Epidemiological survey of hepatitis C in a region considered to have high prevalence: the state of Minas Gerais, Brazil

Gomide, Geisa Perez Medina; Melo, Camila Borges de; Santos, Vanduí da Silva; Salge, Vanessa Dib; Camargo, Fernanda Carolina; Pereira, Gilberto de Araújo; Cabral, Sônia Cançado de Oliveira; Molina, Rodrigo Juliano; Oliveira, Cristina da Cunha Hueb Barata de

doi:10.1590/0037-8682-0202-2019

Abstract

INTRODUCTION:

The prevalence of hepatitis C virus (HCV) infection is affected by demographic, virological, clinical, and lifestyle-related factors and varies in different regions in Brazil or worldwide. The present study aimed to clarify the epidemiological patterns of HCV infection in the interior region of Brazil.

METHODS:

This study was conducted in the Southern Triangle Macro-region of the state of Minas Gerais, Brazil, according to the guidelines of the National Program for the Prevention and Control of Viral Hepatitis. The participants answered a structured questionnaire on social and epidemiological factors. Immunochromatographic rapid tests were used for the qualitative detection of antibodies against HCV in whole blood (Alere HCV® Code 02FK10) in adult subjects by a free-standing method.

RESULTS:

Of 24,085 tested individuals, 184 (0.76%) were anti-HCV positive. The majority of anti-HCV-positive individuals were born between 1951 and 1980 (n=146 [79.3%]), with 68 women and 116 men. Identified risk factors included syringe and/or needle sharing (p = 0.003), being in prison (p = 0.004), and having tattoos or piercings (p = 0.005) and were significantly associated with the decade of birth.

CONCLUSIONS:

The study shows the importance of testing populations at risk for HCV infection, including incarcerated individuals, those with tattoos or piercings, those who share or have shared syringes or needles, and those in high-risk birth cohorts (1950s, 1960s, and 1970s) in the Southern Triangle Macro-region.

Keywords:
Hepatitis C virus; Anti-HCV; Epidemiology; Prevalence; Risk groups

INTRODUCTION

Approximately 70 million individuals worldwide are infected with hepatitis C virus (HCV)¹1. Mbituyumuremyi A, Van Nuil JI, Umuhire J, Mugabo J, Mwumvaneza M, Makuza JD, et al. Controlling hepatitis C in Rwanda: a framework for a national response. Bull World Health Organ. 2018;96(1):51-8.. HCV causes hepatitis C, which is currently considered a global health problem by the World Health Organization. Hepatitis C is a curable but frequently underdiagnosed disease and associated with several hepatic and extrahepatic manifestations, including malignant tumors²2. The Lancet. Hepatitis C: global ambition, national realities. Lancet. 2016;387(10032):1970.^,³3. Baptista-González H, Nofal-Nuño VM, Méndez-Sánchez N. Frequency of hepatitis C virus infection in a single institution in Mexico with a focus on birth-cohort population. Ann Hepatol. 2016;15(6):846-52.. In 2012, the Centers for Disease Control and Prevention in the USA recommended testing all individuals born between 1945 and 1965 (baby boomers); this is because the National Health and Nutrition Examination Survey revealed that 75% of individuals infected with HCV were in this age group⁴4. Akiyama MJ, Kaba F, Rosner Z, Alper H, Holzman RS, MacDonald R. Hepatitis C Screening of the "Birth Cohort" (Born 1945-1965) and Younger Inmates of New York City Jails. Am J Public Health. 2016;106(7):1276-7.^,⁵5. Smith BD, Morgan RL, Beckett GA, Falck-Ytter Y, Holtzman D, Teo CG, et al. Centers for Disease Control and Prevention. Recommendations for the identification of chronic hepatitis C virus infection among persons born during 1945-1965. MMWR Recomm Rep. 2012;61(RR-4):1-32.. The prevalence of HCV infection is affected by several demographic, virological, clinical, and lifestyle-related factors. To establish appropriate strategies for the detection, prognosis, and treatment of this disease, it is important to understand the factors that determine the prevalence and burden of HCV infection⁶6. Thrift AP, El-Serag HB, Kanwal F. Global epidemiology and burden of HCV infection and HCV-related disease. Nat Rev Gastroenterol Hepatol. 2017;14(2):122-32..

In Brazil, previous studies have shown that the prevalence of HCV infection increases in patients aged >40 years; almost half of patients diagnosed as HCV positive were aged 46-60 years, with the maximum prevalence among those aged 50-60 years. A population-based prevalence study performed in the capital cities of Brazil between 2005 and 2010 found that the overall prevalence of HCV infection was 1.38% (95% confidence interval [CI] , 1.12-1.6%) and 1.27% (95% CI, 1.0%-1.6%) in the capitals of Southeast Brazil⁷7. Oliveira AC, Bortotti AC, Nunes NN, El Bacha IA, Parise ER. Association between age at diagnosis and degree of liver injury in hepatitis C. Braz J Infect Dis. 2014;18(5):507-11.

8. Focaccia R, da Conceição OJ, Sette H Jr, Sabino E, Bassit L, Nitrini DR, et al. Estimated Prevalence of Viral Hepatitis in the General Population of the Municipality of São Paulo, Measured by a Serologic Survey of a Stratified, Randomized and Residence-Based Population. Braz J Infect Dis . 1998;2(6):269-84.^-⁹9. Pereira LM, Martelli CM, Moreira RC, Merchan-Hamman E, Stein AT, Cardoso MR, et al. Prevalence and risk factors of Hepatitis C virus infection in Brazil, 2005 through 2009: a cross-sectional study. BMC Infect Dis. 2013;13:60..

A survey of hepatitis A, B, and C virus infection performed in 13 Macro-regions of the state of Minas Gerais in 2012 showed that the overall prevalence of HCV antibody positivity was 1.33% (95% CI, 1.09%-1.56%), with the highest prevalence (2.47%) in the Southern Triangle Macro-region¹⁰10. Estudo de Prevalência de Base Populacional das Hepatites Virais B e C nas 13 Macrorregiões do Estado de Minas Gerais. Uma Abordagem das Doenças e Agravos Transmissíveis no Panorama Estadual. Informes Epidemiológicos: Compilado 1º Semestre de 2014. Secretaria de Estado de Saúde de Minas Gerais - Belo Horizonte, 2014:12-23..

The present study aimed to understand the epidemiological patterns of HCV infection in the interior region of Brazil, which until now have been evaluated mainly based on records from blood donors, volunteers, and special groups or surveys performed in restricted geographical areas or capitals¹¹11. Estudo de Prevalência de Base Populacional das Infecções pelos Vírus A, B e C nas Capitais do Brasil. Ministério da Saúde. Brasil. Boletim Epidemiológico de Hepatites Virais. 2011; Ano II nº 01:11-32. Given the differences between the regions, we evaluated the prevalence of HCV infection in the Southern Triangle Macro-region of Minas Gerais. The demographic profile and related behavioral factors (lifestyle) of HCV-positive individuals in the region were analyzed.

METHODS

An exploratory quantitative cross-sectional study, with an epidemiological approach, was performed through a serological survey. The data obtained were included in the Hepatitis C Diagnosis Extension Program of the Hepatitis Outpatient Clinic of the Clinical Hospital of the Federal University of Triângulo Mineiro (HC-UFTM), in partnership with the Brazilian Society of Hepatology. The region evaluated was the Southern Triangle Macro-region, composed of 27 municipalities, with a total population of 744,497 inhabitants. The Hepatitis C Diagnosis Extension Program aimed at screening new cases of HCV infection in the Southern Triangle Macro-region (Figure 1).

FIGURE 1:
State of Minas Gerais and its Macro-regions - Brazil. In focus, the South Triangle Macro-region, object of the present study, where tests were performed by the Hepatitis C Diagnosis Extension Program of the Hepatitis Outpatient Clinic of Hospital de Clínicas - Universidade Federal do Triângulo Mineiro.

The serological survey was performed using immuno-chromatographic rapid tests for qualitative detection of specific anti-HCV antibodies in human serum, plasma, or whole blood (Alere HCV® Code 02FK10 Standard Diagnostics, Inc., Republic of Korea). According to the manufacturer, the sensitivity of the test was 100%, and the specificity was 99.4%. The program also trained health teams on rapid test procedures.

The rapid test was performed on individuals aged ≥18 years. Individuals aged >40 years were intentionally encouraged to undergo the test. While conducting the tests, the health teams collected data on social and epidemiological factors, using a structured questionnaire (sex, age, year of birth, and risk behaviors). The risk groups (G_n ) consisted of the following individuals: those born in the 1940s, 1950s, or 1960s (G₁); those who received blood and/or hemoderivative transfusion before 1993 (G₂); those sharing materials for drug (syringes, tubes, pipes) or medical drug use (glass syringes) (G₃); those with tattoos or piercings (G₄); those with occupational risk (G₅); those having unprotected sex with multiple partners (G₆); those with an HCV-carrier mother, partner, or brother (G₇); those with human immunodeficiency or hepatitis B virus infections (G₈); those in prison (G₉); and those who were homeless (G₁₀).

The tests were performed between November 2014 and March 2017. Each month, the municipality health management team sends the data to the program coordinators, in physical spreadsheets, a model previously established by these coordinators. A total of 25,909 rapid tests were performed. Tests that could not be performed (loss of kits), test doubles, and test results of individuals not residing in the region or negative test results were excluded from the analysis.

A database was created from the data returned to the program coordinator, and all statistical analyses were performed using the STATISTICA software (StatSoft, Inc., 2007). A univariate descriptive analysis was performed, using measures of central tendency and dispersion for numerical variables and frequencies (absolute and relative) for categorical variables. Then, a bivariate analysis was performed to compare the relationship of the decade of birth of the participants (31-40; 41-50; 51-60; 61-70; 71-80; 81-90) with sex (female; male) and risk (yes; no). Data were arranged in a contingency table (4×2), and the relationship was analyzed using the chi-square test (χ²) with Yates correction. If the minimum expected value in any cell was E <5, the Fischer’s exact test was used. The significance level was set to α = 0.05 in all tests.

An exploratory multivariate analysis was conducted to identify the correspondence groups between the decade of birth and remaining variables. The risk groups with higher frequency in the sample were included in this analysis, independent of the bivariate association, to ensure the explained variance. Multivariate interdependent representation was adopted using simple correspondence analysis (CA) of contingency tables followed by cluster analysis. The relationship between the variables is analyzed using a non-inferential technique, without it being necessary to designate a causal structure a priori, justifying the inclusion in this analysis of the groups with higher frequency¹²12. Alves LB, Belderrain MCN, Scarpel RA. Tratamento multivariado de dados por análise de correspondência e análise de agrupamentos. Anais do 13º encontro de iniciação científica e pós-graduação do ITA-XIII ENCITA. São José dos Campos-SP 2007..

By means of a graphic representation, the positions of the categories of each variable in the multidimensional plane can be interpreted as associations. To obtain plans that represent the configuration of the categories of the variables in space, a set of factorial axes, which are the dimensions, was calculated since the perception and representation of the multidimensional plane is feasible up to three dimensions¹²12. Alves LB, Belderrain MCN, Scarpel RA. Tratamento multivariado de dados por análise de correspondência e análise de agrupamentos. Anais do 13º encontro de iniciação científica e pós-graduação do ITA-XIII ENCITA. São José dos Campos-SP 2007..

In CA, the contribution of each variable to axis construction was measured using the absolute contribution (Cos²); explanatory dimensions according to eigenvalues were presented. Additionally, in cluster analysis, Euclidian distance, Ward’s hierarchical clustering method, and fusion level (distance) were used as measures of similarity. The results of these analyses are presented in the coordinate matrix of the explanatory dimensions and perceptual map of hierarchical clustering.

Individuals with positive results, defined as reactive to the rapid test, were admitted and followed by the Hepatitis Outpatient Clinic of the HC-UFTM. In compliance with the Declaration of Helsinki and ethical standards of Brazil, this project was approved by the Research Ethics Committee of the Federal University of Triângulo Mineiro, according to the Brazilian National Health Council resolution no. 466/2012, which deals with human research (approval no. 2.394.876).

RESULTS

Of 24,085 tested individuals, 207 were anti-HCV positive (0.86%). Excluding the nonresidents and test doubles, there were 184 anti-HCV-positive individuals (0.76%) (Figure 2). Of these, two individuals were aged 104 and 24 years (born in 1914 and 1994, respectively) and excluded in the multivariate analysis. The majority of anti-HCV-positive individuals were born between 1951 and 1980 (n=146 [79.3%]).

FIGURE 2:
Flowchart of the tested population and final sample. Southern Triangle Macro-region, Minas Gerais, 2019.

Of the 184 anti-HCV-positive individuals, there were 68 (37.0%) women and 116 (63.0%) men. The most frequent at-risk groups included individuals who were sharing syringes or needles for drug use and/or using nondisposable material for medical drug administration (23.6%); those undergoing blood and/or hemoderivative transfusion before 1993 (21.4%); those having unprotected sex with multiple partners (14.3%); and those with tattoos or piercings (9.9%). Sharing syringes and/or needles (p=0.003), being imprisoned (p=0.004), and having tattoos or piercings (p=0.005) were significantly associated with the decade of birth of the individuals with a positive result in the anti-HCV test (Table 1).

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TABLE 1:
Association of socioepidemiological characteristics with the decade of birth of individuals with a positive anti-HCV test. Southern Triangle Macro-region, Minas Gerais, 2019.

In the multivariate analysis, the explanatory perceptual map of the corresponding relationships presented a percentage of explained variance of 62.5% for five dimensions, distributed as follows: dimension 1 = 17.1% (eigenvalue = 0.284); dimension 2 = 12.6% (eigenvalue = 0.209); dimension 3 = 11.6% (eigenvalue = 0.193); dimension 4 = 10.9% (eigenvalue = 0.181); and dimension 5 = 10.3% (eigenvalue = 0.172). The analysis of coordinate distribution per factor and correlation contribution of each dimension, expressed as cosine²2. The Lancet. Hepatitis C: global ambition, national realities. Lancet. 2016;387(10032):1970. (Cos²), are shown in Table 2. According to the distribution of coordinates in dimension 1, with the highest percentage of explained variance, the aspects of syringe and needle sharing, tattoos and piercing, and birth in the 1970s have similar multidimensional positioning. Moreover, the aspects of transfusions and births between 1941 and 1950 are combined (Table 2).

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TABLE 2:
Coordinate matrix of the explanatory dimensions of the multivariate correspondence analysis perceptual map and explanatory contribution (Cos²) of each dimension. Southern Triangle Macro-region, Minas Gerais, 2019.

In the hierarchical analysis, according to the similarity measures, three groups of anti-HCV-positive individuals were identified based on their socioepidemiological profile: the first group consisted of individuals born between 1931 and 1940, the second group consisted of those born between 1981 and 1990, and the third group consisted of those born in the 1940s, 1950s, 1960s, and 1970s (Figure 3). It is noted that each level of similarity in this hierarchical analysis was obtained by a certain number of groupings. In the present study, the criterion for defining the number of groups considered as the cutoff level is the largest link distance between points, being between points 4 and 7 of the link distance. Such a cutoff level constitutes three major groups of similarity, which are defined according to the aforementioned decades.

FIGURE 3:
Perceptual map of hierarchical clustering of social and epidemiological variables of individuals with a positive result in the anti-HCV test. Southern Triangle Macro-region, Minas Gerais, 2019.

DISCUSSION

In the current study, among 24,085 individuals, 0.76% were found to be anti-HCV positive. This is contrary to previously published data, extracted from serological surveys performed in Brazil and the state of Minas Gerais (1.27% for Minas Gerais and 2.47% for the Southern Triangle Macro-region)⁹9. Pereira LM, Martelli CM, Moreira RC, Merchan-Hamman E, Stein AT, Cardoso MR, et al. Prevalence and risk factors of Hepatitis C virus infection in Brazil, 2005 through 2009: a cross-sectional study. BMC Infect Dis. 2013;13:60.^,¹⁰10. Estudo de Prevalência de Base Populacional das Hepatites Virais B e C nas 13 Macrorregiões do Estado de Minas Gerais. Uma Abordagem das Doenças e Agravos Transmissíveis no Panorama Estadual. Informes Epidemiológicos: Compilado 1º Semestre de 2014. Secretaria de Estado de Saúde de Minas Gerais - Belo Horizonte, 2014:12-23..

Regarding age groups, 79.3% of the anti-HCV-positive individuals were born in the 1950s, 1960s, and 1970s. This is in agreement with the result of a study conducted in Switzerland (73.9%)¹³13. Richard JL, Schaetti C, Basler S, Mäusezahl M. The epidemiology of hepatitis C in Switzerland: trends in notifications, 1988-2015. Swiss Med Wkly. 2018;148:w14619.. In the USA, the baby boomers (born between 1945 and 1965) were found to be the main population at risk (75%)¹⁴14. AASLD/IDSA . HCV Guidance Panel 2015. Hepatitis C guidance: AASLD-IDSA recommendations for testing, managing, and treating adults infected with hepatitis C virus. Hepatology. 2015;62(3):932-54.. Furthermore, a 2018 study in Mongolia showed similar rates where 77% of the positive individuals were aged >50 years¹⁵15. Dashtseren B, Bungert A, Bat-Ulzii P, Enkhbat M, Lkhagva-Ochir O, Jargalsaikhan G, et al. Endemic prevalence of hepatitis B and C in Mongolia: A nationwide survey amongst Mongolian adults. J Viral Hepat. 2017;24(9):759-67.. In contrast, in the Czech Republic, the prevalence of anti-HCV-positive cases was 1.6%, and the lowest prevalence was observed in individuals aged ≥60 years (0.2%; n=2)¹⁶16. Chlibek R, Smetana J, Sosovickova R, Gal P, Dite P, Stepanova V, et al. Prevalence of hepatitis C virus in adult population in the Czech Republic - time for birth cohort screening. PLoS One. 2017;12(4):e0175525.. These differences can be explained by the exposure of the different populations to various risks factors.

In contrast to the results of the present study, in Switzerland, most HCV-positive cases were identified among individuals born before 1950, who were infected from iatrogenic contamination, including transfusion, dialysis, work accidents, injections, surgery, or dental treatments. Use of injectable drugs was the main source of exposure for individuals born between 1950 and 1979 (74.4%) and 1980 or later (67.6%)¹³13. Richard JL, Schaetti C, Basler S, Mäusezahl M. The epidemiology of hepatitis C in Switzerland: trends in notifications, 1988-2015. Swiss Med Wkly. 2018;148:w14619.. In Spain, individuals belonging to the high-risk group were born between 1955 and 1975; HCV was transmitted by blood transfusion and drug use in 46.7% and 26.7% of cases, respectively. These differences may be explained by historical and social circumstances, including the great epidemic of intravenous drug use in the 1980s in Spain, as well as in Brazil several years later, which was later than that in the USA and other European countries¹⁷17. Gómez-Escolar Viejo L, García Herola A, Sáez Lloret I, Sánchez Ruano F, Clemente Paulino I, Quílez Ivorra C, et al. Screening of hepatitis C virus infection in adult general population in Spain. Eur J Gastroenterol Hepatol. 2018;30(9):1077-81.. In the USA, there is a new boom; a majority of patients who were infected after 2009 reported injection drug use (IDU) (40.6%) as their source of infection, which coincides with the recent heroin use epidemic¹⁸18. Wu E, Yang M, Rao H, Fu S, Feng B, Fei R, et al. Temporal Changes in the Modes of Hepatitis C Virus Transmission in the USA and Northern China. Dig Dis Sci. 2017;62(8):2141-9.. This has not yet reached the state of Minas Gerais, where crack cocaine is the most widely consumed drug. Similar to China, where amphetamine injections were a major source of infection in those aged >40 years, in Brazil, sharing of needles and syringes for these drugs also occurred. In countries where IDU is the main source of HCV infection, such as Iceland, Iran, Slovenia, Finland, Ireland, Luxemburg, Norway, Poland, Russia, and Slovakia, prevalence is higher in men born in the 1980s, whereas in countries where the infection is historically related to blood transfusion or nosocomial transmission, such as Japan, Pakistan, and South Korea, prevalence is higher in individuals born before 1965¹⁹19. Bruggmann P, Berg T, Øvrehus AL, Moreno C, Brandão Mello CE, Roudot-Thoraval F, et al. Historical epidemiology of hepatitis C virus (HCV) in selected countries. J Viral Hepat . 2014;21(Suppl 1):5-33.

20. Saraswat V1, Norris S, de Knegt RJ, Sanchez Avila JF, Sonderup M, Zuckerman E, et al. Historical epidemiology of hepatitis C virus (HCV) in select countries - volume 2. J Viral Hepat . 2015;22(Suppl 1):6-25.^-²¹21. Liakina V, Hamid S, Tanaka J, Olafsson S, Sharara AI, Alavian SM, et al. Historical epidemiology of hepatitis C virus (HCV) in select countries - volume 3. J Viral Hepat . 2015;22(Suppl 4):4-20..

In the present study, we found that, of anti-HCV-positive individuals with tattoos and piercings, 29.6% were born in the 1970s. In a study in the Czech Republic, of 525 individuals with tattoos and piercings, 3.8% were HCV positive; however, the age group was not disclosed, and no evidence of a relationship between this factor and infection was found¹⁶16. Chlibek R, Smetana J, Sosovickova R, Gal P, Dite P, Stepanova V, et al. Prevalence of hepatitis C virus in adult population in the Czech Republic - time for birth cohort screening. PLoS One. 2017;12(4):e0175525.. A study on 2637 individuals in Valencia, Spain, found that antibody detection was positive in 30 individuals (1.1%). The study showed that among the anti-HCV-positive cases, 23.3% had tattoos and piercing as a risk factor, as in the present study, although there is no representation regarding the decade of birth¹⁷17. Gómez-Escolar Viejo L, García Herola A, Sáez Lloret I, Sánchez Ruano F, Clemente Paulino I, Quílez Ivorra C, et al. Screening of hepatitis C virus infection in adult general population in Spain. Eur J Gastroenterol Hepatol. 2018;30(9):1077-81.. A survey of 2,128 individuals in Suriname found an association between HCV positivity and male sex, advanced age, Javanese ethnicity, and presence of tattoos²²22. Mac Donald-Ottevanger MS, Vreden S, van der Helm JJ, van de Laar T, Molenkamp R, Dams E, et al. Prevalence, determinants and genetic diversity of hepatitis C virus in the multi-ethnic population living in Suriname. Virology. 2016;499:114-20.. In a study in Rio de Janeiro, Brazil, with 4,897 individuals tested for the presence of HCV, there were 1,180 HCV RNA-positive cases, and a significant association between RNA positivity and drug use but not with tattoos and piercings was found²³23. Olmedo DB, Precioso PM, Lugdero-Correia A, Silva GD, Santos AMGD, Pôrto LC. Exposure source prevalence is associated with gender in hepatitis C virus patients from Rio de Janeiro, Brazil. Mem Inst Oswaldo Cruz. 2017;112(9):632-9.. In the state of Goiás, Central Brazil, a study on 481 homeless men showed a significant association between HCV infection and drug use, number of sexual partners, and sexually transmissible diseases; however, there was no association between HCV infection and the presence of tattoos and piercings²⁴24. Ferreira PM, Guimarães RA, Souza CM, Guimarães LC, Barros CV, Caetano KA, et al. Exposure to hepatitis C virus in homeless men in Central Brazil: a cross-sectional study. BMC Public Health. 2017;17(1):90.. A study of drug users in the Island of Marajó, Amazon showed that age (35 years), presence of tattoos, IDU, sharing injection equipment, and daily and prolonged use (>3 years) of illegal drugs were associated with HCV positivity²⁵25. Silva FQ, Santos FJA, Andrade AP, Pacheco SDB, Fischer B, Pinho JRR, et al. Hepatitis C virus infection among illicit drug users in an archipelago of the Amazon. Arch Virol. 2018;163(3):617-22..

In incarcerated individuals, there was a significant association between HCV infection and being born in the 1970s, with 75% of positive individuals being born in that decade. This was also a time when sharing of syringes for drug use and having tattoos and piercings were common. A study performed in 10 prisons in the State of Guanajuato, Mexico, with 2,519 participants, showed a 4.9% prevalence of HCV infection; the prevalence increased with the number of prior incarcerations and number of tattoos before incarceration. Additionally, the highest prevalence of HCV infection was observed among individuals who injected drugs before (40%; 95% CI 25.9-54.6) and during the current incarceration (45%; 95% CI, 9.2-81.7%)²⁶26. Belaunzarán-Zamudio PF, Mosqueda-Gomez JL, Macias-Hernandez A, Sierra-Madero JG, Ahmed S, Beyrer C. Risk factors for prevalent hepatitis C virus-infection among inmates in a state prison system in Mexico. PLoS One . 2017; 12(6):e0179931.. In Brazil, a systematic review published in 2015 showed that the average prevalence of HCV was 13.6% among Brazilian prisoners, varying between 1.0% and 41.0% and being the lowest in the state of Espírito Santo and highest in São Paulo. However, a meta-analysis of the risk factors associated with the prevalence of HCV in Brazilian prisons could not be performed because most studies did not analyze the risk factors²⁷27. Magri MC, Ibrahim KY, Pinto WP, França FO, Bernardo WM, Tengan FM. Prevalence of hepatitis C virus in Brazil's inmate population: a systematic review. Rev Saude Publica. 2015;49:36..

Effective and well-tolerated direct-acting antiviral agents are presently available for the treatment of HCV infection. However, there are a high number of undiagnosed cases, and therapeutic strategies are required to address this situation²⁸28. Morgan JR, Servidone M, Easterbrook P, Linas BP. Economic evaluation of HCV testing approaches in low and middle income countries. BMC Infect Dis . 2017;17(Suppl 1):697.. Screening based only on risk factors may result in detection of <20% of cases. HCV reporting (e.g., Australia) may improve diagnosis (proportion of diagnosed HCV infection is 75%) and benefit patients. In Australia, correct reporting of HCV infection resulted in the identification of 75% of the carriers and increased their access to care, therapy, and healing²⁹29. Lim SG. HCV management in resource-constrained countries. Hepatol Int. 2017;11(3):245-54.. Researchers worldwide are attempting to increase the cost-effectiveness of diagnosis and prevention of HCV infection and eradication of the virus. In Australia, it became evident that testing focused on high-risk groups, such as injection drug users, prisoners, and men who have sex with other men and those in the high-risk birth cohorts, has a good cost-benefit relationship²⁹29. Lim SG. HCV management in resource-constrained countries. Hepatol Int. 2017;11(3):245-54.. In Naples, a study on 1,315 individuals showed that individuals aged >60 years with a low purchasing power should be prioritized, considering that differences in socioeconomic conditions play an important role in transmitting this infection³⁰30. Morisco F, Loperto I, Stroffolini T, Lombardo FL, Cossiga V, Guarino M, et al. Prevalence and risk factors of HCV infection in a metropolitan area in southern Italy: Tail of a cohort infected in past decades. J Med Virol. 2017;89(2):291-7.. In Switzerland, research is focused on three groups-individuals born before 1950, especially older women (iatrogenic transmission); men born from the 1980s until the end of the 2000s (associated to IDU); and homosexual men¹³13. Richard JL, Schaetti C, Basler S, Mäusezahl M. The epidemiology of hepatitis C in Switzerland: trends in notifications, 1988-2015. Swiss Med Wkly. 2018;148:w14619..

A limitation of population-based exploratory studies is the inability to determine the time sequence of cause and effect. These studies are easy to perform and serve to formulate hypotheses on groups of interest; however, they do not represent the total population. Therefore, epidemiological conclusions from population-based exploratory studies may be limited to exposure sources for a specific population, even though the risk factors for HCV infection are well known. Finally, in the present study, individuals aged >40 years were encouraged to undergo the test, resulting in a higher proportion of baby boomers in our study. The sources of infection in these individuals may be different from those affecting younger individuals. Therefore, the analysis of the present study could have been affected by the high prevalence of anti-HCV-positive baby boomers.

The present study shows the importance of testing at-risk populations for HCV infection such as prisoners, individuals with tattoos and piercings, those who share or have shared injection or drug use equipment, and those in high-risk birth cohorts (1950s, 1960s, and 1970s) in the Southern Triangle Macro-region. Because the study was an initiative from a tertiary care teaching hospital, it allows the hospital to reach beyond its premises and provide integral training of healthcare professionals. Furthermore, this study may serve as a basis for the future development of predictive models and other correlational analyses between social and epidemiological factors of HCV carriers.

The fact that this population had not been previously studied regarding HCV infection made it possible for the present study to conduct an epidemiological survey to help public policies for health in the region. It is important to note the ease with which the rapid test was conducted in the region and used by basic healthcare teams. The assistance to patients with HCV identified by the program and strengthening of the relationship between HC-UFTM and the Municipal Health Services, who worked to track the patients so that they remained in the program and completed the treatment, should be highlighted.

The multivariate analysis revealed a scattered distribution of social and epidemiological data among HCV carriers, showing that, although hepatitis C is a single disease, it constitutes a complex mosaic for the healthcare network, regarding both its manifestations and the determinant factors of its occurrence, considering cultural, social, and economic differences between several regions where it occurs.

Therefore, the present study shows that the prevalence of anti-HCV in the Southern Triangle Macro-region population is similar to that described for Brazil by the Ministry of Health. Moreover, the study demonstrates the importance of testing populations at risk for HCV infection, including incarcerated individuals, those with tattoos or piercings, those who share or have shared syringes or needles, and those in high-risk birth cohorts (1950s, 1960s, and 1970s), in this region of the state of Minas Gerais.

ACKNOWLEDGMENTS

The authors would like to thank Professor Edison Roberto Parise, president of the Brazilian Society of Hepatology in 2014-2015, for the encouragement and supply of materials for the rapid tests; Gustavo de Almeida Vieira, M.D., Fernando de Freitas Neves, M.D., and Mariana Caldeira Monte, M.D., for their priceless collaboration in assisting the hepatitis C virus-positive patients; statistician Sérgio Antônio Zullo for performing the statistical analyses; and the multidisciplinary teams of the Municipal Health Secretaries of the Southern Triangle Macro-region involved in the Hepatitis C Diagnosis Extension Program.

REFERENCES

¹
Mbituyumuremyi A, Van Nuil JI, Umuhire J, Mugabo J, Mwumvaneza M, Makuza JD, et al. Controlling hepatitis C in Rwanda: a framework for a national response. Bull World Health Organ. 2018;96(1):51-8.
²
The Lancet. Hepatitis C: global ambition, national realities. Lancet. 2016;387(10032):1970.
³
Baptista-González H, Nofal-Nuño VM, Méndez-Sánchez N. Frequency of hepatitis C virus infection in a single institution in Mexico with a focus on birth-cohort population. Ann Hepatol. 2016;15(6):846-52.
⁴
Akiyama MJ, Kaba F, Rosner Z, Alper H, Holzman RS, MacDonald R. Hepatitis C Screening of the "Birth Cohort" (Born 1945-1965) and Younger Inmates of New York City Jails. Am J Public Health. 2016;106(7):1276-7.
⁵
Smith BD, Morgan RL, Beckett GA, Falck-Ytter Y, Holtzman D, Teo CG, et al. Centers for Disease Control and Prevention. Recommendations for the identification of chronic hepatitis C virus infection among persons born during 1945-1965. MMWR Recomm Rep. 2012;61(RR-4):1-32.
⁶
Thrift AP, El-Serag HB, Kanwal F. Global epidemiology and burden of HCV infection and HCV-related disease. Nat Rev Gastroenterol Hepatol. 2017;14(2):122-32.
⁷
Oliveira AC, Bortotti AC, Nunes NN, El Bacha IA, Parise ER. Association between age at diagnosis and degree of liver injury in hepatitis C. Braz J Infect Dis. 2014;18(5):507-11.
⁸
Focaccia R, da Conceição OJ, Sette H Jr, Sabino E, Bassit L, Nitrini DR, et al. Estimated Prevalence of Viral Hepatitis in the General Population of the Municipality of São Paulo, Measured by a Serologic Survey of a Stratified, Randomized and Residence-Based Population. Braz J Infect Dis . 1998;2(6):269-84.
⁹
Pereira LM, Martelli CM, Moreira RC, Merchan-Hamman E, Stein AT, Cardoso MR, et al. Prevalence and risk factors of Hepatitis C virus infection in Brazil, 2005 through 2009: a cross-sectional study. BMC Infect Dis. 2013;13:60.
¹⁰
Estudo de Prevalência de Base Populacional das Hepatites Virais B e C nas 13 Macrorregiões do Estado de Minas Gerais. Uma Abordagem das Doenças e Agravos Transmissíveis no Panorama Estadual. Informes Epidemiológicos: Compilado 1º Semestre de 2014. Secretaria de Estado de Saúde de Minas Gerais - Belo Horizonte, 2014:12-23.
¹¹
Estudo de Prevalência de Base Populacional das Infecções pelos Vírus A, B e C nas Capitais do Brasil. Ministério da Saúde. Brasil. Boletim Epidemiológico de Hepatites Virais. 2011; Ano II nº 01:11-32
¹²
Alves LB, Belderrain MCN, Scarpel RA. Tratamento multivariado de dados por análise de correspondência e análise de agrupamentos. Anais do 13º encontro de iniciação científica e pós-graduação do ITA-XIII ENCITA. São José dos Campos-SP 2007.
¹³
Richard JL, Schaetti C, Basler S, Mäusezahl M. The epidemiology of hepatitis C in Switzerland: trends in notifications, 1988-2015. Swiss Med Wkly. 2018;148:w14619.
¹⁴
AASLD/IDSA . HCV Guidance Panel 2015. Hepatitis C guidance: AASLD-IDSA recommendations for testing, managing, and treating adults infected with hepatitis C virus. Hepatology. 2015;62(3):932-54.
¹⁵
Dashtseren B, Bungert A, Bat-Ulzii P, Enkhbat M, Lkhagva-Ochir O, Jargalsaikhan G, et al. Endemic prevalence of hepatitis B and C in Mongolia: A nationwide survey amongst Mongolian adults. J Viral Hepat. 2017;24(9):759-67.
¹⁶
Chlibek R, Smetana J, Sosovickova R, Gal P, Dite P, Stepanova V, et al. Prevalence of hepatitis C virus in adult population in the Czech Republic - time for birth cohort screening. PLoS One. 2017;12(4):e0175525.
¹⁷
Gómez-Escolar Viejo L, García Herola A, Sáez Lloret I, Sánchez Ruano F, Clemente Paulino I, Quílez Ivorra C, et al. Screening of hepatitis C virus infection in adult general population in Spain. Eur J Gastroenterol Hepatol. 2018;30(9):1077-81.
¹⁸
Wu E, Yang M, Rao H, Fu S, Feng B, Fei R, et al. Temporal Changes in the Modes of Hepatitis C Virus Transmission in the USA and Northern China. Dig Dis Sci. 2017;62(8):2141-9.
¹⁹
Bruggmann P, Berg T, Øvrehus AL, Moreno C, Brandão Mello CE, Roudot-Thoraval F, et al. Historical epidemiology of hepatitis C virus (HCV) in selected countries. J Viral Hepat . 2014;21(Suppl 1):5-33.
²⁰
Saraswat V1, Norris S, de Knegt RJ, Sanchez Avila JF, Sonderup M, Zuckerman E, et al. Historical epidemiology of hepatitis C virus (HCV) in select countries - volume 2. J Viral Hepat . 2015;22(Suppl 1):6-25.
²¹
Liakina V, Hamid S, Tanaka J, Olafsson S, Sharara AI, Alavian SM, et al. Historical epidemiology of hepatitis C virus (HCV) in select countries - volume 3. J Viral Hepat . 2015;22(Suppl 4):4-20.
²²
Mac Donald-Ottevanger MS, Vreden S, van der Helm JJ, van de Laar T, Molenkamp R, Dams E, et al. Prevalence, determinants and genetic diversity of hepatitis C virus in the multi-ethnic population living in Suriname. Virology. 2016;499:114-20.
²³
Olmedo DB, Precioso PM, Lugdero-Correia A, Silva GD, Santos AMGD, Pôrto LC. Exposure source prevalence is associated with gender in hepatitis C virus patients from Rio de Janeiro, Brazil. Mem Inst Oswaldo Cruz. 2017;112(9):632-9.
²⁴
Ferreira PM, Guimarães RA, Souza CM, Guimarães LC, Barros CV, Caetano KA, et al. Exposure to hepatitis C virus in homeless men in Central Brazil: a cross-sectional study. BMC Public Health. 2017;17(1):90.
²⁵
Silva FQ, Santos FJA, Andrade AP, Pacheco SDB, Fischer B, Pinho JRR, et al. Hepatitis C virus infection among illicit drug users in an archipelago of the Amazon. Arch Virol. 2018;163(3):617-22.
²⁶
Belaunzarán-Zamudio PF, Mosqueda-Gomez JL, Macias-Hernandez A, Sierra-Madero JG, Ahmed S, Beyrer C. Risk factors for prevalent hepatitis C virus-infection among inmates in a state prison system in Mexico. PLoS One . 2017; 12(6):e0179931.
²⁷
Magri MC, Ibrahim KY, Pinto WP, França FO, Bernardo WM, Tengan FM. Prevalence of hepatitis C virus in Brazil's inmate population: a systematic review. Rev Saude Publica. 2015;49:36.
²⁸
Morgan JR, Servidone M, Easterbrook P, Linas BP. Economic evaluation of HCV testing approaches in low and middle income countries. BMC Infect Dis . 2017;17(Suppl 1):697.
²⁹
Lim SG. HCV management in resource-constrained countries. Hepatol Int. 2017;11(3):245-54.
³⁰
Morisco F, Loperto I, Stroffolini T, Lombardo FL, Cossiga V, Guarino M, et al. Prevalence and risk factors of HCV infection in a metropolitan area in southern Italy: Tail of a cohort infected in past decades. J Med Virol. 2017;89(2):291-7.

Publication Dates

Publication in this collection
03 Oct 2019
Date of issue
2019

History

Received
29 Apr 2019
Accepted
19 Aug 2019

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ¹
Mbituyumuremyi A, Van Nuil JI, Umuhire J, Mugabo J, Mwumvaneza M, Makuza JD, et al. Controlling hepatitis C in Rwanda: a framework for a national response. Bull World Health Organ. 2018;96(1):51-8.

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The Lancet. Hepatitis C: global ambition, national realities. Lancet. 2016;387(10032):1970.

[3] ³
Baptista-González H, Nofal-Nuño VM, Méndez-Sánchez N. Frequency of hepatitis C virus infection in a single institution in Mexico with a focus on birth-cohort population. Ann Hepatol. 2016;15(6):846-52.

[4] ⁴
Akiyama MJ, Kaba F, Rosner Z, Alper H, Holzman RS, MacDonald R. Hepatitis C Screening of the "Birth Cohort" (Born 1945-1965) and Younger Inmates of New York City Jails. Am J Public Health. 2016;106(7):1276-7.

[5] ⁵
Smith BD, Morgan RL, Beckett GA, Falck-Ytter Y, Holtzman D, Teo CG, et al. Centers for Disease Control and Prevention. Recommendations for the identification of chronic hepatitis C virus infection among persons born during 1945-1965. MMWR Recomm Rep. 2012;61(RR-4):1-32.

[6] ⁶
Thrift AP, El-Serag HB, Kanwal F. Global epidemiology and burden of HCV infection and HCV-related disease. Nat Rev Gastroenterol Hepatol. 2017;14(2):122-32.

[7] ⁷
Oliveira AC, Bortotti AC, Nunes NN, El Bacha IA, Parise ER. Association between age at diagnosis and degree of liver injury in hepatitis C. Braz J Infect Dis. 2014;18(5):507-11.

[8] ⁸
Focaccia R, da Conceição OJ, Sette H Jr, Sabino E, Bassit L, Nitrini DR, et al. Estimated Prevalence of Viral Hepatitis in the General Population of the Municipality of São Paulo, Measured by a Serologic Survey of a Stratified, Randomized and Residence-Based Population. Braz J Infect Dis . 1998;2(6):269-84.

[9] ⁹
Pereira LM, Martelli CM, Moreira RC, Merchan-Hamman E, Stein AT, Cardoso MR, et al. Prevalence and risk factors of Hepatitis C virus infection in Brazil, 2005 through 2009: a cross-sectional study. BMC Infect Dis. 2013;13:60.

[10] ¹⁰
Estudo de Prevalência de Base Populacional das Hepatites Virais B e C nas 13 Macrorregiões do Estado de Minas Gerais. Uma Abordagem das Doenças e Agravos Transmissíveis no Panorama Estadual. Informes Epidemiológicos: Compilado 1º Semestre de 2014. Secretaria de Estado de Saúde de Minas Gerais - Belo Horizonte, 2014:12-23.

[11] ¹¹
Estudo de Prevalência de Base Populacional das Infecções pelos Vírus A, B e C nas Capitais do Brasil. Ministério da Saúde. Brasil. Boletim Epidemiológico de Hepatites Virais. 2011; Ano II nº 01:11-32

[12] ¹²
Alves LB, Belderrain MCN, Scarpel RA. Tratamento multivariado de dados por análise de correspondência e análise de agrupamentos. Anais do 13º encontro de iniciação científica e pós-graduação do ITA-XIII ENCITA. São José dos Campos-SP 2007.

[13] ¹³
Richard JL, Schaetti C, Basler S, Mäusezahl M. The epidemiology of hepatitis C in Switzerland: trends in notifications, 1988-2015. Swiss Med Wkly. 2018;148:w14619.

[14] ¹⁴
AASLD/IDSA . HCV Guidance Panel 2015. Hepatitis C guidance: AASLD-IDSA recommendations for testing, managing, and treating adults infected with hepatitis C virus. Hepatology. 2015;62(3):932-54.

[15] ¹⁵
Dashtseren B, Bungert A, Bat-Ulzii P, Enkhbat M, Lkhagva-Ochir O, Jargalsaikhan G, et al. Endemic prevalence of hepatitis B and C in Mongolia: A nationwide survey amongst Mongolian adults. J Viral Hepat. 2017;24(9):759-67.

[16] ¹⁶
Chlibek R, Smetana J, Sosovickova R, Gal P, Dite P, Stepanova V, et al. Prevalence of hepatitis C virus in adult population in the Czech Republic - time for birth cohort screening. PLoS One. 2017;12(4):e0175525.

[17] ¹⁷
Gómez-Escolar Viejo L, García Herola A, Sáez Lloret I, Sánchez Ruano F, Clemente Paulino I, Quílez Ivorra C, et al. Screening of hepatitis C virus infection in adult general population in Spain. Eur J Gastroenterol Hepatol. 2018;30(9):1077-81.

[18] ¹⁸
Wu E, Yang M, Rao H, Fu S, Feng B, Fei R, et al. Temporal Changes in the Modes of Hepatitis C Virus Transmission in the USA and Northern China. Dig Dis Sci. 2017;62(8):2141-9.

[19] ¹⁹
Bruggmann P, Berg T, Øvrehus AL, Moreno C, Brandão Mello CE, Roudot-Thoraval F, et al. Historical epidemiology of hepatitis C virus (HCV) in selected countries. J Viral Hepat . 2014;21(Suppl 1):5-33.

[20] ²⁰
Saraswat V1, Norris S, de Knegt RJ, Sanchez Avila JF, Sonderup M, Zuckerman E, et al. Historical epidemiology of hepatitis C virus (HCV) in select countries - volume 2. J Viral Hepat . 2015;22(Suppl 1):6-25.

[21] ²¹
Liakina V, Hamid S, Tanaka J, Olafsson S, Sharara AI, Alavian SM, et al. Historical epidemiology of hepatitis C virus (HCV) in select countries - volume 3. J Viral Hepat . 2015;22(Suppl 4):4-20.

[22] ²²
Mac Donald-Ottevanger MS, Vreden S, van der Helm JJ, van de Laar T, Molenkamp R, Dams E, et al. Prevalence, determinants and genetic diversity of hepatitis C virus in the multi-ethnic population living in Suriname. Virology. 2016;499:114-20.

[23] ²³
Olmedo DB, Precioso PM, Lugdero-Correia A, Silva GD, Santos AMGD, Pôrto LC. Exposure source prevalence is associated with gender in hepatitis C virus patients from Rio de Janeiro, Brazil. Mem Inst Oswaldo Cruz. 2017;112(9):632-9.

[24] ²⁴
Ferreira PM, Guimarães RA, Souza CM, Guimarães LC, Barros CV, Caetano KA, et al. Exposure to hepatitis C virus in homeless men in Central Brazil: a cross-sectional study. BMC Public Health. 2017;17(1):90.

[25] ²⁵
Silva FQ, Santos FJA, Andrade AP, Pacheco SDB, Fischer B, Pinho JRR, et al. Hepatitis C virus infection among illicit drug users in an archipelago of the Amazon. Arch Virol. 2018;163(3):617-22.

[26] ²⁶
Belaunzarán-Zamudio PF, Mosqueda-Gomez JL, Macias-Hernandez A, Sierra-Madero JG, Ahmed S, Beyrer C. Risk factors for prevalent hepatitis C virus-infection among inmates in a state prison system in Mexico. PLoS One . 2017; 12(6):e0179931.

[27] ²⁷
Magri MC, Ibrahim KY, Pinto WP, França FO, Bernardo WM, Tengan FM. Prevalence of hepatitis C virus in Brazil's inmate population: a systematic review. Rev Saude Publica. 2015;49:36.

[28] ²⁸
Morgan JR, Servidone M, Easterbrook P, Linas BP. Economic evaluation of HCV testing approaches in low and middle income countries. BMC Infect Dis . 2017;17(Suppl 1):697.

[29] ²⁹
Lim SG. HCV management in resource-constrained countries. Hepatol Int. 2017;11(3):245-54.

[30] ³⁰
Morisco F, Loperto I, Stroffolini T, Lombardo FL, Cossiga V, Guarino M, et al. Prevalence and risk factors of HCV infection in a metropolitan area in southern Italy: Tail of a cohort infected in past decades. J Med Virol. 2017;89(2):291-7.

Factors	Decade						P-value
Factors	31-40	41-50	51-60	61-70	71-80	81-90	P-value
Sex, n (%)
Female	3 (50)	11 (50)	19 (31.1)	19 (38.8)	8 (29.6)	6 (75)	0.106*
Male	3 (50)	11 (50)	42 (68.9)	39 (67.2)	19 (70.4)	2 (25)
Risk groups^ǂ, n (%)
Transfusion	3 (50)	8 (36.4)	15 (24.6)	8 (13.8)	4 (14.8)	1 (12.5)	0.096*
Sharing	3 (50)	0 (0)	15 (24.6)	11 (19)	11 (40.7)	3 (37.5)	0.003
Tattoos or piercing	0 (0)	0 (0)	2 (3.3)	7 (12.1)	8 (29.6)	1 (12.5)	0.005
Occupational risk	0 (0)	1 (4.5)	3 (4.9)	3 (5.2)	1 (3.7)	0 (0)	1,000*
Multiple partners	1 (16.7)	2 (9.1)	12 (19.7)	7 (12.1)	3 (11.1)	1 (12.5)	0.811*
Carrier relatives	0 (0)	1 (4.5)	1 (1.6)	2 (3.4)	3 (11.1)	1 (12.5)	0.225
HIV/HBV positive	0 (0)	0 (0)	1 (1.6)	3 (5.2)	4 (14.8)	0 (0)	0.152
Imprisoned	0 (0)	0 (0)	1 (1.6)	1 (1.7)	6 (22.2)	0 (0)	0.004
Homeless	0 (0)	0 (0)	1 (1.6)	1 (1.7)	0 (0)	1 (12.5)	0.303*

Factors	(Coordinates per dimension)^‡					(Cos² per dimension)
Factors	1	2	3	4	5	1	2	3	4	5
Sex
Female	-0.680	-0.736	-0.190	-0.371	0.075	0.263	0.308	0.021	0.078	0.003
Male	0.387	0.419	0.108	0.211	-0.043
Risk group
Transfusion (G₂)
No	0.268	0.222	-0.029	-0.199	-0.051	0.264	0.180	0.003	0.145	0.01
Yes	-0.984	-0.813	0.108	0.729	0.187
Sharing (G₃)
No	-0.374	0.139	-0.144	-0.032	0.119	0.452	0.062	0.067	0.003	0.046
Yes	1.208	-0.449	0.466	0.104	-0.386
Tattoos or piercing (G₄)
No	-0.188	0.133	0.100	-0.020	-0.086	0.321	0.16	0.091	0.004	0.067
Yes	1.710	-1.208	-0.911	0.184	0.781
Multiple partners (G₆)
No	-0.032	0.115	-0.196	0.131	-0.194	0.006	0.08	0.23	0.102	0.225
Yes	0.192	-0.692	1.176	-0.784	1.162
Decade
31-40	-0.381	-1.944	1.821	2.075	-3.443	0.005	0.129	0.113	0.147	0.404
41-50	-1.283	0.002	-0.848	0.623	0.499	0.226	0	0.099	0.053	0.034
51-60	-0.118	0.258	1.037	-0.027	0.414	0.007	0.034	0.542	0	0.087
61-70	0.135	0.531	-0.505	-0.372	-0.332	0.009	0.132	0.119	0.065	0.052
71-80	1.121	-0.763	-0.799	0.809	0.607	0.219	0.101	0.111	0.114	0.064
81-90	-0.051	-1.792	-0.587	-3.103	-1.588	0	0.148	0.016	0.443	0.116