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Category: Volume 06 Issue 10 October 2018
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Title: Immunological Parameters in Breast Cancer Patients Attending University of Port Harcourt Teaching Hospital, Nigeria

Authors: Mieiwari I. Jumbo, Evelyn N. Eze, Zaccheaus A. Jeremiah

 DOI:  https://dx.doi.org/10.18535/jmscr/v6i10.17

Abstract

Breast cancer is the commonest site specific malignancy affecting mostly women and the most common cause of cancer mortality in women worldwide. Any kind of severe disease or abnormality (especially cancer) has a direct impact on the host’s immune cells, so it is necessary to investigate the changes in some immunological parameters of breast cancer subjects. This study aimed to assess the degree of derangements of some immunological parameters like CD4,CD8,CD4/CD8 ratio and percentages and a biomarker(anti-HER2 protein IgG) and provide mean +SEM values in breast cancer subjects. This was an observational cross-sectional study among histologically diagnosed breast cancer subjects attending surgery outpatients’ clinic and female surgery ward of University of Port Harcourt Teaching Hospital, Port Harcourt. A Questionnaire was designed to collect information, and data was analyzed using (SASR version 9.4).A total of 6.0mls of venous blood was collected from each study participant into EDTA bottles; out of which 3.0mls was used for full blood count, CD4, CD8, absolute counts done on the same day of sample collection. 3.0mls serum of the same blood was used for the analysis of anti-HER2 protein IgG using ELISA method for the determination of the HER2 Receptor status of study participants. A total of 80 subjects;41 histologically diagnosed, consenting breast cancer patients and 39 age- matched (20-70years) staff Medical Laboratory Scientists of the hospital as apparent controls were studied. Demographic characteristics of study participants showed the age group 31-40 had majority of breast cancer 14(17.5%). It was observed that the tribe most affected was the Igbos 33(41.3%). Majority of the study participants were not in their pre-menopausal stage 31(41.9%).  Many were not also on therapy 35(89.7%). Blood group distribution of the study participants showed ABO blood group O, 28(34.2%),and Rhesus D positive,36(43.9%).Chi-square did not reveal any association between blood group and breast cancer.(x2=4-67,p=0.192 and 2-71, p=0-236 respectively. The mean values of the immunological parameters of CD4 and CD8 in the breast cancer subjects were 715.51 ± 51.62 and 386.54 ± 27.50 respectively. These values were significantly lower when compared to 909.37 ± 61.08 and 559.39 ± 43.66 in the control (p=0.018,and p=0.001) respectively. The anti-HER2 protein IgG concentration in the breast cancer subjects was 10.82 ± 1.20 µ/L. This value was found to be significantly lower when compared to 15.69 ± 1.19µ/L in the control subjects (P=0.005). The mean CD4/CD8 % of 33.99 ± 2.65% / 20.94 ± 2.16% in the breast cancer subjects and that of control subjects 35.95 ± 2.16 / 22.46 ± 1.56 % was found not to be statistically significant (P= 0.569). Similarly, the mean CD4/CD8 ratio of 2.11 ± 0.19 in the breast cancer subjects was compared to that of control subjects 1.96 ± 0.15 and was also observed not to be statistically significant (P=0.538). This study revealed that there was evidence of immunological derangement in the breast cancer patients. The anti-HER protein IgG, which measures the status of human epidermal growth factor receptor 2 for breast cancer (one of the breast cancer signaling receptors) was surprisingly significantly elevated in normal controls than the breast cancer patients. Other causes of breast cancer other than HER2 positive status needs to be explored to determine the possible causes of breast cancer in this part of the globe.

Keywords: Immunological, Breast Cancer Patients, University of Port Harcourt Teaching Hospital, Nigeria.

References

  1. Kamangaret, F., Dores, G. M. & Anderson, W. F. (2008). Patterns of cancers incidence, mortality and prevalence across five continents: Defining priorities to reduce cancer disparities in different geographic regions of the world.  Journal of Clinical Oncology, 24, 2137 – 2150.
  2. Shrivastava,S., Singh, N., Akshay, K.N., Sanjay, S.C., Shrivastava, R. & Kumar, S. (2017). Comparative study of haemato-logical parameters along with effect of chemotherapy and radiotherapy in different stages of breast cancer. International Journal of Research in Medical Sciences, 5, 2320-6071.
  3. National Cancer Institute, (2015) Cancer facts and figures. https://doi.org/10.1016/j.ejca.2012.18.028
  4. Abdulkareem, F.(2009). Epidemiology and incidence of common cancers in Nigeria. Cancer Registry and Epidemiology, 8(2), 134 – 139.
  5. Huang, Y. (2015). CD4+ and CD8+ T-cells have opposing, roles in breast cancer progression and outcome.  Oncology Target, 6(19), 17462 – 17478.
  6. Isabelle, G., Itatem, A., Azim, J.R. & Ignatiadis, M. (2015). Immunology and breast cancer: toward a new way of understanding breast cancer and developing novel therapeutic strategies. Journal of Clinical Advances in Hematology and Oncology, 13(6), 23 - 29.
  7. Mittal, D., Gubbin, M.M., Schreiber,R,D&, Smyth, M.J.(2014). New insights into cancer immunoediting and its three component phases-elimination, equilibrium, and escape. Current Opinion of Immunology, 27, 16-25.
  8. Robinson-Bassey, G. & Festus, E. (2016). Knowledge and Attitude of Undergraduate Female Students towards breast cancer screening in the University of Port Harcourt, Rivers State. Journal of Nursing and Health. 3(5, 44-45.
  9. Araoye, M.O. (2004). Sample size determination. Research methodology with statistics for health and social sciences. 1st Ed. Ilorin: Nathadex Publishers.
  10. Jedy-Agba, E., Curado, M.P., Ogunbiyi, O., Oga, E. &Fabowale, T. (2012). Cancer incidence in Nigeria: a report from population- based cancer registries. Cancer Epidemiology,.36(5), 271-278.
  11. Khan, S. (2017). Study on some haematological parameters as biomarkers for breast cancer. Sindh University Research Journal (Science Series), 49 (1) 23-28.
  12. Onyema, O.O., Decoster, L., Njemini, R., Forti, L.N., Bautmans, I., De-Waele, M., and Mets, T. (2015). Chemotherapy – induced changes and Immunosenescence of CD8+ T-cells in patients with Breast Cancer. Anti-Cancer Research International Journal of Cancer Research and Treatment, 35(3), 1481-1489.
  13. Asgeirsson, K.S., Agrawal, A., Allen, C., Hitch, A., Ellis, I.O., Chapman Caroline, Cheung, K.L. & Robertson, J.F.R. (2007). Serum epidermal growth factor receptor and HER2 expression in primary and metastatic breast cancer patients.
  14. English, D. P., Rogue, D. M., Santin, A. D. (2013). HER2 expression beyond breast cancer: Therapeutic implications for gynaelogic malignancies.  Molecular Diagnostic Therapeutics, 17(2), 85 – 99.
  15. Mitri, Z., Constantine, T. &O’Regan, R. (2012) “The HER2 Receptor in Breast Cancer: Pathophysiology Clinical use and New Advances in Therapy”. Chemotherapy Research and Practice, 7(4), 319 - 323.

Corresponding Author

Mieiwari I. Jumbo

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