OCCULT HEPATITIS B INFECTION IN HEMODIALYSIS PATIENTS INFECTED WITH HEPATITIS C VIRUS

Document Type : Original Article

Author

Department of Internal Medicine –Faculty of Medicine, Al-Azhar University, Cairo, Egypt

Abstract

Background: Occult hepatitis B infection (OBI) is defined as the existence of low-level HBV DNA in the serum ( Objective: To evaluate the prevalence of occult hepatitis B infection among hemodialysis patients infected with Hepatitis C Virus.
Patients and Methods: Our study was conducted on 100 patients with end-stage renal disease who were positive Hepatitis C Virus undergoing regular hemodialysis from the dialysis unit related to the department of nephrology, Nasser Institute, Egypt, during the period from July to January 2018. Female ratio was |39%|, while male ratio was |61%|, age ranged from (18-60) with mean efficient |39.20±11.98|.HbcIgG was checked to all patients, and HBV PCR to positive HBcIgG patients.
Results: The results of our study showed that 8% of the whole samples were Positive, and 92% were negative HbCIgG patients. From these 8% positive HBcIgG patients, HBV PCR was positive in only 2% patients.
Conclusion: OBI was prevalent among chronic HCV patients on regular hemodialysis. However, more precise assessment of this infection requires regular patient follow up using HBV DNA detection methods.

Keywords

Main Subjects


OCCULT HEPATITIS B INFECTION IN HEMODIALYSIS PATIENTS INFECTED WITH HEPATITIS C VIRUS

By

Abd El-Aziz Mamdouh Mohamed Abd El-Aziz Mohamed Berbesh

Department of Internal Medicine –Faculty of Medicine, Al-Azhar University, Cairo, Egypt

Mobile: 01285328692, E-mail: abdelaziz.berbesh@yahoo.com

ABSTRACT

Background: Occult hepatitis B infection (OBI) is defined as the existence of low-level HBV DNA in the serum (

Objective: To evaluate the prevalence of occult hepatitis B infection among hemodialysis patients infected with Hepatitis C Virus.

Patients and Methods: Our study was conducted on 100 patients with end-stage renal disease who were positive Hepatitis C Virus undergoing regular hemodialysis from the dialysis unit related to the department of nephrology, Nasser Institute, Egypt, during the period from July to January 2018. Female ratio was |39%|, while male ratio was |61%|, age ranged from (18-60) with mean efficient |39.20±11.98|.HbcIgG was checked to all patients, and HBV PCR to positive HBcIgG patients.

Results: The results of our study showed that 8% of the whole samples were Positive, and 92% were negative HbCIgG patients. From these 8% positive HBcIgG patients, HBV PCR was positive in only 2% patients.

Conclusion: OBI was prevalent among chronic HCV patients on regular hemodialysis. However, more precise assessment of this infection requires regular patient follow up using HBV DNA detection methods.

Key words: occult heeahtis, henodialysis.

 

 

INTRODUCTION

     Egypt ranks first among countries regarding the prevalence of hepatitis C virus (HCV) infection (Amer et al., 2015). HBV is a double-stranded DNA virus belonging to the family Hepadnaviridae, genus Orthohepadnavirus (Datta et al., 2012).

     HBV infection is classified into three categories: acute, chronic, and occult hepatitis B infection (Inoue and Tanaka, 2016).

     Occult hepatitis B infection (OBI) is defined as the detection of HBV DNA in the serum or liver of individuals by precise laboratory tests in the absence of hepatitis B surface antigen (HBsAg), with or without serological markers of previous viral exposure (Raimondo et al., 2019) Possibility of infection among HD patients is increased due to their low response to HBV vaccination (Aghakhani et al., 2010).

     Prevalence rates of OBI are influenced by several factors, including HBV endemicity and subtypes, patient characteristics, the sensitivity of diagnostic techniques, the type and number of samples, and the implementation of infection prevention and control (Raimondo and Pollicino, 2016).

     In a study from Japan, OHB appeared to be an important risk factor in the development of HCC in non-cirrhotic patients following the eradication of HCV with interferon (Belperio et al., 2017).

     The clinical importance of OBI includes the possibility of HBV transmission in patients receiving blood transfusion and organ transplantation, especially the liver (Squadrito et al., 2014). The early identification of OBI helps prompt patient management (Kwak and Kim, 2014).

     The aim of this study was to evaluate the prevalence of occult Hepatitis B Virus infection in positive Hepatitis C Virus patients on regular hemodialysis.

PATIENTS AND METHODS

     This study was conducted on 100 patients with end-stage renal disease undergoing regular Hemodialysis from the dialysis unit related to the Department of Nephrology, Nasser Institute, Egypt, during the period from July 2017 to January 2018. The study protocol will be approved by the local ethics committee and all patients will give their informed consent prior to the study.

Inclusion Criteria:

a.  On regular HD for at least 6 months.

b.  Positive for anti-HCV antibodies.

c.  Negative for HBs-Ag.

Exclusion Criteria:

a.  Overt HBV infection (HBs-Ag positive).

b.  Patients with alcoholic, autoimmune, malignant or metabolic liver diseases.

     All the studied patients were subjected to the following:

Clinical assessment (History taking and physical examination) Biochemical assessment: Liver functions (alanine aminotransferase, aspartate aminotransferase and serumalbumin), kidney functions (blood urea and serum creatinine), complete blood counts, calcium, and phosphorus.

Testing for hepatitis B serology was achieved by:

- Hepatitis B surface antigen (HBsAg) by ELISA.

-    Total anti-Hepatitis B Core antibody IgG.

-    Hepatitis B virus DNA (HBV-DNA) by real time Polymerase chain reaction(PCR): only to do in patients positive for anti-HBc antibody.

Testing for hepatitis C serology was achieved by:

-    Hepatitis C antibody by Enzyme Linked Immuno-sorbent Assay (ELISA).

-    Hepatitis C virus RNA by PCR.

Statistical Analysis:

     All data were collected, tabulated, and statistically analyzed using the software, statistical package for social science (SPSS) version 17.

-    Description of quantitative variables as mean +SD, range and median (IQR).

-    Relationship between parameters was analyzed using the Pearson correlation coefficients®.

 


 

RESULTS

 

 

     Females were 39% and males were  61%) and age ranged between 18-60 with a mean of 39.20±11.98 (Table 1).

 

Table (1):   Demographic data distribution of the study group

Demographic data

Total (n=100)

Sex

 

-       Female

39 (39.0%)

-       Male

61 (61.0%)

Age (years)

 

-       Range

18-60

-       Mean±SD

39.20±11.98

 

     There was8% positive and 92% negative HbCIgG (Table 2).

 

Table (2):   Virology marker of the study group

Virology report

Total (n=100)

HBs Ag

-       Negative

 

100 (100.0%)

HCV Ab

-       Positive

 

100 (100.0%)

HIV Ab

-       Negative

 

100 (100.0%)

HCV RNA PCR

-       Range

-       Median (IQR)

-       Mean ±SD

 

10000-4664870

148810 (555072.50)

498337.1±835275.36

HBcIgG

-       Positive

-       Negative

 

8 (8.0%)

92 (92.0%)

HBV DNA PCR (n=8)

-       Negative

-       Positive

-       Range [Mean ±SD]

 

6 (75.0%)

2 (25.0%)

180-700 [440.0±367.7]

IQR: Interquartile range

 

 

     There was elevation of the mean creatinine and BUN, decreased mean calcium, high PO4 according to ESRD laboratory criteria, high ALT, AST and low albumin and low platelet count according to Hepatitis C diseased patients laboratory criteria (Table 3).

 

 

 

Table (3):   Laboratory data descriptive of the study group

Laboratory data

Total (n=100)

Creatinine(mg/dl)

3.8-14           (9.53±2.50)

BUN (mg/dl)

26-98            (56.65±15.00)

Ca(mg/dL)

4.7-12.4        (8.60±1.20)

Po4(mg/dL)

1.9-10.7        (4.59±1.72)

AST(U/L)

5-40              (25.14±8.33)

ALT(U/L)

5-55              (24.89±9.92)

Albumin (mg/dL)

2-4               (2.99±0.59)

Hemoglobin(g/dL)

6-14.2           (10.13±1.61)

WBCs(thousands/cmm)

2.2-14.2        (7.10±2.47)

Platelets(thousands/cmm)

3.4-388        (191.61±71.27)

 

 

     There was a statistically significant increase mean of occult hepatitis positive compared to occult hepatitis B negative according to duration of hemodialysis, HCVRNA PCR and ALT (Table 4).

 

 

Table (4):   Comparison between occult hepatitis B positive and occult hepatitis B negative according to demographic data

Groups

Parameters

Ocult Hepatitis B Positive (n=2)

Ocult Hepatitis B Negative (n=98)

p-value

Demographic data

Sex

Female

1 (50.0%)

38 (38.8%)

0.747

Male

1 (50.0%)

60 (61.2%)

 

Age (years)

32.00±7.07

39.35±12.04

0.393

Clinical

Duration of Hemodialysis (years)

10.00±2.83

5.26±2.87

0.024

Cause of hemodyalisis

DM

1 (50.0%)

25 (25.5%)

0.924

HTN

1 (50.0%)

51 (52.0%)

 

NSAIDs abuse

0 (0.0%)

4 (4.1%)

Polycystic kidney disease

0 (0.0%)

3 (3.1%)

Unknown

0 (0.0%)

15 (15.3%)

HCV RNA PCR

3197921±2074580

443244±717196

<0.001

Laboratory data

Creatinine

9.00±4.38

9.54±2.48

0.765

BUN

63.00±8.49

56.52±15.11

0.548

Ca

7.45±0.21

8.62±1.20

0.173

Po4

4.60±2.26

4.59±1.72

0.539

AST

29.50±14.85

25.05±8.26

0.458

ALT

52.50±3.54

24.33±9.18

<0.001

Albumin

2.35±0.21

3.00±0.59

0.126

Hemoglobin

8.45±0.07

10.16±1.61

0.138

WBCs

6.45±1.20

7.12±2.49

0.707

Platelets

228.00±0.00

190.87±71.81

0.469

 

 

DISCUSSION

     HBV infection is a major health concern due to its widespread prevalence, with 350,000 million infected individuals, worldwide (Raimondo et al., 2019). Anti-HBc constitutes the first antibody response to HBV infection, and its detection in the serum may denote acute or chronic infection. Patients remain anti-HBc-positive after recovery, and this antibody therefore serves as the only serologic marker for HBV during the window period of infection. As a result, this marker is considered one of the most valuable serological markers for the diagnosis of OBI (Urbani et al., 2010; Ocana et al., 2011 and Kang et al., 2014). The detection of HBV DNA is considered the most definitive diagnostic tool for the detection of occult hepatitis infection. In our study, we used nested PCR because this method is simple and accurate, easy to interpret, can detect even very low amounts of viral DNA and has been previously applied on a wide scale for the detection, genotyping and phylogenetic analysis of HBV (Albuquerque et al., 2012; Sun et al., 2012 and Panigrahi et al., 2013).

     In our research, the occurrence rate of occult HBV infection in hemodialysis patients infected with HCV was specified. The HBcIgG was found in 8% of those patients and solely 2% of them were HBV PCR positive.

     Our analysis demonstrated that occult hepatitis B Viral infection was uncommon in hemodialysis patients infected with HCV regardless of age, sex. However, the amino-transferases levels and the period of dialysis might play a significant role in increasing occult hepatitis B Viral infection.

     In an exceedingly survey in central Greece, the occurrence rate of occult HBV reported to be 0.9% (Mina et al., 2010). Study of Motta et al., (2010), on HBs Ag -ve HD patients stated that the occurrence of HBV-DNA was in 15% of the group tested.

     In alternative studies, the occurrence rate of occult HBV reported to be in Spain 58%, Canada 3.8%, Italia 0%, Turkey 0%, Egypt 4.1% (Abu El Makarem et al., 2012) and in Brazil was reported to be 1.5% (Albuquerque et al.,2012).

     The higher occurrence rate of segregated anti-HBc is found in endemic communities such as South-East Asia, Greece and lastly, sub-Saharan Africa. HBV-DNA is found in 10% of subjects with anti-HBc alone, with a range between 0% and 22.8%, relying on the geographic region and population elite (Pondé et al., 2010).

     Findings of our study are similar to some previous reports, and are also dissimilar to some previous reports. These contradictions within the rate of occult HBV infection in HD patients may mirror the varied occurrence rate of hepatitis B Viral infection in several communities, whereas Iran is reported as having low endemicity for HBV infection, and most of studies with similar results were present in states with low endemicity of hepatitis B Viral infection and most of the high rates of occult hepatitis B Viral infection were shown in countries with high or intermediate endemicity of HBV infection.

     Other possible explanations of those discrepancies within the rate of occult hepatitis B Viral infection in HD patients embrace sensibility of biology techniques, size and virological features of the patient groups and therefore the clinical specimens and samples choice criteria for the HBV- DNA tests.

     In our study, the patients were elite for HBV-DNA assay if they had the positive anti-HBc result, and HBV DNA wasn't checked for anti- HBc negative patients, this may be mention as the main limitation of this study.

CONCLUSION

     OBI was more prevalent among chronic HCV patients than HD patients, with 8 positive HBcIgG cases of 100 patients, 2 cases out of 8 positive HBcIgG were tested positive for HBV DNA. However, more precise assessment of this infection requires regular patient follow-up using HBV DNA detection methods.

REFERENCES

  1. Abu El Makarem MA, Abdel Hamid M, Abdel Aleem A, Ali A, Shatat M and Sayed D (2012): Prevalence of occult hepatitis B virus infection in hemodialysis patients from egypt with or without hepatitis C virus infection. Hepat Mon., 12:253–8.
  2. Aghakhani A, Banifazl M, Kalantar E, Eslamifar A, Ahmadi F and Razeghi E (2010): Occult hepatitis B virus infection in hemodialysis patients with isolated hepatitis B core antibody: a multicenter study. TherApher Dial., 14(3):349–53.
  3. Albuquerque AC, Coelho MR, Lemos MF and Moreira RC (2012): Occult hepatitis B virus infection in hemodialysis patients in Recife, State of Pernambuco, Brazil. Rev Soc Bras Med Trop., 45: 558-562.
  4. Amer FA, Gohar M and Yousef M (2015): Epidemiology of hepatitis C virus infection in Egypt. Int J Trop Dis Health., 7(7):119–31.
  5. Belperio PS, Shahoumian TA, Mole LA and Backus LI (2017): Evaluation of hepatitis B reactivation among 62,920 veterans treated with oral hepatitis C anti-virals. Hepatology, 66: 27-36.
  6. Datta S, Chatterjee S, Veer V andChakravarty R (2012): Molecular biology of the hepatitis Bvirus for clinicians. J. Clin. Exp. Hepatol., 2(4):353-65.
  7. Inoue T, Tanaka Y (2016): Hepatitis B virus and its sexually transmitted infection-an update. Microbial Cell., 3(9):420-45.
  8. Kang SY, Kim MH and Lee WI (2014): Occult hepatitis B virus infection in Korean patients with isolated anti-HBc. Arch Virol., 159:227-233.
  9. Kwak M-S and Kim YJ (2014): Occult hepatitis B virus infection. World J.Hepatol., 6 (12):860-476.

10. Mina P, Georgiadou SP, Rizos C, Dalekos GN andRigopoulou EI (2010): Prevalence of occult hepatitis B virus infection in haemodialysis patients from central Greece. World J. Gastroenterol., 16:225–31.

11. Motta JS, Mello FC, Lago BV, Perez RM, Gomes SA and Figueiredo FF (2010): Occult hepatitis B virus infection and lamivudine-resistant mutations in isolates from renal patients undergoing hemodialysis. J. Gastroenterol Hepatol., 25:101–6.

12. Ocana S, Casas ML, Buhigas I and Lledo JL (2011): Diagnostic strategy for occult hepatitis B virus infection. World J.Gastroenterol., 17: 1553-1557.

13. Panigrahi R, Biswas A, De BK, Chakrabarti S and Chakravarty R (2013): Characterization of antiviral resistance mutations among the Eastern Indian Hepatitis B virus infected population. Virol J., 10: 56-70.

14. Pondé RA, Cardoso DD and Ferro MO (2010): The underlying mechanisms for the ‘anti-HBc alone’ serological profile. Arch Virol., 155:149–58.

15. Raimondo G, Allain JP, Brunetto MR, Buendia MA, Chen DS and Colombo M (2019): Statements from the Taormina expert meeting on occult hepatitis B virus infection. Updated Journal of Hepatology., 71 : 397-408.

16. Raimondo G and Pollicino T (2016): Occult HBV infection. Hepatitis B virus in human diseases. Springer USA., 277-301.

17. Squadrito G, Spinella R andRaimondo G (2014): The clinical significance of occult HBV infection. Ann Gastroenterol., 27(1):15-4.

18. Sun S, Zhou H, Zhou B, Hu Z, Hou J and Sun J (2012): Sensitivity and specificity of nested PCR pyro sequencing in hepatitis B virus drug resistance gene testing. Nan Fang Yi Ke Da Xue Xue Bao., 32: 610-613.

19. Urbani S, Fagnoni F, Missale G and Franchini M (2010): The role of anti-core antibody response in the detection of occult hepatitis B virus infection. Clin Chem Lab Med., 48: 23-29.

 

فيروس بي الخفي في مرضي الغسيل الکلوي المصابين بفيروس سي

عبدالعزيز ممدوح محمد عبدالعزيز محمد بربش

قسم الباطنة العامة، کلية الطب، جامعة الازهر

E-mail: abdelaziz.berbesh@yahoo.com

خلفية البحث: تعرف عدوى الالتهاب الکبدى الوبائي بى الخفية بوجود مستوى منخفض من الحمض النووي DNA للفيروس الکبدى بى بمصل الدم (أقل من 200 وحدة دولية/ ملليلتر)، والخلايا الليمفاوية المناعية و/ أو وجود النسيج الکبدى لدى المرضى الذين يتميزون بوجود الدلالات المصلية لعدوى سابقة (وجود anti- HBc و/أو anti- Hbs) وعدم وجود المستضد السطحى للالتهاب الکبدى الوبائي بى بمصل الدم.

الهدف من البحث: تقييم ورصد معدلات انتشار عدوى الالتهاب الکبدى بى الخفية بين مرضى الغسيل الکلوى المصابين بالالتهاب الکبدى الوبائي سى.

المرضى وطرق البحث: أجريت هذه الدراسة على مائة مريض يعانون من الفشل الکلوى ويخضعون للغسيل الکلوى المنتظم والمصابين بالفيروس الکبدى الوبائي سى بوحدة الغسيل الکلوى التابعة لقسم الکلى بمستشفى معهد ناصر بجمهورية مصر العربية فى الفترة من يوليو حتى يناير 2018.

         بلغت نسبة الإناث المشارکات فى الدراسة ٩٣%، ونسبة الذکور 16%، وتراوحت أعمارهم ما بين 18: 60عاما بمتوسط عمر39.20 بزيادة أو نقص 11.98 عام. بينما تم إجراء اختبار الکشف عن الحمض النووى للفيروس الکبدى الوبائي بى باستخدام تقنية تفاعل البلمرة التسلسلى للحالات التى يکون اختبارAnti-HBc antibodyإيجابيا فقط.

نتائج البحث: کانت نسبة 8% من الحالات المشارکة فى الدراسة إيجابية لعدوى الالتهاب الکبدى بى الخفية، ونسبة ٢٩% من الحالات سلبية للعدوى من خلال اختبار HBcIgG، کما بلغت نسبة الإصابة بالعدوى بالفيروس الکبدى الوبائي بي ٢% فقط عن طريق تفاعل البلمرة التسلسلي للحمض النووى للفيروس.

الاستنتاج: خلصت الدراسة إلى ارتفاع معدل انتشار عدوى الالتهاب الکبدى بى الخفية بين المرضى المصابين بالالتهاب الکبدى الفيروسي سى الذين يخضعون للغسيل الکلوى عن أولئک الذين يخضعون للغسيل الکلوى غير المصابين بالالتهاب الکبدى الفيروسي سى بوحدة الغسيل الکلوى التابعة لقسم الکلى بمستشفى معهد ناصر التعليمية بمصر بمعدلات ٦%، ٢% على التوالى. لکن نحن فى حاجة إلى تبنى برامج تقييم أکثر دقة لرصد تلک العدوى، والذى يتطلب متابعة منتظمة للمرضى من خلال إجراء طرق الکشف الحديثة عن الحمض النووى DNA للفيروس الکبدى الوبائي بى.

الکلمات الدالة : فيروس بى الخفى – الغسيل الکلوى .

  1. REFERENCES

    1. Abu El Makarem MA, Abdel Hamid M, Abdel Aleem A, Ali A, Shatat M and Sayed D (2012): Prevalence of occult hepatitis B virus infection in hemodialysis patients from egypt with or without hepatitis C virus infection. Hepat Mon., 12:253–8.
    2. Aghakhani A, Banifazl M, Kalantar E, Eslamifar A, Ahmadi F and Razeghi E (2010): Occult hepatitis B virus infection in hemodialysis patients with isolated hepatitis B core antibody: a multicenter study. TherApher Dial., 14(3):349–53.
    3. Albuquerque AC, Coelho MR, Lemos MF and Moreira RC (2012): Occult hepatitis B virus infection in hemodialysis patients in Recife, State of Pernambuco, Brazil. Rev Soc Bras Med Trop., 45: 558-562.
    4. Amer FA, Gohar M and Yousef M (2015): Epidemiology of hepatitis C virus infection in Egypt. Int J Trop Dis Health., 7(7):119–31.
    5. Belperio PS, Shahoumian TA, Mole LA and Backus LI (2017): Evaluation of hepatitis B reactivation among 62,920 veterans treated with oral hepatitis C anti-virals. Hepatology, 66: 27-36.
    6. Datta S, Chatterjee S, Veer V andChakravarty R (2012): Molecular biology of the hepatitis Bvirus for clinicians. J. Clin. Exp. Hepatol., 2(4):353-65.
    7. Inoue T, Tanaka Y (2016): Hepatitis B virus and its sexually transmitted infection-an update. Microbial Cell., 3(9):420-45.
    8. Kang SY, Kim MH and Lee WI (2014): Occult hepatitis B virus infection in Korean patients with isolated anti-HBc. Arch Virol., 159:227-233.
    9. Kwak M-S and Kim YJ (2014): Occult hepatitis B virus infection. World J.Hepatol., 6 (12):860-476.

    10. Mina P, Georgiadou SP, Rizos C, Dalekos GN andRigopoulou EI (2010): Prevalence of occult hepatitis B virus infection in haemodialysis patients from central Greece. World J. Gastroenterol., 16:225–31.

    11. Motta JS, Mello FC, Lago BV, Perez RM, Gomes SA and Figueiredo FF (2010): Occult hepatitis B virus infection and lamivudine-resistant mutations in isolates from renal patients undergoing hemodialysis. J. Gastroenterol Hepatol., 25:101–6.

    12. Ocana S, Casas ML, Buhigas I and Lledo JL (2011): Diagnostic strategy for occult hepatitis B virus infection. World J.Gastroenterol., 17: 1553-1557.

    13. Panigrahi R, Biswas A, De BK, Chakrabarti S and Chakravarty R (2013): Characterization of antiviral resistance mutations among the Eastern Indian Hepatitis B virus infected population. Virol J., 10: 56-70.

    14. Pondé RA, Cardoso DD and Ferro MO (2010): The underlying mechanisms for the ‘anti-HBc alone’ serological profile. Arch Virol., 155:149–58.

    15. Raimondo G, Allain JP, Brunetto MR, Buendia MA, Chen DS and Colombo M (2019): Statements from the Taormina expert meeting on occult hepatitis B virus infection. Updated Journal of Hepatology., 71 : 397-408.

    16. Raimondo G and Pollicino T (2016): Occult HBV infection. Hepatitis B virus in human diseases. Springer USA., 277-301.

    17. Squadrito G, Spinella R andRaimondo G (2014): The clinical significance of occult HBV infection. Ann Gastroenterol., 27(1):15-4.

    18. Sun S, Zhou H, Zhou B, Hu Z, Hou J and Sun J (2012): Sensitivity and specificity of nested PCR pyro sequencing in hepatitis B virus drug resistance gene testing. Nan Fang Yi Ke Da Xue Xue Bao., 32: 610-613.

    19. Urbani S, Fagnoni F, Missale G and Franchini M (2010): The role of anti-core antibody response in the detection of occult hepatitis B virus infection. Clin Chem Lab Med., 48: 23-29.