|Year : 2011 | Volume
| Issue : 12 | Page : 548-551
Prevalence of HIV and anemia among pregnant women
Bankole Henry Oladeinde1, Richard Omoregie M Phil2, Mitsan Olley3, Joshua A Anunibe3
1 Department of Medical Microbiology, College of Health Sciences, Igbinedion University, Edo State, Nigeria
2 School of Medical Laboratory Sciences, University of Benin Teaching Hospital, Benin City, Edo State, Nigeria
3 Department of Pathology, Igbinedion University Teaching Hospital, Okada, Edo State, Nigeria
|Date of Web Publication||19-Dec-2011|
Richard Omoregie M Phil
School of Medical Laboratory Sciences, University of Benin Teaching Hospital, Benin City, Edo State
Source of Support: None, Conflict of Interest: None
Background: Human immunodeficiency virus (HIV) prevalence is high among rural dwellers and pregnant women. Aims: This study aims to determine the prevalence of HIV and anemia among pregnant women attending antenatal clinic in rural community of Okada, Edo State, Nigeria. Patients and Methods: Anticoagulated blood and sera samples were obtained from 480 women consisting of 292 pregnant and 188 non-pregnant women. Antibodies to HIV were detected in the sera samples and hemoglobin concentration of the anticoagulated blood specimens were determined using standard techniques. Anemia was defined as hemoglobin concentration <11g/dl for pregnant women and <12g/dl for non-pregnant women. Results: Pregnancy was not a risk factor for acquiring HIV infection (pregnant vs. non-pregnant: 10.2% vs. 13.8%; OR=0.713, 95% CI=0.407, 1.259, P = 0.247). The prevalence of HIV was significantly (P = 0.005 and P = 0.025) higher in the age group 10-20 years and 21 - 30 years among pregnant and non-pregnant women respectively. Pregnancy was a risk factor for acquiring anemia (OR=1.717, 95% CI=1.179, 2.500, P = 0.006). Only the age of pregnant women significantly (P = 0.004) affected the prevalence of anemia inversely. Conclusion: The prevalence of HIV and anemia among pregnant women were 10.2% and 49.3% respectively. Pregnancy was associated with anemia. Interventions by appropriate agencies are advocated to reduce associated sequelae.
Keywords: Pregnancy, HIV, anemia, rural community, Nigeria
|How to cite this article:|
Oladeinde BH, Phil RM, Olley M, Anunibe JA. Prevalence of HIV and anemia among pregnant women. North Am J Med Sci 2011;3:548-51
|How to cite this URL:|
Oladeinde BH, Phil RM, Olley M, Anunibe JA. Prevalence of HIV and anemia among pregnant women. North Am J Med Sci [serial online] 2011 [cited 2020 Aug 11];3:548-51. Available from: http://www.najms.org/text.asp?2011/3/12/548/90870
| Introduction|| |
The Human immunodeficiency virus (HIV) has emerged as a global health problem, with serious medical economic and social implications  . Sub-saharan Africa remains by far the most affected region, with 24.5 million people living with HIV, representing a little below two-thirds of all people living with HIV  . HIV epidemic affects females severely in the sub-region and women of reproductive age make up 57% of adults living with HIV  . The Center for Disease Control and Prevention reports that infection with HIV is increasing in rural communities in adolescent and young adults  . Reports have shown that HIV infection in Africa, is associated with urban-rural, and intra-rural human mobility , . More than two-thirds of people living with HIV in Africa's 25 most endemic countries for HIV are rural dwellers  .
HIV prevalence in pregnancy is high  . Infection among pregnant women poses particular risk to their families, offspring, and health workers at time of delivery  . HIV infection in pregnancy is associated with adverse maternal and foetal outcome  . The effect of which includes among others infectious morbidity, vertical transmission and severe anemia , . The role of HIV/AIDS in maternal mortality in sub-Saharan Africa is difficult to evaluate as the HIV status of pregnant women in the region are largely unknown  .
Anemia has been shown to be the most commonly encountered hematological abnormality in HIV positive patients with estimates climbing as high as 95% depending on clinical settings  . Anemia have a profound effect on the quality of life of people by inducing such symptoms as loss of stamina, rapid heart rate and shortness of breath  . It has also being identified as a risk factor for early death in patients with AIDS  . Ignorance, poverty and gender bias, significantly contribute to high prevalence of anemia  . Poverty, malnutrition, and low educational status are known to be driving forces for acquiring HIV infection  . These factors are rife in rural communities in Nigeria  . Access to information and health services is much poorer in rural settlements than cities and rural dwellers are less likely to be informed with protective measures and practices against HIV infection  . The current HIV/AIDS interventions by the Presidents Emergency Plan for AIDS Relief (PEPFAR) do not cover rural communities, particularly Okada. Consequently, pregnant women in our community are not candidates for prevention mother to child transmission (PMTCT) programs. This will ultimately increases the number of infants born with HIV. Against this background and the paucity of report on the prevalence of HIV and anemia among pregnant women in Okada (a rural settlement in Nigeria) this study was undertaken.
This study aims to determine the prevalence of HIV and anemia among pregnant and non-pregnant women in Okada community as well as the effect of age on their prevalence.
| Patients and Methods|| |
The study was conducted between September 2009 to August 2010, among pregnant women attending antenatal clinic at Igbinedion University Teaching Hospital, Okada, Edo State, Nigeria. Okada is a rural settlement and headquarter of Ovia North East Local Government area of Edo State, Nigeria. The residents are mainly farmers.
A total of 480 women consisting of 292 pregnant and 188 non-pregnant apparently healthy women were recruited for this study. The age range of study population ranged from 13 to 46 years. Non-pregnant women who were on their monthly menstrual periods were excluded from this study. Verbal informed consent was obtained from all participating subjects or their parents/guardian in case of children prior to specimen collection. The study was approved by the Ethical Committee of Igbinedion University Teaching Hospital, Okada, Edo State, Nigeria.
Collection and processing of specimen
Ten mL of blood was collected from each subject and 5 mL was dispensed into an ethylene diamine tetra-acetic acid (EDTA) container and the remaining 5 mL was placed in a plain container, and allowed to clot. The sera obtained was used for serological diagnosis of HIV using a previously described method  . Hemoglobin concentration was determined using an autoanalyser-Sysmex KX-21 (Sysmex Corporation, Kobe, Japan). Anemia was defined as hemoglobin concentration <11g/dl for pregnant women and <12g/dl for non-pregnant women , .
The data obtained were analyzed using Chi square (X 2 ) test and odd ratio analysis using the statistical software INSTAT; (GraphPad Software Inc., La Jolla, CA, USA).
| Results|| |
A total of 56 (11.7 %) out of the 480 women studied were infected with HIV. HIV prevalence among the pregnant women was 10.2 %.There was no significant difference in the seroprevalence between pregnant and non-pregnant women (P = 0.247). Age significantly affected the prevalence of HIV among pregnant (P = 0.005) and non-pregnant (P = 0.023) women, with the age group of 10-20 years having the highest prevalence among pregnant women, while the age group 21-20 years were the most infected among non-pregnant women [Table 1].
|Table 1: Effect of age and pregnancy status on prevalence of HIV in women in Okada Community|
Click here to view
A total of 212 (44.2%) out of 480 women had anemia, and pregnancy was a significant risk factor for acquiring anemia (OR= 1.717, 95% CI = 1.179, 2.500; P = 0.006). Age only significantly affected the prevalence of anemia among pregnant women with the prevalence of anemia decreasing with increasing age [Table 2].
|Table 2: Effect of age and pregnancy status on prevalence of anemia in women in Okada Community|
Click here to view
HIV status was a significant risk factor for acquiring anemia among pregnant women (OR=4.733, 95%CI= 1.873-11.968; P = 0.0004) and non pregnant women (OR= 5.04, 95% CI=2.055-12.363; P = 0.0003) [Table 3].
|Table 3: Effect of HIV on anemia in pregnant and non-pregnant women in Okada Community|
Click here to view
| Discussion|| |
Lack of data on prevalence of HIV among pregnant women in rural areas necessitated this study. This study aims to determine the prevalence of HIV and anemia among pregnant women of Okada - a rural community in Edo State, Nigeria.
The prevalence of HIV in this study was 11.7 %. In 2005, the HIV prevalence rate for women between the ages of 15-29 in Nigeria was 13.2 %  . Lack of HIV knowledge have been shown to promote high risk heterosexual behavior which results in high incidence of HIV among young people within the sub- Saharan Africa  and this may be the case in most rural settlements in Nigeria were data on HIV prevalence are scarce. HIV prevalence among pregnant women was 10.2 %. This is in contrast with the Nigerian national overall average prevalence of 4.6% reported among pregnant women in 2008  . Although pregnancy is characterized by general immunosuppresion, sustained by elevated level of serum cortisol, which allows foetal allograft retention and predisposing the woman to various diseases  pregnancy in this study was not a significant risk factor for acquiring HIV infection. This is consistent with a previous finding  .
The age group of 10-20 years accounted for the highest number of HIV infected pregnant women. This agrees with previous reports [25,26] . Data shows that very young women are more at risk of HIV infection as their immature cervix and scant vaginal secretions makes them prone to vaginal mucosal lacerations  . Teenage pregnancies are known to be associated with poverty and lack of good education  factors which have also been identified as driving forces for acquisition of HIV infection  . These same factors are rife in rural settings in Nigeria  and may increase the risk of teenage pregnant women being infected with HIV. Age was also significant in acquiring HIV in non-pregnant women, with the highest prevalence recorded within the age group of 20-30 years.
Anemia was associated with pregnancy in our study. This agrees with an earlier finding  . Pregnant women had a 1-3 fold increase of developing anemia than non-pregnant women. The pregnancy related decline in hemoglobin could be explained by haemodilution. Age was significantly associated with development of anemia only in pregnant women and those in the age group of 10-20years were mostly affected. Anemia is reported to be strongly associated with teenage pregnancy  . Teenage pregnancies are known to be associated with poverty and lack of good education  . Poverty which characterize most rural settings in Nigeria,  coupled with poor attendance of ante-natal clinic by pregnant women may also account for this observation. However, the reason for the inverse relationship between age and prevalence of anemia among pregnant women is unclear.
Irrespective of pregnancy status HIV infection was associated with anemia. Bone marrow suppression amongst other mechanisms has been reported as reason for anemia among HIV patients  . However, HIV infection in women is critical for children since children born to HIV positive mothers are at risk of being born HIV positive or contracting HIV after birth, unless adequate and appropriate interventions and are available.
| Conclusion|| |
The prevalence of HIV and anemia among pregnant women in Okada community is 10.2% and 49.3% respectively. Irrespective of pregnancy status, HIV infection was associated with anemia. Appropriate interventions by relevant agencies are advocated.
| References|| |
|1.||Chwee LC, Eke-Huber E, Starr E, John RE. Nigerian college students: HIV knowledge, perceived susceptibility for HIV and sexual behaviours. Coll Stud J 2005;39: 60-70. |
|2.||Uneka CJ, Duhlinska DD, Igbinedion EB. Prevalence and public health significance of HIV infection and anaemia among pregnant women attending ante-natal clinics in southern Nigeria. J Health Pop Nutr 2007; 25 (3): 328-335. |
|3.||Center for Disease Control and Prevention. Trends in HIV/AIDS diagnosis - 33 States.2001-2004. Morb Mortal Wkly Rep 2005; 54(45):1149-1153 |
|4.||Lurie MN, Williams BG, Zuma KD, et al. Who is infected? HIV I-concordance and discordance among migrant and non-migrant couples in South Africa. AIDS 2003;17: 2245-2252. |
|5.||Coffee MP, Garnett GP, Milito M, Veoten HA, Chandiwana S, Gregson S. Patterns of movement and risk of HIV infection in rural Zimbabwe. J Infect Dis 2005; 191(1): 159-167. |
|6.||FAO/IIEP/UNESCO/ADEA. Education for rural people in Africa: Policy lessons, options and priorities. Ethiopian FAO, 2005. |
|7.||Mclytyre J. Maternal health and HIV. Reprod Health Matters 2005; 13 (35): 129-135. |
|8.||Egesie UG, Mbooh RT. Sero-prevalence of human immunodeficiency virus (HIV) infection in pregnant women in Amassoma. Nigeria. Afr J Biomed Res 2008; 11:111-113. |
|9.||Mclytyre J. Mothers infected with HIV reducing maternal deaths and disability during pregnancy. Brit Med Bull 2003; 67 (1):127-135. |
|10.||Behets FI, Matendo R, Vas ME, et al. Preventing vertical transmission of HIV in Kinshasa, Democratic Republic of the Congo: a baseline survey of 18 ante-natal clinics. Bull WHO 2008; 24(12): 969-975. |
|11.||Ramezani A, Aghakhani A, Sharif MA, Banifazl M, Eslamifer A, Velayati AA. Anaemia prevalence and related factors in HIV-infected patients: A cohort study. Iranian J Pathol 2008; 3 (3): 125-128. |
|12.||Castro L, Goldani LZ. Iron, folate, and vitamin B12 parameters in HIV 1 infected patients with anaemia in Southern Brazil. Tropical Doctor 2009; 39: 83-85. |
|13.||Moyle G. Anaemia in persons with HIV infection: prognostic marker and contribution to morbidity. AIDS Rev 2002; 4 (1): 13-20. |
|14.||Jaleel R. Khan A. Severe anaemia and adverse pregnancy outcome. J Surg Pakistan Int 2008; 13 (4):143-150. |
|15.||Lerato ST. Poverty and HIV/AIDS in South Africa: an empirical contribution. J Soc Aspects HIV/AIDS 2006; 3:365-381. |
|16.||Imoh AN, Isaac UJ, Nwanchukwu EO. Comparative analysis of poverty status of community participation in rural development projection of Akwa-Ibom State, Nigeria. New York Science J 2009; 2 (6):68-75. |
|17.||Omoregie R, Efam MO, Ihongbe JC, Ogefere HO, Omokaro EU. Seroprevalence of HIV infection among psychiatric patients in Benin City, Nigeria. Neurosciences 2009; 14 (1):100-101. |
|18.||Dim CC. Onah HE. The prevalence of anaemia among pregnant women at booking in Enugu ,South Eastern Nigeria. Medscape Gen Med 2007; 9 (3): 11-13. |
|19.||Partel KV, Harris TB, Faulhaber M, et al. Racial variations in the relationship of anaemia with mortality and morbidity disability among older women. Blood 2007; 109 (11): 4663-4670. |
|20.||Lawoyin OO. Findings from an HIV/AIDS programme for young women in two Nigerian cities: a short report. Afr J Reprod Health 2007; 11(2):100-106. |
|21.||UNAIDS. Joint United Nations Programmes on HIV/AIDS Report on the global AIDS epidemic: a UNAIDS 10 th anniversary special edition. Geneva: UNAIDS, 2006. |
|22.||Federal Ministry of Health, Nigeria. Report on the 2008 National HIV seroprevalence sentinel survey among pregnant women attending antenatal clinics in Nigeria, 2009. |
|23.||Meeusen GN, Bischot RJ, Lee CS. Comparative T-cell response during pregnancy in large animals and humans. Am J Reprod Immunol 2001; 46: 169-179. |
|24.||Reid S, Dai J, Wang J, et al. Pregnancy, contraception use and HIV acquisition in HPTN 039: relevance for HIV prevention trials among African women. J Acqr Immunodefic Syndr 2010; 53 (5):606-613. |
|25.||Obi RK, Iroagba II, Ojaiko OA. Prevalence of human immunodeficiency virus (HIV) infection among pregnant women in an ante-natal clinic in Port-Harcourt, Nigeria. Afr J Biotechnol 2007; 6 (3) 263-266. |
|26.||Sagay AS, Kapiga SH, Imade G.E, Sankale JL, Idoko J, Kanki P. HIV infection among pregnant women in Nigeria. Int J Gyneocol Obstet 2005; 90: 61-67. |
|27.||WHO. HIV infected women and their families: psychosocial support and related issues. WHO, Geneva, 2003. |
|28.||Desirae MN. Karem HJ. Adolescent pregnancy in America: causes and responses. J Vo c Special Needs Edu 2007; 30 (1):1-12. |
|29.||Mbanefo EC, Umeh JM, Oguoma VM, Eneanya CI. Antenatal malaria parasitaemia and haemoglobin profile of pregnant mothers in Awka, Anambra State, Southeast Nigeria. American-Eurasian J Scienti Res 2009; 4 (4): 235-239. |
|30.||Banerjee B, Pandy GK, Dutt D, Sengupta B, Mondal M, Deb S. Teenage pregnancy: a socially inflicted health hazard Indian J Comm Med 2009; 34 (3): 227-231. |
|31.||Akinbo FO, Okaka CE, Omoregie R, Mordi R. Igbinumwen O. Prevalence of malaria and anaemia among HIV infected patients in Benin City. N Z J Med Lab Sci 2009; 63 : 78-80. |
[Table 1], [Table 2], [Table 3]
|This article has been cited by|
||The effects of malaria and HIV co-infection on hemoglobin levels among pregnant women in Sekondi-Takoradi, Ghana
| ||Orish, V.N. and Onyeabor, O.S. and Boampong, J.N. and Acquah, S. and Sanyaolu, A.O. and Iriemenam, N.C. |
| ||International Journal of Gynecology and Obstetrics. 2013; 120(3): 236-239 |
||Letter to the editor: Reply to ęPredictors of HIV and iron-de?ciency anaemia: A commentę
| ||Finkelstein, J.L. and Mehta, S. and Fawzi, W.W. |
| ||Public Health Nutrition. 2012; 15(7): 1327-1328 |
||HIV and anemia among pregnant
| ||Joob, B. and Wiwanitkit, V. |
| ||North American Journal of Medical Sciences. 2012; 4(2): 107 |