Hepatitis B and asymptomatic malaria coinfection in Sub-Saharan African immigrants: epidemiological and clinical features of HBV infection

Gaetano Scotto Vincenzina Fazio About the authors

Abstract

INTRODUCTION:

Here, we conducted an epidemiological study of hepatitis B virus (HBV) mono-infected and asymptomatic malaria/HBV coinfected immigrants and further discussed the possibility of malaria disease modifying the clinical presentation of HBV infection.

METHODS:

A total of 195 African immigrants were examined for HBV infection or coinfection with HBV and asymptomatic malaria. HBV infection was diagnosed using serological tests and confirmed by PCR; furthermore, we performed a pan-Plasmodium-specific-nucleic-acid-sequence-based-amplification (NASBA) assay to detect asymptomatic malaria infection. The stage/grade of the liver disease was determined using echotomography and elastometry.

RESULTS:

PCR-NASBA results confirmed that 62 of 195 subjects (31.8%) were positive for Plasmodium infection, whereas 41 of 195 subjects (21%) tested positive for HBV chronic hepatitis (HBV-DNA positive). Among the HBV-positive subjects, 26 (63.4%) of them were mono-infected patients (Group A), whereas 15 (36.6%) patients had HBV chronic hepatitis and asymptomatic malaria coinfections (Group B). The HBV-DNA median levels were 1.4×105IU/mL in HBV-mono-infected patients and 2.0×105IU/mL in coinfected patients. Echotomography and hepatic elastometry presented similar findings for both groups of patients.

CONCLUSIONS:

Coinfected patients seem to present with the same clinical symptoms of the liver disease as HBV mono-infected patients.

Keywords:
HBV-asymptomatic malaria coinfection; Sub-Saharan African immigrants; HBV clinical features

INTRODUCTION

Malaria is one of the most widespread infectious diseases in the world. According to the current World Health Organization (WHO) estimates, over 3.2 billion people (41% of world’s population) remain exposed to this disease. In 2015, there were 214 million new cases of malaria and 438,000 deaths worldwide, and most likely, Plasmodium falciparum was the causative agent11. World Health Organization (WHO). World Malaria report 2015. Genève: WHO; 280p. Available at: http://www.who.int/malaria/publications/world-malaria-report-2015/report/en/
http://www.who.int/malaria/publications/...
. In contrast, following exposure to malaria infection, people living in disease-endemic countries tend to have milder symptoms when infected (semi-immunity) with sub-microscopic levels of parasitemia. These individuals may not feel ill at all or present the typical features of malaria (asymptomatic disease)22. Fairhust RM, Wellems TE. Plasmodium species (malaria). In: Mandell GL, Bennett JE, Dolin R, editors. Mandell, Douglas, and Bennett's Principles and Practice of Infectious Diseases. Philadelphia: Elsevier Churcill Livingstone; 2005; p. 3121-44.; this clinical feature was also observed in African immigrants arriving in European countries33. Salvadò E, Pinazo MJ, Muñoz J, Alonso D, Naniche D, Mayor A, et al. Presentacion clinica y complicaciones de malaria importada por Plasmodium falciparum en dos groupos de pobalcion; viajero e immigrantes. Enferm Infect Microbiol Clin. 2008;26(5):282-4.,44. Mascarello M, Allegranzi B, Angheben A, Anselmi M, Concia E, Laganà S, et al. Imported malaria in adults and children: epidemiological and clinical characteristics of 380 consecutive cases observed in Verona, Italy. J Travel Med. 2008;15(4):229-36..

Most of the malaria cases are found in Sub-Saharan Africa [(SSA): 88%)], followed by South-East Asia and Central and South America11. World Health Organization (WHO). World Malaria report 2015. Genève: WHO; 280p. Available at: http://www.who.int/malaria/publications/world-malaria-report-2015/report/en/
http://www.who.int/malaria/publications/...
. In these countries, other infectious diseases are present as endemic infections, including hepatitis B virus (HBV) and human immunodeficiency virus (HIV) infections. Consequently, there are several geographical areas, mainly in SSA, where the endemicity of malaria and HBV overlap despite having different transmission routes55. Barcus MZ, Hien TT, White NJ, Laras K, Farrar J, Schwartz IK, et al. Short report: hepatitis B infection and severe Plasmodium falciparum malaria in Vietnamese adults. Am J Trop Med Hyg. 2002;66(2):140-2.

6. Aernan PT, Sar TT, Torkula SH. Prevalence of Plasmodia and hepatitis B virus co-infection in blood donors at Bishop Murray Medical Centre, Makurdi, Benue State, Nigeria. Asian Pac J Trop Med. 2011;4(3):224-6.
-77. Braga WSM, Botelho de Souza RA, Batista da Silva E, Ferraz da Fonseca JC, Tosta CE. Co-infection between hepatitis B virus and malaria: clinical, serologic and immunologic aspect. Rev Soc Bras Med Trop. 2006;39(1):27-31.. In tropical areas, HBV is highly contagious from one infected individual to another and sometimes can present the same route of transmission of Plasmodium (by blood-to-blood contact, sharing needles, and blood transfusions). Therefore, it is not rare that the parasitic and viral infections may be present in the same individual, influencing each other from a clinical perspective.

Previous studies of malaria/HBV coinfection are scant with a focus primarily on the epidemiological aspects, while the mutual interactions between the two pathogens, HBV and malaria (symptomatic or asymptomatic disease), remain poorly understood. Lately, it has been suggested that since these two infections share some of their developmental stages within the liver, the co-occurrence of infections possibly influences the progression of HBV infection and is associated with the natural history of both diseases88. Pasquetto V, Guidotti LG, Kakimi K, Tsuji M, Chisari FV. Host-virus interactions during malaria infection in hepatitis B virus transgenic mice. J Exp Med. 2000;192(4):529-53.,99. Braga WSM, Batista da Silva E, Botelho de Souza RA, Tosta CE. Sero-prevalence of hepatitis B and malaria infection in Lábrea, Brazilian western Amazon: estimates of co-infection rates. Rev Soc Bras Med Trop . 2005;38(3):218-23..

In the last twenty years, there has been a migratory flow of the human populations from developing to industrialized countries (USA and West Europe), and this is accompanied by increased spread of some infectious diseases [HIV, tuberculosis (TB), viral hepatitis, and asymptomatic malaria] as well their coinfections.

Here we report a study on the epidemiology of asymptomatic malaria/HBV coinfection in a cohort of SSA immigrants. Comparing the coinfected with HBV mono-infected individuals, we evaluated whether and how malaria infection may affect the clinical presentation of HBV infection.

METHODS

Patients

Blood samples were collected from 195 asymptomatic immigrants who were temporary guests in a refugee camp managed by the Italian Red Cross and located in Borgo Mezzanone (Foggia, Italy). Later, the collected samples were screened for infectious diseases. First, we evaluated the prevalence of Plasmodium species in this population of immigrants1010. Marangi M, Di Tullio R, Mens PF, Martinelli D, Fazio V, Angarano G, et al. Prevalence of Plasmodium spp. in malaria asymptomatic African migrants assessed by nucleic acid sequence based amplification. Malar J. 2009;8:12., followed by investigating for the stage of HBV-infection in HBV mono-infected, hepatitis B surface antigen (HBsAg) and/or hepatitis B virus- deoxyribonucleic acid (HBV-DNA) positive (Group A) or HBV/asymptomatic malaria coinfection (Group B). No subject with hepatitis B virus/hepatitis C virus/hepatitis delta virus/human immunodeficiency virus (HBV/HCV/HDV/HIV) viral coinfection was recruited in our study. All patients were screened for HBV markers, and none reported vaccination against HBV infection. Additionally, the prevalence of a possible asymptomatic infection with Plasmodium species was assessed in the patients. All guests in the camp were verbally informed about the purpose of the study and invited to participate. Subsequent recruitment was on a voluntary basis with no special sampling criteria. The study was reviewed and approved by the local Chief of the Red Cross, and a written informed consent, translated in four languages (English, French, Arabic, and Italian), was obtained from each enrolled subject. All study procedures were conducted in accordance with the Helsinki Declaration (1964, amended in 2008). At enrollment, all study participants were interviewed using a questionnaire to collect the baseline demographic, clinical, and socioeconomic information, and assess their previous exposure to malaria and/or HBV. All enrolled subjects also received a full clinical examination and, if necessary, were treated according to the stage of their liver disease.

The mean age of the subjects was 25.1±5.7 years (range: 16-40 years), and most of them (162, 83.1%) were men including few teenagers and older adults. It was difficult to recruit potential female candidates because they refused to undergo clinical examination. Ethylenediaminetetraacetic acid (EDTA) anti-coagulated blood samples were labeled and temporarily stored for a maximum of 24 hours in a freezer bag before transporting them to the laboratory, where the samples were stored at -80°C and later processed for isolating nucleic acids and determining HBV genotype.

Using nucleic acid sequence-based amplification (NASBA) Pan-Plasmodium-specific NASBA-targeting-18S-rRNA (GenBank accession N° M19172.1), the prevalence of a possible asymptomatic infection with Plasmodium species was assessed on an IQ5 Real-Time analyzer.

HBV markers (HBsAg/HBsAb) were measured by commercial immunoassay methods (Abbott-AuszymeMc, Abbott Laboratories, North Chicago, IL, USA). Hepatitis HBeAg and its antibody were detected by radioimmunoassays (HBeAg/antiHBe immune-radiometric DiaSorin, Vercelli, Italy). A commercially available kit was used to detect HBV-DNA (Qiamp Viral RNA, Qiagen, Chatsworth, CA). For the determination of HBV genotypes, HBV-DNA was extracted, and genotypes were determined by the INNO-LiPA HBV-Genotyping assay (Innogenetics NV, Gent, Belgium)1111. Stuyver L, De Gendt S, Van Geyt C, Zoulim F, Fried M, Schinazi RF, et al. A new genotype of hepatitis virus: complete genome and phylogenetic relatedness. J Gen Virol. 2000;81(Pt 1):67-74.. The correct HBV genotype was established by consulting an interpretation chart showing probe reactivity patterns for each genotype. Serum alanine-amino-transferase (ALT) level was quantified by ultraviolet-enzymatic assay (normal range 0-40IU/L).

All patients underwent both abdomen echo-tomography (Esaote, Genova, Italia) and elastometry (Echosens, Fibroscan 502), and their hepatic biochemical, epidemiological, and virological parameters were recorded. All patients with or without biochemical and/or virological activity for HBV infection refused to undergo hepatic biopsy. For the evaluation and classification of severity of liver disease [inactive HBV carriers, mild or moderate/severe chronic hepatitis, cirrhosis or hepatocarcinoma (HCC)], the following parameters were considered: serological, virological, abdominal echography, and hepatic-elastometry. The disease degree was determined through the analysis of additional parameters. For the diagnosis of HCC, an abdominal echography was performed on the patient.

Statistical analysis

Results are expressed as the mean and standard deviation (SD). The chi-square test was used to compare categorical variables (sex, positivity for HBV markers, coinfection with HBV/Malaria, HBV genotypes, and stages of liver disease). Continuous variables (age and ALT levels) were compared by Student’s t-test for independent samples. The level of significance was set at a p-value <0.05. Data were analyzed by Stata 10MP software for Mac OS X.

RESULTS

All enrolled participants came from SSA countries (54.3% from East Africa, 35.9% from West Africa, and 10.8% from Central Africa) (Table 1), and they were in Italy for a mean period of 54 days (range: 19-121 days). Of 195 subjects, 41 (21%) presented markers of HBV chronic hepatitis (HBV-DNA positive). Among HBV-positive patients, 26 (63.4%) were mono-infected patients (Group A), whereas 15 (36.6%) patients (Group B) had HBV chronic hepatitis and asymptomatic malaria coinfection (diagnosed by PCR-NASBA). Among the individuals affected by asymptomatic malaria infection, polymerase chain reaction (PCR) tests detected the presence of gametocytes of P. falciparum in 24/62 (38.7%) samples. Microscopic examination confirmed the positive NASBA results in 14 cases. P. falciparum was observed in 13 samples, and one sample was positive for P. ovale (Table 1).

TABLE 1:
Baseline characteristics of the patients [N=195 (including 162 males 83.1%)].

Clinical features of HBV mono-infected (26) and HBV/malaria coinfected (15) chronic hepatitis patients are presented in Table 2. Groups A and B had 19/26 (73.1%) and 11/15 (73.3%) anti-HBe positive patients, respectively; all other subjects presented HBV-wild (HBeAg+) infection, highlighting the homogeneity of the two patient groups (p>0.05).

TABLE 2:
Clinical features of HBV mono-infected and HBV/malaria coinfected chronic hepatitis patients.

HBV virological findings

HBV-DNA viremia was detected in both patient groups without a significant difference (p=0.05). Overall, the median levels of HBV-DNA viral load were 1.4×105UI/mL in all patients with HBV-infection alone and 2.0×105 in coinfected patients; however, there was no significant difference between the two groups (p=0.05). No anti-HBc positive individuals in either group showed the presence of detectable HBV-DNA (occult hepatitis).

For 23 HBV-DNA positive patients, genotype distribution was not significantly different between the groups (p=0.03); patients were classified into genotypes A, D, and E. Among genotypes A and D, there were no significant differences (p=0.03); on the contrary, a significant difference existed between these genotypes and genotype E (p<0.01).

Serological and virological tests for liver diseases

Of 26 patients in Group A, 12 (46.2%) presented normal ALT levels and undetectable serum HBV-DNA (<20IU/mL), 3 (11.5%) had persistently normal ALT levels and HBV-DNA detectable by Real-Time PCR (mean level 353.635IU/mL, range 86.637-1.875.247), and 11 (42.3%) showed elevated ALT levels (mean level 89, SD 31IU/mL, range 73-285) and detectable levels of serum HBV-DNA (mean level 1741677 IU/mL, range 418.768-5.254.468).

Among 15 patients of Group B, 6 (40.0%) presented normal ALT levels and undetectable serum HBV-DNA (<20IU/mL), 3 (20.0%) presented persistently normal ALT levels and HBV-DNA detectable by Real-Time PCR (mean level 556.681IU/mL, range 138.574-2.673.555), and 6 (40%) had elevated ALT levels (mean level 107, SD 31 vs. 127IU/mL, range 92-294) and detectable levels of serum HBV-DNA (mean level 1.954.847 IU/mL, range 839.937-6.893.527).

Liver function tests in patients from both groups revealed elevated transaminase levels (89 SD 31 vs. 127 SD 31IU/mL) whereas a moderate increase in bilirubin (mostly indirect) was observed primarily in the coinfected (especially those suffering from falciparum malaria) than the HBV mono-infected (3.4 vs. 1.5mg/dL) patients; however, the two groups did not differ significantly (p=0.05). Normocytic hemolytic anemia was observed in 61/195 (31.3%) cases, and leucopenia due to a decrease in granulocytes and lymphocytes was confirmed in 96/195 (49.2%) subjects. Leucopenia was significantly associated with Group B (p<0.01). The hematological, biochemical, and virological results were similar in HBeAg positive and anti-HBe positive patients.

Clinical examinations

Following physical examination of all patients from both groups, 18/41 (43.9%) cases of HBV infection were found to have splenomegaly and hepatomegaly. Of these 18 patients, there were 7 (38.9%) and 11 (61.1%) patients from Groups A and B, respectively. Splenomegaly and hepatomegaly were significantly associated with Group B (splenomegaly: p=0.05; hepatomegaly: p=0.01). A significant association was found between 18S NASBA positivity and splenomegaly (p<0.01), hepatomegaly (p<0.01), and leucopenia. The stages of liver disease and hepatic fibrosis were also analyzed by echo-tomography and elastometry.

Diagnosis by imaging

Echo-tomography showed the following results for Group A (26) vs. Group B (15): normal findings of hepatic texture in 15 (57.7%) and 9 (60%) patients of Groups A and B, respectively; modest alterations of the echo-texture with ultrasound attenuation in 6 (23.1%) and 3 (20%) subjects of Groups A and B, respectively; hepatomegaly, inhomogeneous patchy, and diffuse increased echogenicity in 3 (11.5%) and 2 (13.3%) patients of Groups A and B, respectively; changes in the shape of the liver, inhomogeneous echo-texture, and irregular-nodular liver surface delineation in 2 and 1 patients from Groups A and B, respectively. Intrahepatic vessels were indistinct (echo coarse pattern). Lymph nodes were sometimes detected in the hepatoduodenal ligament. None of our patients presented ultrasound patterns of HCC.

Following the hepatic-elastometry examination, the mean value of liver elasticity was found to be 8.4±0.5 kPa and 8.7 SD 2.4 kPa for HBV mono-infected and coinfected patients, respectively (normal value of liver stiffness (KPa): <4.5-5.5). Both echo-tomography and hepatic-elastometry showed no significant difference between the two groups of patients (Table 2).

The evaluation of the severity of liver disease showed that 12/26 (46.2%) patients with chronic HBV infection alone were HBV inactive carriers vs. 6/15 (40%) of coinfected patients, 3/26 (11.5%) vs. 3/15 (20%) presented a phase of immune-tolerance, 6/26 (23.1%) vs. 3/15 (20%) had mild chronic hepatitis, 3/26 (11.5%) vs. 2/15 (13.3%) had moderate/severe chronic hepatitis, and 2/26 (7.7%) vs. 1/15 (6.7%) had cirrhosis. All the stages of liver disease were substantially and statistically similar between the two groups (p=0.05). Of 5 patients with moderate/severe hepatitis or cirrhosis, 3 of them had HBV wild-type infection, while 2 patients were anti-HBe positive (p=0.03).

DISCUSSION

Malaria and HBV infections are common in several tropical areas, and the endemicity of these infections overlaps frequently. Clinically, the malaria infection may arise in various ways. Asymptomatic malaria infection and full-blown illness with typical febrile paroxysms are extreme points in the wide spectrum of clinical diseases caused by malaria parasites. Naturally acquired clinical immunity, parasite load and virulence, host's age, and genetic factors are all likely to modulate the clinical expression and severity of malaria. Many people from malaria-endemic countries may have acquired semi-immunity with sub-microscopic levels of parasitemia, resulting in less serious to no manifestation of disease (asymptomatic malaria)1212. Alves FP, Durlacher RR, Menezes MJ, Krieger H, Silva LH, Camargo EP, et al. High prevalence of asymptomatic Plasmodium vivax and Plasmodium falciparum infections in native Amazonian populations. Am J Trop Med Hyg . 2002;66(6):641-8.

13. Camargo EP, Alves F, Pereira da Silva LH. Symptomless Plasmodium vivax infections in native Amazonians. Lancet. 1999;353(9162):1415-6.
-1414. Andrade BB, Santos CJ, Camargo LM, Souza-Neto SM, Reis-Filho A, Clarêncio J, et al. Hepatitis B infection is associated with asymptomatic malaria in the Brazilian Amazon. PLoS One. 2011;6(5):e1984.. This was also reflected in our study as the frequency of semi-immune subjects was low (31.8%). Thus, we evaluated the epidemiology of HBV coinfection/malaria in a cohort of African immigrants with asymptomatic malaria and investigated whether and how this clinical form of malaria may affect the clinical expression of HBV infection. Among our malaria patients, chronic B hepatitis was detected in 24%, although their numbers were very small.

Comparing the rate of prevalence of coinfection among subjects from three continents (Africa66. Aernan PT, Sar TT, Torkula SH. Prevalence of Plasmodia and hepatitis B virus co-infection in blood donors at Bishop Murray Medical Centre, Makurdi, Benue State, Nigeria. Asian Pac J Trop Med. 2011;4(3):224-6., Asia1515. Shrestha AC, Ghimire P, Tiwari BR, Rajkarnikar M. Transfusion-transmissible infections among blood donors in Kathmandu, Nepal. J Infect Dev Ctries. 2009;3(10):794-7., and South America1616. Souto FJ, Fontes CJF, Gaspar AMC. Prevalence of hepatitis B and C virus markers among malaria-exposed gold miners in Brazilian Amazon. Mem Inst Oswaldo Cruz. 2001;96(6):751-5.), it is evident that data differ significantly between continents; further, the clinical outcomes closely associate with geographical areas presenting different epidemiological patterns of two microorganisms and clinical features of malaria infection. For patients with different forms of chronic B hepatitis and anti-HBc subjects, increased number of coinfected individuals (around 45-50%) was reported in two studies conducted in SSA. However, in the same country (Nigeria), significant differences in the prevalence of coinfection have also been observed66. Aernan PT, Sar TT, Torkula SH. Prevalence of Plasmodia and hepatitis B virus co-infection in blood donors at Bishop Murray Medical Centre, Makurdi, Benue State, Nigeria. Asian Pac J Trop Med. 2011;4(3):224-6.,1717. Sharif AA, Dabo NT, Getso MI. Prevalence of malaria and hepatitis B virus infection in febrile patients in Kano northwest Nigeria. Int J Cur Res Rev. 2015;7(9):61-5.. This is probably due to a decreasing trend of malaria and HBV infections, as reported by WHO.

In various studies conducted in Brazil, considerably low rates of coinfection were observed both in the general population and those at risk, highlighting the prevalence of both forms of HBV infection77. Braga WSM, Botelho de Souza RA, Batista da Silva E, Ferraz da Fonseca JC, Tosta CE. Co-infection between hepatitis B virus and malaria: clinical, serologic and immunologic aspect. Rev Soc Bras Med Trop. 2006;39(1):27-31.,99. Braga WSM, Batista da Silva E, Botelho de Souza RA, Tosta CE. Sero-prevalence of hepatitis B and malaria infection in Lábrea, Brazilian western Amazon: estimates of co-infection rates. Rev Soc Bras Med Trop . 2005;38(3):218-23..

A completely different situation has been described in Asia where the prevalence of coinfection varies based on the geographical location (Vietnam 23.8%, Nepal 0%)55. Barcus MZ, Hien TT, White NJ, Laras K, Farrar J, Schwartz IK, et al. Short report: hepatitis B infection and severe Plasmodium falciparum malaria in Vietnamese adults. Am J Trop Med Hyg. 2002;66(2):140-2.,1515. Shrestha AC, Ghimire P, Tiwari BR, Rajkarnikar M. Transfusion-transmissible infections among blood donors in Kathmandu, Nepal. J Infect Dev Ctries. 2009;3(10):794-7..

Our data fall in the middle of the range obtained from the abovementioned studies and match closely with those from the study conducted in Africa. It must be reminded that most of the patients included in our study were immigrants from SSA.

Many studies have been conducted to identify migration-associated diseases1818. McCarthy AE, Weld LH, Barnett ED, So H, Coyle C, Greenaway C, et al. Geo Sentinel Surveillance Network. Spectrum of illness in international migrants seen at Geo Sentinel clinics in 1997-2009, part 2: migrants resettled internationally and evaluated for specific health concerns. Clin Infect Dis. 2013;56(7):925-33.,1919. Barnett ED, Weld LH, McCarthy AE, So H, Walker PF, Stauffer W, et al. Spectrum of illness in international migrants seen at GeoSentinel clinics in 1997-2009, part 1: US-bound migrants evaluated by comprehensive protocol-based health assessment. Clin Infect Dis . 2013;56(7):913-24.in industrialized countries with high levels of immigration, including those with a high prevalence of HBV infection; however, there are no completed or ongoing studies related to coinfections with malaria and hepatitis B. Thus, we believe that this is the first or one of the first studies examining this global health problem.

The interaction between two pathogens has been studied by several researchers, and as both infections share an intrahepatic stage in their life cycles, their interaction has been hypothesized to occur at both immunological and cellular levels. Intriguingly, both pathogens may also utilize common receptors during the hepatocyte invasion2020. Paulyn TA,Terdzungwe TS. Prevalence of plasmodia and HBV-co-infection in blood donors at Bishop Murray Murray Medical Centre, Markurdi, Benue State, Nigeria. Asian pacific Journal 0f Tropical Medicine, 2010; 222-6.. Malaria hepatitis is characterized by elevated levels of serum bilirubin and ALT (>3 n.v.) as well as a histologic liver picture that shows malarial pigment, swollen hepatocytes, inflammatory infiltrate, and centrizonal necrosis. These characteristics are usually described in patients with P. falciparum infection and also in some cases of infection by Plasmodium vivax2121. Bhalla A, Suri V, Singh V. Malarial hepatopathy. J Postgrad Med. 2006;52(4):315-20.,2222. Anand AC, Puri P. Jaundice in malaria. J Gastroenterol Hepatol. 2005;20(9):1322-32.. In recent years, both experimental and clinical studies have demonstrated how the malarial infection can determine the clinical presentation and evolution of HBV infection55. Barcus MZ, Hien TT, White NJ, Laras K, Farrar J, Schwartz IK, et al. Short report: hepatitis B infection and severe Plasmodium falciparum malaria in Vietnamese adults. Am J Trop Med Hyg. 2002;66(2):140-2.,77. Braga WSM, Botelho de Souza RA, Batista da Silva E, Ferraz da Fonseca JC, Tosta CE. Co-infection between hepatitis B virus and malaria: clinical, serologic and immunologic aspect. Rev Soc Bras Med Trop. 2006;39(1):27-31.,1414. Andrade BB, Santos CJ, Camargo LM, Souza-Neto SM, Reis-Filho A, Clarêncio J, et al. Hepatitis B infection is associated with asymptomatic malaria in the Brazilian Amazon. PLoS One. 2011;6(5):e1984..

Interestingly, it was reported that intrahepatic HBV replication and gene expression are inhibited in mice infected by the malaria species Plasmodium yoelii88. Pasquetto V, Guidotti LG, Kakimi K, Tsuji M, Chisari FV. Host-virus interactions during malaria infection in hepatitis B virus transgenic mice. J Exp Med. 2000;192(4):529-53.. Actually, this parasitic infection causes an intrahepatic inflammatory response characterized by the influx of natural killer cells, macrophages, T cells, along with the induction of IFNγ, IFNα/β, TNFα, and iNOS proteins in the liver. Probably, these cytokines inhibit HBV replication; however, it appears that IFNγ and IFNα/β are essential to suppress HBV gene expression and replication in the liver. The antiviral effect of malaria is likely to be triggered by phagocytosis of infected erythrocytes by Kupffer cells, leading to their activation and production of chemokines. Subsequently, these cytokines recruit NK, NKT, and malaria-specific T cells, and together, these cells likely produce inflammatory cytokines to eliminate HBV from the hepatocytes88. Pasquetto V, Guidotti LG, Kakimi K, Tsuji M, Chisari FV. Host-virus interactions during malaria infection in hepatitis B virus transgenic mice. J Exp Med. 2000;192(4):529-53..

These data suggest that malaria infection might influence the presentation and clinical evolution of HBV infection in coinfected humans. Some studies seem to confirm this hypothesis; a study in Papua New Guinea investigated the interactions in the coinfected individuals and showed that patients with the advanced stages of malaria infection had the lowest prevalence of hepatitis B infection2323. Brabin L, Brabin BJ, Dimitrakakis M, Gust I. Factors affecting the prevalence of infection with hepatitis B virus among non-pregnant women in the Alexishafen area of Papua New Guinea. Ann Trop Med Parasitol. 1989;83(4):365-74.. Another study reported that viremia in chronic hepatitis B infection appears to fluctuate in concert with P. falciparum infection2424. Brown AE, Mongkolsirichaikul D, Innis B, Snitbhan R, Webster HK. Falciparum malaria modulates viremia in chronic hepatitis B virus infection. J Infect Dis. 1992;166(6):1465-6., suggesting that the amount and type of intrahepatic inflammatory cytokines induced by malaria infection may influence the course of HBV infection in humans. Further, a study performed in a Vietnamese hospital showed that patients with cerebral malaria had a slightly greater risk of registering positive serology for the HBV surface antigen55. Barcus MZ, Hien TT, White NJ, Laras K, Farrar J, Schwartz IK, et al. Short report: hepatitis B infection and severe Plasmodium falciparum malaria in Vietnamese adults. Am J Trop Med Hyg. 2002;66(2):140-2.. Another study on Gambian children with severe malaria reported significantly increased HBV viral load in children with parasitemia than those with HBV infections alone, suggesting that increased viremia in individuals with severe malaria was likely due to decreased HLA expression2525. Thursz MR, Kwiatkowski D, Torok ME, Allsopp CE, Greenwood BM, Whittle HC, et al. Association of hepatitis B surface antigen carriage with severe malaria in Gambian children.Nat Med. 1995;1(4):374-5..

Our findings, obtained by comparing a group of subjects coinfected vs. a group of patients HBV mono-infected, do not reflect the above data as the coexistence with Plasmodium does not seem to significantly affect the clinical course of HBV infection. Comparing the numerical data of the two patient groups, we demonstrated that 24.2% of coinfected vs. 19.8% of mono-infected subjects exhibited a clinical picture of chronic hepatitis. Although there was a greater percentage difference between coinfected vs. mono-infected (50.0% vs. 39.8%), anti-HBc positivity data was not significant between the two groups. Clinical chemistry findings, virological effects, and diagnostic imaging (ultrasonography and elastometry) were substantially similar in the two study groups, without any evidence of Plasmodium-induced effects on the clinical evolution of HBV infection.

The only statistically significant association was found between 18S NASBA positivity (for Group B) and splenomegaly (p<0.01), hepatomegaly (p<0.01), and leucopenia. One type of morbidity associated with malaria is hepatomegaly, a condition that is mostly resolved within two weeks of treatment. Malarial splenomegaly represents one of the leading causes of massive splenomegaly in malaria-endemic countries2626. Crane G. Recent studies of hyper-reactive malarial splenomegaly (tropical splenomegaly syndrome) in Papua New Guinea. P N G Med J. 1986;29(1):35-40.. It is caused by an aberrant immune response to chronic antigenic stimulation in subjects exposed for a long time to malaria parasites, as observed during acute malaria that usually resolves after clearance of infection2727. Moraes MF, Soares M, Arroz MJ, Do Rosário VE, Da Graça JP, Abecasis P, et al. New concepts in hyperactive malarial splenomegaly. Acta Med Port. 2003;16(1):41-6..

The regression of splenomegaly occurs with similar kinetics to the resolution of hepatomegaly; however, chronic hepatosplenomegaly can occur with persistent malaria infections2727. Moraes MF, Soares M, Arroz MJ, Do Rosário VE, Da Graça JP, Abecasis P, et al. New concepts in hyperactive malarial splenomegaly. Acta Med Port. 2003;16(1):41-6.. Consistent with previous findings in patients from Brazil77. Braga WSM, Botelho de Souza RA, Batista da Silva E, Ferraz da Fonseca JC, Tosta CE. Co-infection between hepatitis B virus and malaria: clinical, serologic and immunologic aspect. Rev Soc Bras Med Trop. 2006;39(1):27-31.,99. Braga WSM, Batista da Silva E, Botelho de Souza RA, Tosta CE. Sero-prevalence of hepatitis B and malaria infection in Lábrea, Brazilian western Amazon: estimates of co-infection rates. Rev Soc Bras Med Trop . 2005;38(3):218-23.,1212. Alves FP, Durlacher RR, Menezes MJ, Krieger H, Silva LH, Camargo EP, et al. High prevalence of asymptomatic Plasmodium vivax and Plasmodium falciparum infections in native Amazonian populations. Am J Trop Med Hyg . 2002;66(6):641-8.,1414. Andrade BB, Santos CJ, Camargo LM, Souza-Neto SM, Reis-Filho A, Clarêncio J, et al. Hepatitis B infection is associated with asymptomatic malaria in the Brazilian Amazon. PLoS One. 2011;6(5):e1984. and Africa66. Aernan PT, Sar TT, Torkula SH. Prevalence of Plasmodia and hepatitis B virus co-infection in blood donors at Bishop Murray Medical Centre, Makurdi, Benue State, Nigeria. Asian Pac J Trop Med. 2011;4(3):224-6.,1717. Sharif AA, Dabo NT, Getso MI. Prevalence of malaria and hepatitis B virus infection in febrile patients in Kano northwest Nigeria. Int J Cur Res Rev. 2015;7(9):61-5.,2525. Thursz MR, Kwiatkowski D, Torok ME, Allsopp CE, Greenwood BM, Whittle HC, et al. Association of hepatitis B surface antigen carriage with severe malaria in Gambian children.Nat Med. 1995;1(4):374-5.,2626. Crane G. Recent studies of hyper-reactive malarial splenomegaly (tropical splenomegaly syndrome) in Papua New Guinea. P N G Med J. 1986;29(1):35-40., we observed a situation of persistent malaria infection in our patients.

Our data suggest that, in SSA immigrants with asymptomatic malaria and HBV coinfection, the parasitic pathogens do not appear to significantly affect the course of virus B infection. Plasmodium-infected individuals with active or previous HBV infection are more likely to be asymptomatic, present with lower parasitemia, and have decreased inflammatory cytokine profile (asymptomatic malaria presented a reduced IFN-c/IL-10 ratio2020. Paulyn TA,Terdzungwe TS. Prevalence of plasmodia and HBV-co-infection in blood donors at Bishop Murray Murray Medical Centre, Markurdi, Benue State, Nigeria. Asian pacific Journal 0f Tropical Medicine, 2010; 222-6.). Though the number of subjects examined was relatively small in this observational cross-sectional study, there was no clear evidence to demonstrate that the clinical status of underlying hepatitis B-related liver disease is affected during malaria infection. However, given the increasingly frequent arrival of SSA immigrants (with increased risk of HBV/occult malaria coinfection) in our country, this study offers some valuable insights for the clinicians and researchers working on this interesting topic. Some of our patients (73/195) are still being followed, but so far, we have not found any change with respect to their hepatic parameters, including both virological and serological responses.

Acknowledgments

The authors are grateful to Marianna Marangi and Annunziata Giangaspero (Department PrIME, University of Foggia, Italy) for their kind collaboration.

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Publication Dates

  • Publication in this collection
    Sep-Oct 2018

History

  • Received
    11 Nov 2017
  • Accepted
    10 Aug 2018
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