Occult HBV Infection in Pregnant Women in Northern Benin

De Paschale et al. Int J Virol AIDS 2019, 6:053 • Page 1 of 7 • Citation: De Paschale M, Ceriani C, Cerulli T, Cagnin D, Cavallari S, et al. (2019) Occult HBV Infection in Pregnant Women in Northern Benin. Int J Virol AIDS 6:053. doi.org/10.23937/2469-567X/1510053 Accepted: April 16, 2019: Published: April 18, 2019 Copyright: © 2019 De Paschale M, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Abstract


Introduction
Occult infection (OBI) due to hepatitis B virus (HBV) is best defined as the presence of HBV DNA in the liver (with or without serum HBV DNA) in the absence of detectable serum HBV surface antigen (HBsAg) [1] because viral DNA can be detected in the liver even when it is not found in blood [2] However, as obtaining liver HBV DNA is difficult in clinical practice and there are still no appropriately standardised tests for detecting it in liver tissue [3], it is more usually defined as the presence of normally low levels (< 200 IU/mL) of serum HBV DNA without any determinable HBsAg [1,3,4].This situation can be found in the case of: 1) Patients recovering from HBV infection with anti-HBsAg antibodies (anti-HBs) and viral persistence after HBsAg has disappeared [5,6]; 2) Patients with chronic hepatitis with a mutant HBV gene S (encoding for HBsAg) and the production of modified HBsAg that cannot be detected by widely used commercial tests ("false OBI") whose viremic levels are comparable with those observed in patients with normal HBV infection [1,4,7]; 3) Chronic carriers without any marker of HBV infection because of the progressive loss of all anti-HBV antibodies or the absence of antibodies from the beginning [8]; 4) Patients co-infected with hepatitis C virus (HCV) in whom the HCV core protein interferes with the replication of HBV and the synthesis of its proteins [9], or co-infected with human immunodeficiency virus (HIV) due to cell HBV DNA research.On the basis of the results obtained in 2011, the samples were divided into three groups: group I) 24 HBsAg-positive samples (10.9%); group II) 164 HBsAg-negative samples positive for anti-HBc and/ or anti-HBs markers of HBV (74.5%); and group III) 32 samples that were negative for HBsAg, anti-HBs and anti-HBc (14.5%).Five of the women (2.3%) were anti-HIV positive (all in group II) and 11 (5.0%) anti-HCV positive (one in group I and ten in group II).There were no statistically significant differences between these 220 women and the initial group of 283 women in terms of age, or HBV, HCV and HIV markers.
The search for HBV DNA was made using a realtime method (AmpliPrep/COBAS TaqMan HBV Test, version 2.0, Roche Diagnostics, Mannheim, Germany), the results of which are linear from 20 IU/mL to 1.7 × 10 8 IU/mL.The amount of DNA was recorded in IU/ mL if it was > 20 IU/mL, "not detectable" if none was detected, or "< 20 IU/mL" if the amount was below the linearity of the test but above the sensitivity stated by the manufacturer (95% for plasma levels of 9 IU/mL).The samples with < 20 IU/mL result were retested.
The HBV DNA-positive samples also underwent a chemiluminescent immunoassay (CLIA) for HBsAg (LIAISON XL MUREX HBsAg Quant, DiaSorin, Saluggia, Italy) that was different from that used in the previous study.
The data were statistically analysed using SPSS software, version 16.0 (SPSS Inc., Chicago, IL), and the chi-squared and Fisher's exact test to evaluate the differences between percentages, and analysis of variance (ANOVA) to evaluate the differences between the quantitative values.
immunodeficiency (decreased CD4+ cell numbers) [10]; 5) Chronic carriers with undetectable unmutated HBsAg in whom the only serological marker is the presence of antibodies to the antigen of the HBV core (anti-HBc), a situation that is often found in areas where HBV is endemic [11].
Occult infections have been divided into seropositive OBIs (the presence of anti-HBc and/or anti-HBs) and seronegative OBIs (the absence of anti-HBc and anti-HBs) on the basis of serum HBV antibody profiles [12].About 20% of all OBIs are seronegative, 50% are anti-HBc seropositive (with or without anti-HBs), and 35% are anti-HBs seropositive [13].
The prevalence of OBIs varies widely [12] as it depends on factors such as geographical area (endemicity), the characteristics of the patients, including co-morbidities such as HCV and/or HIV, and the sensitivity of the diagnostic technique [1,14] It may also depend on the nature of the tested biological material as the liver is more likely to be positive than serum [15].In geographical terms, it has been reported that the population prevalence of OBI is as high as up to 25% [16][17][18][19][20][21] in highly endemic areas such as Africa and Asia, where 41-95% of the inhabitants have been exposed to HBV, and lower in areas such as North America or Europe, where only 5-20% of the inhabitants have been exposed [22].
There are no data concerning OBIs in Benin, although an article concerning asymptomatic pregnant women in a rural area in northern Benin published in 2014 stated that the prevalence of HBsAg was 15.5%, and that of anti-HBc alone was 41.3% [35].As many of the samples used for that study were still available for HBV DNA research, the aim of this study was to determine the prevalence of occult HBV infection in this group of women.

Methods
In 2011, 283 asymptomatic pregnant women who sequentially attended the Saint Jean de Dieu de Tanguiéta Hospital (located in the rural district of Atacora in the north of Benin) for HIV screening were also examined for markers of HBV and HCV: 15.5% were HBsAg positive, 41.3% anti-HBc positive alone, 7.4% anti-HCV positive, and 3.2% anti-HIV positive [35].
Plasma samples from 220 of these women (mean age 26.2 years, range 15-40) were sterilely separated and frozen, and became subsequently available for  3 and the difference between group I and group II was statistically significant (p < 0.05).
Table 4 shows the mean, median and range of HBV DNA levels in the samples with levels of > 20 IU/mL.The difference between group I and II (p < 0.05) was statistically significant.
In terms of co-infections, none of the HIV-positive women and only one of the HCV-positive women was About the viral load, the differences in the percentage of samples with HBV DNA levels of > 20 IU/mL between group I (HBsAg positive) and groups II or III (HBsAg negative) were statistically significant (p < 0.01), but not those between groups II and III.Furthermore, there was difference in the percentage of samples with levels of < 20 IU/ mL between group I and group III or between group II and group III (< 0.05), but not between groups I and II (Table 1).
The ratios between the samples with HBV DNA 2% [31,34].On the other hand, one study carried out in Nigeria (which borders on Benin) found a prevalence of 36% among patients attending a hospital Emergency Department [36].However, the Nigerian study found that about 60% of the patients were co-infected with HIV, whereas the prevalence of co-infection in the Benin study was only 2.3%, which reflects the low prevalence of HIV infection in the general population of Benin at the time the blood samples were taken [35].
The high prevalence of OBI in countries such as Benin where HBV is endemic may be related to the fact that most of these infections are contracted perinatally or during early childhood and, as such infections are often chronic, there is a correspondingly proportion of adults with chronic infection, including some without determinable HBsAg levels [37].In countries where the disease is less endemic, transmission is mainly horizontal [38].
Almost all the OBIs identified in this study (97.9%) were seropositive OBIs associated with markers of HBV, especially isolated anti-HBc (55.3%) and there was no age-related difference in the presence or absence of viremia.
The viral load in the women with seropositive OBIs was very low (< 20 IU/mL in almost half of the cases), and significantly different from that observed in the HBsAgpositive women in line with published data [1,3,4].The method used by our centre has a declared sensitivity of 9 IU/mL for plasma (although the linearity of the test starts from 20 IU/mL), and thus approaches the HBV DNA detection limit of 5 IU/mL suggested as indicating OBI [3].It can therefore be assumed that about half of positive for HBV DNA (and HBsAg negative) in group II.
With the aim of confirming the HBsAg results of the previous study, all samples, which were negative for HBsAg and positive for HBV-DNA, were retested with the CLIA test (that was different from that used in the previous study).All these samples were HBsAg negative with the CLIA test.
Table 5 shows the HBV results by age and the presence/absence of HBV markers.The between-group differences in age and the differences in age between the women with and without HBV DNA were not statistically significant.There was also no significant difference in age between the women with > 20 IU/mL and those with < 20 IU/mL in any of the groups.

Discussion
HBV infection is highly endemic in Benin: a study of pregnant women carried out in 2011 found that 15.5% were HBsAg positive but 41.3% were positive for anti-HBc [35].As the presence of anti-HBc alone can identify chronic HBV carriers in highly endemic areas even if they are HBsAg negative [11], the suspicion that OBI may also be highly prevalent in Benin led us to look for HBV DNA in the blood samples still available from the 2011 study.Our findings suggest that 24% of the samples indicated OBI as they showed the presence of HBV DNA in the absence of HBsAg.This figure is similar or slightly higher than that found in other studies carried out in Africa, which have reported OBI prevalence rates of 10-23% among HIV-positive subjects [24,[26][27][28][29], 17% among blood donors [32], but much higher than that found in pregnant women with prevalence of about Another limitation of this study is that we have no information concerning the children of these women that would make it possible to estimate the rate of vertical/perinatal transmission.Animal-based studies have shown maternal-fetal transmission in marmots with maternal occult infection [47], leading to the production of persistent, seronegative and asymptomatic infection in their offspring.Vertical transmission has also been postulated in humans [3], and it has been reported that a baby of a mother with OBI was positive for HBV DNA at birth [34].Some authors believe that neonatal transmission through cord blood from mothers with OBI is not a clinical problem because of the low levels of HBV DNA [48], but some of our women with OBI had HBV DNA levels that were as high as 1187 IU/mL, which could be sufficient for HBV transmission.
In conclusion, this study found a high prevalence of both seropositive and seronegative OBIs in Benin that has various clinical, organisational and epidemiological implications.The significant proportion of OBIs increases the number of HBV carriers who may transmit the virus vertically/perinatally (screening for maternal HBsAg may be insufficient and should perhaps be supported by neonatal immunoprophylaxis), but also horizontally (for example, a negative HBsAg test does not guarantee a sufficient level of safety for transfusion services) [43].A vaccination campaign was started in Benin in 1999 [49], but the administration of immunoglobulins to newborns in order to prevent perinatal infection may also be required [49,50].
the OBIs identified in this study were characterised by HBV DNA levels of between 9 and 19 IU/mL, and this sensitivity may explain the high prevalence of OBI in comparison with other studies.On the other hand, it is necessary to bear in mind that HBV DNA levels may fluctuate over time [39,40], and so patients should really be evaluated serially in order to determine whether they have a chronic infection with a progressive loss of all anti-HBV antibodies, or whether they were devoid of antibodies from the beginning [8].Unfortunately, we do not have any subsequent data: The women who had been screened for HIV were no longer traceable and, as the women were asymptomatic for liver disease at the time of HIV screening and the HBV marker prevalence study was performed retrospectively, there are no biochemical liver data that can be associated with OBI.
In an attempt to explain the presence of chronic HBV carriers without HBsAg, we investigated the possibilities that HCV may have interfered with HBV replication [9] or that HIV may have caused cellular immunodeficiency [10].However, none of the woman with OBI had HIV infection and only one had HCV infection, so the presence of OBI therefore did not seem to have been due to viral interference.
It has been suggested that viremia may be partially kept under control as a result of a cytotoxic response by T lymphocytes after the resolution of an acute infection [41].It is not known why the eradication is not complete, but it has been hypothesised that the occurrence of mutants in the S region may explain the persistence of viremia, although it has also been reported that more than half of the subjects without apparent mutations in the S gene have OBIs [36].We re-tested our HBV DNA-positive and HBsAg-negative samples using a different test from that used in the previous study that is capable of detecting the most frequent mutants of HBV [42] because it has been suggested that HBsAg should be tested in this way [2].With this test all samples were negative according to OBIs are characterised by undetectable HBV DNA and non-mutated HBsAg levels [11].The presence of other possible mutations that may generate escape-mutants was not investigated because it was impossible to sequence the samples.Other immunological factors that may be involved include a non-cytolytic T lymphocyte response to specific HBsAg [43].
It has been suggested that different HBV genotypes may at least partially explain the existence of patients with or without HBsAg [44], but only a few studies [45,46] have provided a complete genomic sequence, not least because of the difficulty of amplifying a complete genome in samples with low levels of HBV DNA [4].It has been possible to detect sufficient levels of viremia to determine the genotypes of Beninese women with positive HBsAg [35] but this was not possible in the case of our women with OBIs because the remaining samples were too small.

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Page 3 of 7 • De Paschale et al.Int J Virol AIDS 2019, 6:053 levels of > 20 and < 20 IU/mL is also shown in Table

Table 1 :
HBV DNA in pregnant Beninese women divided on the basis of the presence/absence of HBV markers and DNA levels.

Table 2 :
HBV DNA levels in HBsAg-negative pregnant Beninese women divided on the basis of the presence of specific HBV antibodies.

Table 3 :
Relationships between the samples with HBV DNA levels of > 20 and < 20 IU/mL in pregnant Beninese women divided on the basis of the presence/absence of HBV markers.

Table 4 :
Mean, median and range of HBV DNA levels in the samples with levels of > 20 IU/mL divided on the basis of the presence/absence of HBV markers.