dantas Santos; HEMOTO: Perla Risette Alves Lima; HEMOG: Célio Oliveira Santos; Distrito Federal: Mariza Rodrigues Naves e Ribeiro; Rio Grande do Sul: Carlos Vicente Timponi; Amapá: Juvanete Amoras.

 

References

1. Cortes E, Detels R, Aboulafia D, Li XL, Moudgil T, Alam M, et al. HIV-1, HIV-2 and HTLV-I infection in high-risk groups in Brazil. N Engl J Med 1989; 320:953-8.        [ Links ]

2. De Oliveira MS, Matutes E, Famadas LC, Schulz TF, Calabro ML, Nucci M, et al. Adult T-cell leukaemia/lymphoma in Brazil and its relation to HTLV-I. Lancet 1990; 336:987-90.        [ Links ]

3. Proietti FA, Lima-Martins MV, Passos VM, Brener S, Carneiro-Proietti AB. HTLV-I/II seropositivity among eligible blood donors from Minas Gerais State, Brazil. Vox Sang 1994; 67:77.        [ Links ]

4. Galvão-Castro B, Loures L, Rodrigues LG, Sereno A, Ferreira Jr. OC, Franco LG et al. Distribution of human T-lymphotropic virus type I among blood donors: a nationwide Brazilian study. Transfusion 1997; 37:242-3.        [ Links ]

5. Blattner WA, Gibbs WN, Saxinger C, Robert-Guroff M, Clark J, Lofters W, et al. Human T-cell leukaemia/lymphoma virus-associated lymphoreticular neoplasia in Jamaica. Lancet 1983; 2:61-4.        [ Links ]

6. Yoshida M, Seiki M, Yamaguchi K, Takatsuky K. Monoclonal integration of human T-cell leukemia provirus in all primary tumors of adult T-cell leukemia suggests causative role of human T-cell leukemia virus in this disease. Proc Natl Acad Sci U S A 1984; 81:2534-7.        [ Links ]

7. Tokudome S, Tokunaga O, Shimamoto Y, Miyamoto Y, Sumida I, Kikuchi M, et al. Incidence of adult T-cell leukemia/lymphoma among human T-lymphotropic virus type I carriers in Saga, Japan. Cancer Res 1989; 49:226-8.        [ Links ]

8. Carneiro-Proietti AB, Ribas JG, Catalan-Soares BC, Martins ML, Brito-Melo GE, Martins-Filho OA, et al. Infecção e doença pelos vírus linfotrópicos humanos de célula T (HTLV-I/II) no Brasil. Rev Soc Bras Med Trop 2002; 35:499-508.        [ Links ]

9. Gessain A, Barin F, Vermant JC, Gout O, Maurs L, Calender A, et al. Antibodies to human T-lymphotropic virus type I in patients with tropical spastic paraparesis. Lancet 1985; 2:407-10.        [ Links ]

10. Osame M, Usuku K, Izumo S, Ijichi N, Amitani H, Igata A, et al. HTLV-I associated myelopathy, a new clinical entity. Lancet 1986; 1:1031-2.        [ Links ]

11. Castro-Costa CM, Salgueiro MR, Caron H. Tropical spastic paraparesis in Northeastern Brazil. Arq Neuropsiquiatr 1989; 47:134-8.        [ Links ]

12. LaGrenade L, Hanchard B, Fletcher V, Cranston B, Blattner W. Infective dermatitis of Jamaican children: a marker for HTLV-I infection. Lancet 1990; 336:1345-7.        [ Links ]

13. Mochizuki M, Watanabe T, Yamaguchi K, Yoshimura K, Nakashima S, Shirao M, et al. Uveitis associated with human T-cell lymphotropic virus type I. Am J Ophthalmol 1992; 114:123-9.        [ Links ]

14. Instituto Brasileiro de Geografia e Estatística. Características da população e dos domicílios – resultados do Universo 2000. Censo demográfico. Rio de Janeiro: Instituto Brasileiro de Geografia e Estatística; 2000.        [ Links ]

15. Hinuma Y, Komoda H, Chosa T, Kondo T, Kohakura M, Takenaka T, et al. Antibodies to adult T-cell leukemia-virus-associated antigen (ATLA) in sera from patients with ATL and controls in Japan: a nationwide seroepidemiologic study. Int J Cancer 1982; 29:631-5.        [ Links ]

16. Ishida T, Yamamoto K, Omoto K, Iwanaga M, Osato T, Hinuma Y. Prevalence of a human retrovirus in native Japanese: evidence for a possible ancient origin. J Infect 1985; 11:153-7.        [ Links ]

17. Maloney EM, Ramirez HC, Levin A, Blattner WA. A survey of the human T-cell lymphotropic virus type I (HTLV-I) in south-western Colombia. Int J Cancer 1989; 44:419-23.        [ Links ]

18. Maloney EM, Murphy EL, Figueroa JP, Gibbs WN, Cranston B, Hanchard B, et al. Human T-lymphotropic virus type I (HTLV-I) seroprevalence in Jamaica. II. Geographic and ecological determinants. Am J Epidemiol 1991; 133:1125-34.        [ Links ]

19. Murphy EL, Figueroa JP, Gibbs WN, Holding-Cobham M, Cranston B, Malley K, et al. Human T-lymphotropic virus type I (HTLV-I) seroprevalence in Jamaica. I. Demographic determinants. Am J Epidemiol 1991; 133:1114-24.        [ Links ]

20. Alcantara Jr. LC, van Dooren S, Gonçalves M, Kashima S, Costa MC, Santos FL, et al. Globin haplotypes of human T-cell lymphotropic virus type I-infected individuals in Salvador, Bahia, Brazil, suggest a Post-Columbian African origin of this virus. J Acquir Immune Defic Syndr 2003; 33:536-42.        [ Links ]

21. Catalan-Soares B, Carneiro-Proietti ABF, Proietti FA. Human T-cell lymphotropic viruses type I and II (HTLV-I/II) in blood donors in Minas Gerais, Brasil: determinants associated with seropositivity in a low-risk population. Rev Saúde Pública 2003; 37:470-6.        [ Links ]

 

 

Correspondence to
B. Catalan-Soares
Fundação Hemominas
Al. Ezequiel Dias 321
Belo Horizonte, MG 30130-110, Brasil
pesquisa@hemominas.mg.gov.br  

Submitted on 12/Feb/2004
Final version resubmitted on 14/Jun/2004
Approved on 24/Jun/2004