|Year : 2017 | Volume
| Issue : 2 | Page : 110-115
Hepatitis B and C viral infections in Tihamet Aseer, south-western Saudi Arabia: Are there gender differences?
Suliman M Al-Humayed
Department of Internal Medicine, College of Medicine, King Khalid University, Abha, Saudi Arabia
|Date of Web Publication||20-Apr-2017|
Suliman M Al-Humayed
Department of Internal Medicine, College of Medicine, King Khalid University, P.O. Box 641, Abha 61421
Background: Hepatitis B virus (HBV) infection is endemic in Saudi Arabia. Many studies have shown varying results in gender differences in HBV and hepatitis C virus (HCV) infection. The objective of this study was to determine if gender differences exist in HBV and HCV infection and to elucidate any related risk factors in Tihamet Aseer, south-western Saudi Arabia.
Materials and Methods: The study was a cross-sectional study of a representative sample of males and females in Tihamet Aseer, south-western Saudi Arabia. A comprehensive questionnaire was completed by all participants. Blood samples were taken and sera were tested for hepatitis B surface antigen and HCV antibodies by fourth-generation enzyme immunoassays.
Results: The study included 1532 participants from the Tihamet Aseer area. An overall seroprevalence of 7.9% and 1.7% was found for HBV and HCV infections, respectively. In logistic regression analysis, no gender differences were found for HBV seroprevalence. Identified risk factors for HBV infection included a history of blood transfusion and lack of hepatitis B vaccination. On the other hand, females were more prone to become seropositive for HCV (adjusted odds ratio = 5.034, 95% confidence interval: 1.042–9.321). Other identified risk factors for HCV infection were illiteracy and a history of blood transfusion.
Conclusion: The prevalence and HBV and HCV infection is high compared to the national figures. Gender differences were only observed in HCV infection. It is recommended to have an active educational and media campaign. A “catch-up” vaccination program against HBV should be introduced for adults as a strategy to achieve the herd immunity effect in the affected area.
تهدف هذه الدراسة المقطعية إلى معرفة إن كان هناك اختلافات بين الجنسين في الإصابة بالتهاب الكبد الوبائي ب و ج والتعرف على عوامل الخطورة ذات العلاقة في تهامة عسير بالمملكة العربية السعودية. تم اخذ عينات دم من المشاركين واختبارها للأجسام المضادة لالتهاب الكبد ب وج الوبائي. خلصت الدراسة إلى وجود معدل عال للإصابة بالتهاب الكبد الوبائي ب و ج مقارنة بالمعدلات الوطنية، كما بينت فروقات بين الجنسين في التهاب الكبد الوبائي ج. يوصي الباحثون بالاستمرار في حملات التوعية الخاصة بهذه الأمــــــــراض. وكذلك بتصميم وتفعيل برنامج لتطعيم البالغين ضد التهاب فيروس الكبد ب.
Keywords: Gender, hepatitis B virus, hepatitis C virus, Tihamet Aseer
|How to cite this article:|
Al-Humayed SM. Hepatitis B and C viral infections in Tihamet Aseer, south-western Saudi Arabia: Are there gender differences?. Saudi J Med Med Sci 2017;5:110-5
|How to cite this URL:|
Al-Humayed SM. Hepatitis B and C viral infections in Tihamet Aseer, south-western Saudi Arabia: Are there gender differences?. Saudi J Med Med Sci [serial online] 2017 [cited 2017 Nov 22];5:110-5. Available from: http://www.sjmms.net/text.asp?2017/5/2/110/204853
| Introduction|| |
Hepatitis B virus (HBV) is endemic in Saudi Arabia, and studies have shown that the highest rate of infection is in the southern region. In the last two decades, studies have addressed various aspects of HBV infection in Saudi Arabia, such as its prevalence in the general population, age groups infected, blood donors, health-care workers, pregnant women, virus genotypes and its relation to hepatocellular carcinoma (HCC).,,,,,,,,,,
One year before the addition of the HBV vaccine to the expanded program of immunization in 1990, the prevalence of HBV infection among children was approximately 7%. A steady decline of infection among children was subsequently observed. A recent survey conducted in regions of different HBV endemicity in Saudi Arabia documented a zero prevalence of hepatitis B surface antigen (HBsAg) among students (16–18 years of age). In 2013, the Saudi Ministry of Health reported an incidence rate of 16.29 and 5.45/100,000 for HBV and hepatitis C virus (HCV) infections, respectively, in the Aseer region. Despite limitations in studies from various regions of the Kingdom, in 2009, Madani reported a mean rate of 124 HCV cases per 100,000 population and observed a slight steady increase during the period 1995–2005, followed by a plateau.
The objective of this study was to determine whether gender influences the rate of HBV and HCV infection and to elucidate any related risk factors in Tihamet Aseer, south-western Saudi Arabia.
| Materials and Methods|| |
This was a cross-sectional study carried out on a representative sample of males and females in Tihamet Aseer, south-western Saudi Arabia. The Aseer region is located in the southwest of Saudi Arabia covering an area of more than 80,000 km 2. The region is located to the northeast of Jizan. Tihamah refers to the Red Sea coastal plain of Saudi Arabia from the Gulf of Aqaba to the Bab el Mandeb Strait. The region is sometimes subdivided into two parts: Tihamet Al-Hejaz (northern part) and Tihamet Aseer (southern part). The temperatures in Tihamah are probably some of the hottest on Earth. The present study included Tihamah areas in Al Farsha of Sarat Ebeida and Al-Majarda areas of the Aseer region, where the climate is hot and humid most of the year, and the majority of the inhabitants are farmers who raise domestic animals for a livelihood.
Using the WHO manual for Sample Size Determination in Health Studies with a conservative anticipated population proportion of 4% and with an absolute precision of 1% at 95% confidence interval (CI), the minimal sample size required for the study was calculated to be 1476 cases., To meet the inclusion target, it was planned to include a total of 1500 participants in the study. In 2014, 1500 patients and their relatives attending the outpatients' clinics of hospitals and relevant primary health-care centers in the selected study areas for any reason (attending clinics, laboratory investigation, blood donation and premarital screening) were included in the study group.
A comprehensive questionnaire was given to all participants. The questionnaire included socio-demographic data and a history of relevant exposures, blood transfusions, surgical operations, tooth extraction, wet cupping and hepatitis B vaccination.
The study was reviewed and approved by the ethical committee of King Khalid University, which is located in the Asir Province in south-western Saudi Arabia. Written informed consent was obtained from each participant or, in the case of children, their guardian.
Approximately 5–10 ml venous blood sample was extracted in plain tubes and allowed to clot at room temperature (range 18°C–20°C). Sera were aliquoted and stored at −20°C until transportation in ice boxes to the Virus Lab of Abha College of Medicine, King Khalid University. HBsAg was tested by a fourth-generation enzyme immunoassay (ELISA) obtained from DIA.PRO Diagnostic Bioprobes (Sr1 Via G. Carducci, Milano, Italy). The manufacturer's protocols were strictly followed in testing and interpreting the results.
The laboratory diagnosis of HCV infection was performed utilizing fourth-generation ELISA. Kits were obtained from DIA.PRO Diagnostic Bioprobes. The assay detects IgG class antibodies against the viral structural protein c-22-3 derived from the genomic core region and three nonstructural proteins c-33c, c100-3 and 5-1-1 derived from the NS3 and NS4 regions of the viral genome. The manufacturer's protocols were strictly followed in testing and interpreting the results. All positive and equivocal HCV serology results were further confirmed by reverse transcription-polymerase chain reaction.
Data were coded, validated and analyzed using the Statistical Package for the Social Sciences (SPSS) version 13.0 (SPSS Inc., Chicago, IL, USA). The frequency, percentage, arithmetic mean and mode are used to present the data. Chi-square test and Fisher's exact tests were used as tests of significance at a 5% level of significance. Binary logistic multivariate analysis, adjusted odds ratio (aOR) and antecedent 95% CIs were used to identify potential risk factors for HBsAg and HCV seropositivity.
| Results|| |
The present study included 1,532 participants from the Tihamet Aseer area, south-western Saudi Arabia. Their age ranged from 5 to 81 years with an average of 34.6 ± 11.4 years and a median of 31 years. There were 876 males (57.2%) and 656 females (42.8%) and the majority of the participants were married (1,240, 81%).
[Table 1] shows that 14.1% (122) of males were aged <20 years compared to 17.3% of females (112). The illiteracy rate among females was higher (37.8%, 248) compared to males (22.7%, 198), which was statistically significant (χ2 = 42.006, P = 0.001). History of wet cupping among males (5.3%, 46) was higher than that of females (2.6%, 17), which was also statistically significant (χ2 = 6.729, P = 0.009) compared with females (6.4%, 42). On the other hand, females had a significantly higher rate of hepatitis B vaccination and a history of yellow eyes in adulthood (30.8% and 12.5%, respectively) compared with males (24.5% and 8.3%, respectively).
|Table 1: Distribution of the study sample of males and females in Tihamet Aseer, south-western Saudi Arabia by demographic data and relevant exposures|
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[Figure 1] shows that 69 males were positive for HBsAg, giving a seroprevalence of 7.9%. Among females, 40 were positive for HBsAg, giving a seroprevalence of 6.1%. The gender difference was not statistically significant (χ2 = 1.797, P = 0.181). [Figure 1] shows that two males were found to be positive for hepatitis C giving a prevalence of 0.2%. Among females, 11 cases were positive, giving a seroprevalence rate of 1.7%. The gender difference was statistically significant (Fisher's exact 2 tailed P = 0.003).
|Figure 1: Seroprevalence of Hepatitis B (hepatitis B surface antigen) and C Viral Infections among the study sample of males and females in Tihamet Aseer, south-western Saudi Arabia|
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Multivariate binary logistic regression analysis was used to identify potential risk factors associated with HBsAg seropositivity [Table 2]. After adjusting for other potential risk factors, the study showed that participants with a history of blood transfusion had more than two times the risk of becoming seropositive for HBsAg (aOR = 2.75, 95% CI: 1.379–5.482). Similarly, persons lacking a history of hepatitis B vaccination had more than three times the risk of becoming seropositive for HBsAg (aOR = 3.922, 95% CI: 1.889-8.196). On the other hand, gender, age, education and history of other exposures were found to be of no significance in developing seropositive HBsAg.
|Table 2: Multivariate analysis, adjusted odds ratio and antecedent 95% confidence intervals of potential risk factors determining seropositive HBsAg in Tihamet Aseer, south-western Saudi Arabia|
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[Table 3] shows that after adjusting for other potential risk factors, females had more than five times the risk of becoming seropositive for HCV (aOR = 5.034, 95% CI: 1.042–9.321). Similarly, illiterate persons had more than four times the risk of becoming seropositive for HCV (aOR = 4.973, 95% CI: 1.256–10.411). The study showed that participants with a history of blood transfusion had more than 11 times the risk of becoming seropositive for HCV. On the other hand, age and history of other exposures were found to be of no significance in developing seropositive HCV.
|Table 3: Multivariate analysis, adjusted odds ratio and antecedent 95% confidence intervals of potential risk factors determining hepatitis C virus infection in Tihamet Aseer, south-western Saudi Arabia|
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| Discussion|| |
HBV is the causative agent of one of the world's major infectious diseases, with approximately 350 million people being chronic carriers of the virus. It is the tenth leading cause of death worldwide. The prevalence of HBV and its modes of transmission vary geographically, and it can be classified into three endemic patterns: high, moderate and low. Certain types of practices increase the risk of contracting HBV, including the use of contaminated needles, lifestyle choices and blood transfusion.
Hepatitis C is one of the major causes of chronic liver diseases. Cirrhosis and HCC in HCV-infected individuals are of particular concern. The burden of HCV for the patient, society and health-care systems is substantial. Approximately, 150 million people worldwide suffer from chronic HCV infection.
Regarding gender differences, studies in HBV infection have shown varying results. Kussak et al. did not report any gender differences in HBV infection in Lebanon, whereas Yang et al. did report a significant gender difference in China., In contradistinction to HBV infection, gender differences in HCV infection have been observed in prevalence rates and in virus clearance., In a large population-based cross-sectional study in Egypt, Butterfield et al. found that HCV clearance was significantly higher among women than men.
The present study investigated gender differences in HBV and HCV infections conducted in Tihamet Aseer, a deprived area in south-western Saudi Arabia. The Aseer region is considered to have one of the highest rates of HBV and HCV infections in Saudi Arabia. Furthermore, the study also cast light on some risk factors that were associated with these infections.
The study documented gender background differences regarding the level of education, history of wet cupping and lack of HBV vaccination. Males performed more wet cupping and had a lower rate of vaccination than females, and thus were more susceptible to acquiring HBV infection. Antenatal care, at least in part, might have been the reason for this disparity because HBV vaccination is offered in the Kingdom to those who were found to be seronegative. Women are informed that if they become infected, their babies might acquire the infection during delivery.
Multivariate analysis in the present study failed to identify a gender difference associated with HBsAg seropositivity. However, other studies have reported a gender difference in some aspects of HBV infection, such as virus clearance, the development of cirrhosis and HCC, where males significantly prevailed. The explanation given was related to the influence of estrogen in the protection and defense of hepatic cells against the development of chronic liver disease. Other molecular mechanisms have also been suggested. Gender disparity related to HBV infection with male prevalence has also been observed in the Arab world, China and Iran.,,
On the other hand, multivariate analysis in the present study has shown that patients who had no history of hepatitis B vaccination and those with a history of blood transfusion were significantly more susceptible to acquiring HBV infection.
Hepatitis B vaccination is the most effective measure to prevent HBV infection and its consequences. HBV vaccines have long-term and stable efficacy. Widespread immunization programs against HBV have been implemented in more than 100 nations and have dramatically reduced the occurrence of chronic HBV infection.
Blood and blood products used to be a major cause of the spread of HCV infection in Arab countries. The major route for HCV infection was through blood transfusions due to the absence of adequate screening procedures. In addition, due to the regions' customs, when a patient's relatives and friends donate blood for the patient, the donor may be reticent about disclosing high-risk behaviors, such as lifestyle and drug use.
Concerning gender differences in HCV infection, the present study has shown that females had more than five times the risk to become seropositive for HCV infection. The multivariate analysis has also documented that being a female, illiterate and having had a history of blood transfusion were significant risk factors for acquiring HCV infection. The observed gender difference can be attributed to higher exposures of females to blood transfusion.
| Conclusion|| |
The study documented an intermediate endemicity of HBV infection and revealed the prevalent figure of HCV in the area. Gender differences were only found in HCV infection.
Based on the findings of this study, it is recommended to have an active educational and media campaign about the risks of HBV and HCV infections, routes of transmission and methods of protection. It is also recommended that a “catch-up” vaccination program against HBV should be implemented for adults as a strategy to achieve the herd immunity effect which will enhance the control of infection and transmission. Furthermore, increasing vaccination of high-risk groups, screening for HBV infection during pregnancy and intensifying surveillance of hepatitis B infected individuals will further decrease the prevalence of the disease in the affected area.
This work was funded by Roche, Saudi Arabia. The author wishes to extend his thanks and appreciation for King Khalid University Dean of Scientific Research, Dr Eid Al-Otaiby, for his support during this study. Votes of thanks go to the Directors of Hospitals in the Aseer Region. The meticulous and the skillful technical and administrative assistance of Riyadh Eisa and Osama Al Kadoumy of King Khalid University are highly appreciated. The technical and meticulous advice and revisions of Dr. Awad El Mekki, Professor of Clinical Virology and Dr. Ahmed Mahfouz, Professor of Epidemiology are highly valued.
Financial support and sponsorship
This work was funded by Roche, Saudi Arabia.
Conflicts of interest
There are no conflicts of interest.
| References|| |
Al-Faleh FZ. Changing pattern of hepatitis viral infection in Saudi Arabia in the last two decades. Ann Saudi Med 2003;23:367-71.
Al-Faleh FZ. HBV infection in Saudi Arabia. Ann Saudi Med 1988;8:474-80.
Al-Faleh FZ, Ayoola EA, Arif M, Ramia S, Al-Rashed R, Al-Jeffry M, et al.
Seroepidemiology of hepatitis B virus infection in Saudi Arabian children: A baseline survey for mass vaccination against hepatitis B. J Infect 1992;24:197-206.
Al-Faleh FZ, Ayoola EA, Al-Jeffry M, Arif M, Al-Rashed RS, Ramia S. Integration of hepatitis B vaccine into the expanded program on immunization: The Saudi Arabian experience. Ann Saudi Med 1993;13:231-6.
Al-Faleh FZ, Al-Jeffri M, Ramia S, Al-Rashed R, Arif M, Rezeig M, et al.
Seroepidemiology of hepatitis B virus infection in Saudi children 8 years after a mass hepatitis B vaccination programme. J Infect 1999;38:167-70.
Shatoor AS, Zafer MH. Hepatitis B virus markers in male blood donors. Bahrain Med Bull 2002;24:1-17.
El-Hazmi MM. Prevalence of HBV, HCV, HIV-1, 2 and HTLV-I/II infections among blood donors in a teaching hospital in the central region of Saudi Arabia. Saudi Med J 2004;25:26-33.
Almuneef MA, Memish ZA, Balkhy HH, Otaibi B, Helmi M. Seroprevalence survey of varicella, measles, rubella, and hepatitis A and B viruses in a multinational healthcare workforce in Saudi Arabia. Infect Control Hosp Epidemiol 2006;27:1178-83.
Alrowaily MA, Abolfotouh MA, Ferwanah MS. Hepatitis B virus sero-prevalence among pregnant females in Saudi Arabia. Saudi J Gastroenterol 2008;14:70-2.
] [Full text]
Ayoola EA, Gadour MO. Hepatocellular carcinoma in Saudi Arabia: Role of hepatitis B and C infection. J Gastroenterol Hepatol 2004;19:665-9.
Abdo AA, Al-Jarallah BM, Sanai FM, Hersi AS, Al-Swat K, Azzam NA, et al.
Hepatitis B genotypes: Relation to clinical outcome in patients with chronic hepatitis B in Saudi Arabia. World J Gastroenterol 2006;12:7019-24.
Ayoola AE, Tobaigy MS, Gadour MO, Ahmed BS, Hamza MK. The decline of HBV viral infection in South-Western Saudi Arabia. Saudi Med J 2003;24:991-5.
Al-Faleh F, Al-Shehri B, Al-Ansai B, Al-Jaeffri C, Almazrou Y, Shaffi A, et al
. Long-term protection of hepatitis B vaccine 18 years after vaccination. J Infect 2008;57:404-9.
The Saudi Ministry of Health. Health Statistic Year Book. Riyadh, Saudi Arabia: Ministry of Health; 2013.
Madani TA. Hepatitis C virus infections reported over 11 years of surveillance in Saudi Arabia. Trans R Soc Trop Med Hyg 2009;103:132-6.
Lwanga SK, Lemeshow S. Sample Size Determination in Health Studies. Geneva: World Health Organization; 1990.
Gasim GI. Hepatitis B virus in the Arab world: Where do we stand? Arab J Gastroenterol 2013;14:35-43.
World Health Organization. Prevention and control of viral hepatitis infection: Framework for global action. WHO/HSE/PED/HIP/GHP 2012.1. World Health Organization, 20 Avenue Appea 1211, Geneva 27, Switzerland, World Health Organization; 2011.
Kassak K, Mahfoud Z, Kreidieh K, Shamra S, Afifi R, Ramia S. Hepatitis B virus and hepatitis C virus infections among female sex workers and men who have sex with men in Lebanon: Prevalence, risk behaviour and immune status. Sex Health 2011;8:229-33.
Yang Y, Yan M, Yue M, Wang X, Zhang W, Li J, et al.
Prevalence of hepatitis B and knowledge about hepatitis B among migrant workers in Shandong province, China: A cross-sectional study. Iran Red Crescent Med J 2015;17:e26725.
Marascio N, Liberto M, Barreca G, Zicca E, Quirino A, Lamberti A, et al.
Update on epidemiology of HCV in Italy: Focus on the Calabria Region. BMC Infect Dis 2014;14 Suppl 5:S2.
Stroffolini T, Rapicetta M, Di Stefano R. Hepatitis C virus clearance and gender. Gut 2007;56:884.
Butterfield MI, Bosworth HB, Meador KG, Stechuchak KM, Essock SM, Osher FC, et al.
Gender differences in hepatitis C infection and risks among persons with severe mental illness. Psychiatr Serv 2003;54:848-53.
Baig S. Gender disparity in infections of hepatitis B virus. J Coll Physicians Surg Pak 2009;19:598-600.
Liu WC, Liu QY. Molecular mechanisms of gender disparity in hepatitis B virus-associated hepatocellular carcinoma. World J Gastroenterol 2014;20:6252-61.
Fang ZL, Harrison TJ, Yang JY, Chen QY, Wang XY, Mo JJ. Prevalence of hepatitis B virus infection in a highly endemic area of Southern China after catch-up immunization. J Med Virol 2012;84:878-84.
Keyvani H, Sohrabi M, Zamani F, Poustchi H, Ashrafi H, Saeedian F, et al.
A population based study on hepatitis B virus in Northern Iran, Amol. Hepat Mon 2014;14:e20540.
[Table 1], [Table 2], [Table 3]