Abstract

Introduction

The Torque teno virus (TTV) was first detected in 1997 in the blood of Japanese patients with post-transfusion hepatitis.¹1  Nishizawa T, Okamoto H, Konishi K, Yoshizawa H, Miyakawa Y, Mayumi M. A novel DNA virus (TTV) associated with elevated transaminase levels in posttranfusion hepatitis of unknown etiology. Biochem Biophys Res Commun. 1997;241(1):92-7. ^{and 2}2  Okamoto H, Nishizawa T, Kato N, Ukita M, Ikeda H, Iizuka H, et al. Molecular cloning and characterization of a novel DNA virus (TTV) associated with posttransfusion hepatitis of unknown etiology. Hepatol Res. 1998;10(1):1-16. The virus was also detected in the liver and blood of people with hepatic pathologies of unknown etiology.²2  Okamoto H, Nishizawa T, Kato N, Ukita M, Ikeda H, Iizuka H, et al. Molecular cloning and characterization of a novel DNA virus (TTV) associated with posttransfusion hepatitis of unknown etiology. Hepatol Res. 1998;10(1):1-16. The association between TTV and liver diseases is still controversial, and several studies have been undertaken to identify infection sources.³3  Watanabe MA, Miranda HC, Oliveira KB, Oliveira CE, Tristão FS, Duarte LM, et al. Aspectos patológicos, imunológicos e propriedades moleculares do TT vírus. J Bras Patol Med Lab. 2005;41(4):223-8. ^{, 4}4  Nasser TF, Brajão de Oliveira K, Reiche EM, Amarante MK, Pelegrinelli Fungaro MH, Watanabe MA. Detection of TT virus in HIV-1 exposed but uninfected individuals and in HIV-1 infected patients and its influence on CD4+ lymphocytes and viral load. Microb Pathog. 2009;47(1):33-7. ^{and 5}5  Costa MR, Costa IP, Devalle S, Castro ARCM, Freitas SZ. Prevalence and genetic diversity of torque teno virus in patients with systemic lupus erythematosus in a reference service in Mato Grosso do Sul. Rev Bras Reumatol. 2012;52(1):49-54.

Epidemiological studies have evidenced the prevalence of TTV in other pathological conditions, such as in autoimmune diseases,⁴4  Nasser TF, Brajão de Oliveira K, Reiche EM, Amarante MK, Pelegrinelli Fungaro MH, Watanabe MA. Detection of TT virus in HIV-1 exposed but uninfected individuals and in HIV-1 infected patients and its influence on CD4+ lymphocytes and viral load. Microb Pathog. 2009;47(1):33-7. respiratory conditions⁶6  Maggi F, Pifferi M, Fornai C, Andreoli E, Tempestini E, Vatteroni M, et al. TT virus in the nasal secretion of children with acute respiratory diseases: relations to viremia and disease severity. J Virol. 2003;77(4):2418-25. and cancer.⁷7  Girard C, Ottomani L, Ducos J, Dereure O, Carles MJ, Guillot B. High prevalence of Torque Teno (TT) virus in classical Kaposi's sarcoma. Acta Derm Venereol. 2007;87(1):14-7. However, information is still lacking on TTV infection and the development of pathologies, as well as the change in the course of a particular disease.³3  Watanabe MA, Miranda HC, Oliveira KB, Oliveira CE, Tristão FS, Duarte LM, et al. Aspectos patológicos, imunológicos e propriedades moleculares do TT vírus. J Bras Patol Med Lab. 2005;41(4):223-8. ^{and 5}5  Costa MR, Costa IP, Devalle S, Castro ARCM, Freitas SZ. Prevalence and genetic diversity of torque teno virus in patients with systemic lupus erythematosus in a reference service in Mato Grosso do Sul. Rev Bras Reumatol. 2012;52(1):49-54.

Blood transfusion was initially indicated as the principal via of viral transmission due to direct contact with contaminated blood. Despite the progress in pretransfusion safety, blood recipients are not free from risk of contamination.⁸8  Carrazzone CF, Brito AM, Gomes YM. Importância da avaliação sorológica pré-transfusional em receptores de sangue. Rev Bras Hematol Hemoter. 2004;26(2):93-8.

The serological tests performed on blood donors in Brazil are established by the national health surveillance agency (ANVISA), and include serology for HIV1 and HIV2, HTLVI and HTLVII, hepatitis B (HBV), hepatitis C (HCV), Trypanosoma cruzi (Chagas disease), Treponema pallidum (syphilis) and Plasmodium in endemic areas of malaria. ⁹9  Ministério da Saúde. Agência Nacional de Vigilância Sanitária. Resolução da Diretoria Colegiada (RDC) No 153 de 14 de julho de 2004. Brasília: ANVISA; 2004.

Besides the serological tests conducted according to the Ministry of Health protocol, there is concern about the emerging and re-emerging diseases that can affect transfusion safety.¹⁰10  Karimi G, Gharehbaghian A, Tafti MF, Vafaiyan V. Emerging infectious threats to the blood supply: soroepidemiological studies in Iran - a Review. Transfus Med Hemother. 2013;40(3):210-7.

However, new routes of transmission have been identified, due to the presence of the virus in different biological excretions such as in feces,¹¹11  Okamoto H, Akahane Y, Ukita M, Fukuda M, Tsuda F, Miyakawa Y, et al. Fecal excretion of a nonenveloped DNA virus (TTV) associated with posttransfusion non-A-G hepatitis. J Med Virol. 1998;56(2):128-32. saliva¹²12  Naganuma M, Tominaga N, Miyamura T, Soda A, Moriuchi M, Moriuchi H. TT virus prevalence, viral loads and genotypic variability in saliva from healthy Japanese children. Acta Paediatr. 2008;97(12):1686-90. and also in river water contaminated by sewage.¹³13  Vecchia AD, Fleck JD, Comerlato J, Kluge M, Bergamaschi B, Da Silva JV, et al. First description of Adenovirus, Enterovirus, Rotavirus and Torque teno virus in water samples collected from the Arroio Dilúvio, Porto Alegre, Brazil. Braz J Biol. 2012;72(2):323-9.

Currently, wide variability in the prevalence of TTV has been observed in healthy populations in different countries, such as in Alexandria in Egypt (48.4%),¹⁴14  Hashish MH, El- Barrawy MA, Mahmoud OA, Abdel Rahman NW. TT virus among blood donors in Alexandria. J Egypt Public Health. 2005;80(5-6):651-64. United Arab Emirates (75.0%)¹⁵15  Alfaresi MS, Elnazer AM, Alzaabi AS, Elkoush AA, Islam AA. Transfusion transmitted virus in screened United Arab Emirates blood donors. Saudi Med J. 2006;27(1):58-62. and Iran (13.4%).¹⁶16  Sara A, Solhjoo K, Jahromi AR, Yaghobi R. Study the prevalence of TT virus infection in South Iranian volunteer blood donors. Afr J Microbiol Res. 2012;6(23):5077-81. In Brazil the prevalence of TTV varies from 6 to 85% in different states (Table 1).

Several factors may contribute to the variability of the results of TTV prevalence studies, such as the geographical distribution of the population under analysis, the diagnostic method used, the size of the study group and the difficulty of making a single set of primers able to identify the majority of viral genotypes.¹⁰10  Karimi G, Gharehbaghian A, Tafti MF, Vafaiyan V. Emerging infectious threats to the blood supply: soroepidemiological studies in Iran - a Review. Transfus Med Hemother. 2013;40(3):210-7. ^{and 15}15  Alfaresi MS, Elnazer AM, Alzaabi AS, Elkoush AA, Islam AA. Transfusion transmitted virus in screened United Arab Emirates blood donors. Saudi Med J. 2006;27(1):58-62.

TTV infection is common in healthy donors worldwide.¹⁵15  Alfaresi MS, Elnazer AM, Alzaabi AS, Elkoush AA, Islam AA. Transfusion transmitted virus in screened United Arab Emirates blood donors. Saudi Med J. 2006;27(1):58-62. ^{and 19}19  de Castro Amarante MF, Kashima S, Covas DT. TT virus (TTV) genotyping in blood donors and multiple transfused patients in Brazil. Virus Genes. 2007;35(3):503-9. Knowledge of the prevalence of the TT virus in specific regions, serves as a resource to elucidate the transmission routes and the possible cause of disease, and may assist in developing guidelines for actions to control virus transmission in populations. The aim of this study was to determine the prevalence of TTV in healthy donors in the northern and northwestern regions of Paraná state, as there is a lack of studies showing the prevalence of the TTV virus in healthy donors in southern Brazil.

Methods

This transverse quantitative analysis involves human DNA samples obtained from healthy donors in 2010. The population comprised 551 volunteers, aged between 18 and 55 years. The samples were grouped according to the geographic location of the source, in one of the seven mesoregions of Paraná State, according to the Brazilian Institute of Geography and Statistics (IBGE) (Northwest, Central-West, North-Central, the region of Norte Pioneiro, Central-Eastern, Mid-South and Metropolitan region of Curitiba) and other states.

A nested polymerase chain reaction (nested PCR) with specific primers for the N22 codifying region (ORF1 Open Reading Frame 1) was employed to detect TTV DNA. A sense primer (RD037) followed by oligonucleotide primers 5' GCA GCAGCA TAT GGA TAT GT 3' and RD038 (5' TGA CTG TGC TAA GGC CTC TA 3') were employed in the first amplification. The product of the first amplification and the antisense primers RD051 5' CAT ACA CAT GAA TGC CAG GC 3' and RD052 5' GTA CTT CTT GCT GGT GAA AT 3' were used in the second amplification. All reagents were identical in both reactions with a final volume of 25.0 µL comprised of 2.5 µL PCR buffer, 0.75 µL 50 mM magnesium chloride (MgCl₂), 2.0 µL 1.25 mM deoxyribonucleotide phosphate (dNTP), 1.0 µL of each sense (2.5 µM) and antisense (2.5 µM) primer, 2.5 µL Taq DNA polymerase (Invitrogen Life Technologies Brazil), and 12.75 µL sterile MilliQ water. A further 2.5 µL genomic DNA was used for the first amplification, and 2.5 µL of the product from the first amplification was used for the second amplification. Both reactions occurred in a thermocycler (Applied Biosystems) device with denaturing at 94 °C for 30 s, followed by 35 cycles at 53 °C for 30 s for primer annealing, 72 °C for 45 s for primer extension, with a final extension at 72 °C for 10 min. The amplified DNA products were analyzed by 2% agarose gel electrophoresis, stained with SYBR^(r) Safe (1 µL/10 mL gel), and photographed under UV light. The DNA Ladder (Invitrogen) consisted of 50 base pairs (bp) and the amplified DNA products of 197 bp. All tests included a positive control (TTV genomic DNA). Data were analyzed with the Statistic 7.0 computer program using the chi-squared test, Yates's continuity correction and Fisher's exact test with significance set at a level of 5%. The assay complied with all ethical guidelines and was approved by the Research Ethics Committee of the Universidade Estadual de Maringá (UEM), Paraná, Brazil (Process 271/2011).

Results

The demographic data and the prevalence of TTV in healthy blood donors are shown in Table 2. The mean age of the donors was 33.7 years, and the majority were women 62.6% (345/551). Most of the donors were Caucasian 83.1% (458/551). TTV viral DNA was detected in 69% (380/551) of blood donors. Among the sociodemographic variables, the proportion of TTV-positive individuals differed in respect to age (Fisher's exact test: p-value = 0.024), with the rate being higher in the 18-24 year olds. There was no statistically significant difference in the prevalence of the virus between gender and ethnic background (p-value > 0.05).

The prevalence of TTV in healthy blood donors was assessed by mesoregion of the state of Paraná, southern Brazil (Table 3). The statistics test (Chi squared with Yates correction) indicated no significant differences in the presence of the virus and the different mesoregions (p-value = 0.576).

Discussion

The prevalence of TTV in blood donors in the mesoregions of the state of Paraná in southern Brazil was 69%. Other studies in Brazilian populations showed 60% prevalence in Belém, Pará²⁰20  Pinto WV, Assis MF, Lemos JA. Prevalência do TTV em doadores de sangue, na região metropolitana de Belém- Pará. Caderno Saúde Coletiva. 2007;15(3):349-56. and 50.5% in the southeastern region of the state of São Paulo.¹⁸18  Bassit L, Takei K, Hoshino-Shimizu S, Nishiya AS, Sabino EC, Bassit RP, et al. New Prevalence Estimate of TT virus (TTV) infection in low- and high-risk population from São Paulo, Brazil. Rev Inst Med Trop Sao Paulo. 2002;44(4):233-4. In southern Brazil, studies showed a high prevalence of the virus in healthy donors (73.3%) in the municipality of Pelotas, RS²¹21  Massaú A, Martins C, Nachtigal GC, Araujo AB, Rossetti ML, Niel C, et al. The high prevalence of Torque Teno Virus DNA in blood donors and haemodialysis patients in southern Brazil. Mem Inst Oswaldo Cruz. 2012;107(5):684-6. and also the presence of the virus in samples of drinking water and sewage water.¹³13  Vecchia AD, Fleck JD, Comerlato J, Kluge M, Bergamaschi B, Da Silva JV, et al. First description of Adenovirus, Enterovirus, Rotavirus and Torque teno virus in water samples collected from the Arroio Dilúvio, Porto Alegre, Brazil. Braz J Biol. 2012;72(2):323-9. ^{and 22}22  Vecchia AD, Kluge M, dos Santos da Silva JV, Comerlato J, Rodrigues MT, Fleck JD, et al. Presence of Torque teno virus (TTV) in tap water in public schools from Southern Brazil. Food Environ Virol. 2013;5(1):41-5.

TTV transmission by blood transfusion has been a recurring concern since the 1990s.¹1  Nishizawa T, Okamoto H, Konishi K, Yoshizawa H, Miyakawa Y, Mayumi M. A novel DNA virus (TTV) associated with elevated transaminase levels in posttranfusion hepatitis of unknown etiology. Biochem Biophys Res Commun. 1997;241(1):92-7. In Brazil, a study conducted at a university hospital showed concern about the risk of viral transmission by blood transfusion,²³23  Schöninger N, Duro CL. Atuação do enfermeiro em serviço de hemoterapia. Ciênc Cuid Saúde. 2010;9(2):317-24. the serological screening of donors cannot provide complete protection from the transmission of infectious agents.

Similar to TTV, other viruses related to liver damage are overlooked in blood donors, including the hepatitis G virus (HGV). Some studies have shown the prevalence of HGV in healthy populations of Japan (0.9%) and South Africa (18.9%).²⁴24  Sathar MA, Soni PN, York D. GB Virus C/Hepatitis G Virus (GBV- C/HGV): still looking for a disease. Int J Exp Pathol. 2000;81(5):305-22. In Brazil a prevalence of 7.1% was also shown in the state of Goias²⁵25  Oliveira LA, Martins RM, Carneiro MA, Teles AS, Silva AS, Cardoso DD, et al. Prevalence and genotypes of GB Virus C/Hepatitis G virus among blood donors in Central Brazil. Mem Inst Oswaldo Cruz. 2002;97(7):953-7. and 9.7% in São Paulo.²⁶26  Levi JE, Contri DG, Lima LP, Takaoka DT, Garrini RH, Santos W, et al. High prevalence of GB Virus C/Hepatitis G Virus RNA among Brazilian blood donors. Rev Inst Med Trop Sao Paulo. 2003;45(2):75-8.

Although TTV contamination can occur from both contaminated blood and blood products,²2  Okamoto H, Nishizawa T, Kato N, Ukita M, Ikeda H, Iizuka H, et al. Molecular cloning and characterization of a novel DNA virus (TTV) associated with posttransfusion hepatitis of unknown etiology. Hepatol Res. 1998;10(1):1-16. there is no specific legislation that requires testing of blood donors for the virus. Therefore, little is known about the routes of transmission and diseases originating from the presence of the virus in the human population.

Based on the results presented, the association of the virus with the study variables can be determined (Table 2). The prevalence of TTV infection was (380/69%) in healthy donors from the northern and northwestern regions of Paraná, slightly below that found in Rio Grande do Sul (73.3%)²¹21  Massaú A, Martins C, Nachtigal GC, Araujo AB, Rossetti ML, Niel C, et al. The high prevalence of Torque Teno Virus DNA in blood donors and haemodialysis patients in southern Brazil. Mem Inst Oswaldo Cruz. 2012;107(5):684-6. and the region of São Paulo (85.3%).¹⁸18  Bassit L, Takei K, Hoshino-Shimizu S, Nishiya AS, Sabino EC, Bassit RP, et al. New Prevalence Estimate of TT virus (TTV) infection in low- and high-risk population from São Paulo, Brazil. Rev Inst Med Trop Sao Paulo. 2002;44(4):233-4. However, one should also note that the prevalence of the virus in other countries ranged from 2.7 to 79.5%.¹⁰10  Karimi G, Gharehbaghian A, Tafti MF, Vafaiyan V. Emerging infectious threats to the blood supply: soroepidemiological studies in Iran - a Review. Transfus Med Hemother. 2013;40(3):210-7. The variables of gender, race (Caucasian or African descent), and marital status showed no statistical association with the presence of the virus. The results of this study are in agreement with other studies that have suggested that TTV infection is relatively common in different populations and in different regions of the world.¹1  Nishizawa T, Okamoto H, Konishi K, Yoshizawa H, Miyakawa Y, Mayumi M. A novel DNA virus (TTV) associated with elevated transaminase levels in posttranfusion hepatitis of unknown etiology. Biochem Biophys Res Commun. 1997;241(1):92-7. ^{and 2}2  Okamoto H, Nishizawa T, Kato N, Ukita M, Ikeda H, Iizuka H, et al. Molecular cloning and characterization of a novel DNA virus (TTV) associated with posttransfusion hepatitis of unknown etiology. Hepatol Res. 1998;10(1):1-16.

With respect to age groups, the study included individuals between 18 and 55 years and revealed a high prevalence of infected young people between 18 and 24 (74.7%). However, it was found that the prevalence declined in over 24-year-old individuals, especially those of 54 and 55 (41.7%). This contrasts with previous studies that showed a cumulative prevalence with increasing age, or the presence of the virus independently of age.²⁷27  Hsieh SY, Wu YH, Ho YP, Tsao KC, Yeh CT, Lian YF. High prevalence of TT virus infection in healthy children and adults and in patients with liver disease in Taiwan. J Clin Microbiol. 1999;37(6):1829-31.

Several studies conducted in different countries and individuals in different age groups demonstrated varying prevalences for TTV.¹⁸18  Bassit L, Takei K, Hoshino-Shimizu S, Nishiya AS, Sabino EC, Bassit RP, et al. New Prevalence Estimate of TT virus (TTV) infection in low- and high-risk population from São Paulo, Brazil. Rev Inst Med Trop Sao Paulo. 2002;44(4):233-4. ^{and 28}28  Vasconcelos HC, Menezes ME, Niel C. TT virus infection in children and adults who visited a general hospital in the south of Brazil for routine procedure. Mem Inst Oswaldo Cruz. 2001;96(4):519-22. The discussion of other age groups is limited by the particular population selected for this study. The results of this study indicated that the presence of TTV was significantly associated with age (p-value = 0.024), in agreement with a study in Pelotas, southern Brazil. ²¹21  Massaú A, Martins C, Nachtigal GC, Araujo AB, Rossetti ML, Niel C, et al. The high prevalence of Torque Teno Virus DNA in blood donors and haemodialysis patients in southern Brazil. Mem Inst Oswaldo Cruz. 2012;107(5):684-6.

The data for mesoregions (Table 3) indicate that there was no statistically significant difference between the presence of the virus and the samples from donors from different regions of Paraná. The grouping in mesoregions was necessary due to the large number of municipalities that comprised this study. Most of the donors were from the north-central and north-west Paraná mesoregions (98%) with prevalences of 68.5% and 68.7%, respectively. These regions belong to the 15th Regional Health District of Paraná and refer the city of Maringa, Parana, Brazil. Abe et al. demonstrated that the TTV virus is widely distributed in different regions of the planet, and with high prevalence rates.²⁹29  Abe K, Inami T, Asano K, Miyoshi C, Masaki N, Hayashi S, et al. TT virus infection is widespread in the general populations from different geographic regions. J Clin Microbiol. 1999;37(8):2703-5.

As is apparent from the literature, several factors may influence the variability of results for TTV prevalence, among them the geographical distribution of the populations studied, the diagnostic methods of detection, the size of study groups and the set of primers used in the study.³3  Watanabe MA, Miranda HC, Oliveira KB, Oliveira CE, Tristão FS, Duarte LM, et al. Aspectos patológicos, imunológicos e propriedades moleculares do TT vírus. J Bras Patol Med Lab. 2005;41(4):223-8. ^{, 15}15  Alfaresi MS, Elnazer AM, Alzaabi AS, Elkoush AA, Islam AA. Transfusion transmitted virus in screened United Arab Emirates blood donors. Saudi Med J. 2006;27(1):58-62. ^{and 28}28  Vasconcelos HC, Menezes ME, Niel C. TT virus infection in children and adults who visited a general hospital in the south of Brazil for routine procedure. Mem Inst Oswaldo Cruz. 2001;96(4):519-22.

The high rates of viral prevalence may be directly related to the forms of contamination. A study of samples of blood and saliva from the same individuals showed the presence of the virus in the same proportions regardless of the biological sample used.³⁰30  Spandole S, Cimponeriu D, Toma M, Radu I, Ion D. Rapid detection of human torque teno viruses using high-resolution melting analysis. Balkan J Med Genet. 2013;16(1):55-62. The presence of the virus in water has been investigated over time, and although the purpose of the present study was not to demonstrate the presence of virus in environmental samples, the importance of this analysis for studying the viral prevalence in a given region is important.

Studies have detected TTV in 97% of water samples collected in Japan³¹31  Haramoto E, Katayama H, Oguma K, Yamashita H, Nakajima E, Ohgaki S. One -year monthly monitoring of Torque Teno Virus (TTV) in wastewater treatment plants in Japan. Water Res. 2005;39(10):2008-13. and in Brazil, in 92% of samples collected from rivers and streams in Manaus.³²32  Diniz-Mendes L, Paula VS, Luz SL, Niel C. High prevalence of human Torque Teno virus in streams crossing the city of Manaus, Brazilian Amazon. J Appl Microbiol. 2008;105(5):51-8. The viral genome was also reported in samples of drinking water in Rio Grande do Sul.¹³13  Vecchia AD, Fleck JD, Comerlato J, Kluge M, Bergamaschi B, Da Silva JV, et al. First description of Adenovirus, Enterovirus, Rotavirus and Torque teno virus in water samples collected from the Arroio Dilúvio, Porto Alegre, Brazil. Braz J Biol. 2012;72(2):323-9. The presence of TTV in the water of rivers, lakes, and treatment plants and especially in drinking water has had a major impact in spreading the virus. This may be related to the high prevalence of the virus in healthy individuals.

Conclusion

This study found a high prevalence of TTV in healthy blood donors, in agreement with other studies in the Brazilian population. The clinical significance of the presence of the virus in these donors cannot be evaluated based on this study, but can serve as a basis for future studies. In view of the different transmission routes and the lack of complete information about the pathogenesis of TTV, it is important to develop measures to minimize the risk of transmission of this and other viruses among healthcare providers.

References

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