Risk Factors Associated with Mortality of Breast Cancer Patients After Surgery: The Case of Zambia

  • Justin Mulope UNZA postgraduate student
  • Banda Amos
Keywords: Breast cancer, mortality, logistic regression, prognostic, retrospective study

Abstract

Breast cancer (BC) has become a public health problem world-wide due to its high mortality rate among women in both developed and developing countries. The association between BC mortality and patients care and personal factors have been widely studied in developed countries. However, in Zambia, scarce data is available regarding BC mortality and its prognostic factors. We aimed at identifying the factors affecting survival rates and to estimate a 5-year mortality of BC patients after surgery. Retrospective data were collected from medical records of patients from the Cancer Disease Hospital (CDH) in Lusaka, Zambia, that encompassed 233 women who had undergone BC surgery between 2013 and 2018, who were followed-up to the end of 2019. Prognostic factors of BC mortality after surgery using Logistic regression model were determined. The most commonly used statistic of comparison was the odds ratio (OR). Further, 5-year mortality rates for various age groups were estimated using the fitted model. Age at surgery, marital status, HIV status, BMI, BC stage, histologic grade, PR status were significantly associated with mortality of BC patients after surgery. The odds of death increased with the degree of severity across the levels of the factors such as tumor size, lymph node status, BC stage and histologic grade. Also, the odds ratio for mortality increased with an increase in age of patients. Additionally, the odds of death were higher for HIV positive and the unmarried patients compared to the HIV negative and married ones. Further, the odds of death for obese or overweight patients were more than twice of those classified as not obese. Furthermore, the 5-year mortality of different age groups using multiple logistic regression stood at 75.4% for the younger group (≤ 35 years) and 99% for the older group (50 <= age).

References

[1] WHO, 2018. Latest global cancer data: Cancer burden rises to 18.1 million new cases and 9.6 million cancer deaths in 2018. International Agency for Research on Cancer. Press releases no 263.
[2] Lan, H. N., Laohasiriwong, W and Stewart, F. J., 2013. Survival probability and prognostic factors for breast cancer patients in Vietnam. Glob Health Action. Vol.6, no.18860.
[3] WHO, 2018. Globocan: Zambia global cancer observatory. World Health Organization. [Accessed on 20/03/20].
[4] National Cancer Control Strategic Plan 2016 – 2021. Ministry of Health, Zambia.
[5] American Cancer Society (ACS), 2015. Global Cancer facts and figures 3rd edition. Atlanta, Georgia.
[6] Vanderpuye, V., Hammad, N. G., Prabhakar, P., Simonds, H., Olopade, F and Stefan, C. D., 2017. An update on the management of breast cancer in Africa. Infectious Agents and Cancer. Vol.12, no.13.
[7] Álvarez-Bañuelos, M. T., Rosado-Alcocer, L. M., Morales-Romero, J., Román-Álvarez, L. S., Guzmán-García, R. E and Carvajal-Moreno, M., 2016. Prognostic Factors Associated with Survival in Women with Breast Cancer from Veracruz, Mexico. Journal of Cancer Science and Therapy. Vol.8, no.4: 92-98.
[8] Zaid, L. Z. A., Nuzhat, A and Rafiqe, M., 2017. Factors affecting survival of women with breast cancer in King Fahad Medical City, Saudi Arabia. International Journal of Community Medicine and Public Health. Vol.4, no.4: 910-915.
[9] Traore, B., Toure, A., Sy, T., Dieng, M. M., Conde, M., Deme, A and Keita, N., 2015. Prognosis of breast cancer patients underwent surgery in a developing country. Journal of Cancer Therapy. Vol.6, no.9.
[10] Spano, J. P., Lanoy, E., Mounier, N., Katlama, C., Costagliola, D and Heard, I., 2012. Breast cancer among HIV infected individuals from the ONCOVIH study, in France: Therapeutic implications. European Journal of Cancer. vol.48, no.18: 3335-3341.
[11] Escarela, G., Balandra, A. J., Antonio, G. N and Mosccoso, A. G., 2017. Long-Term cause- specific mortality after surgery for women with breast cancer: A 20-year follow-up study surveillance. Epidemiology, and end results cancer registries. Breast cancer: Basic and Clinical Research. Vol.11: 1-11.
[12] Hsieh, F. Y., Bloch, D. A and Larsen, D. M., 1998. A simple method of sample size calculation for linear and logistic regression. Statistical medicine. Vol.17: 1623-1634.
[13] Ngowa, J. D. K., Kasia, M. J., Yomi, J., Nana, N. A., Ngassam, A., Domkam, I., Sando, Z and Ndom, P., 2015. Breast cancer survival in Cameroon: Analysis of a cohort of 404 patients at the Yaounde General Hospital. Advances in Breast Cancer Research. Vol.4.
[14] Balabram, D., Turra, M. C and Gobbi, H., 2013. Survival of patients with operable breast cancer (stages I-III) at a Brazilian public hospital- a closer look into cause-specific mortality. BioMed Central cancer of Journal 2013, Vol.13, no. 434.
[15] Banda L, Nyirongo T, Muntanga M., 2019. Cancer – An Emerging Health Problem: The Zambian Perspective. Health Press Zambia Bull. Vol.3, no.2: 2-4.
[16] Momenyan, S., Baghestani, A. R., Narges, M., Naseri, P and Akbari, M. E., 2018. Survival prediction of patients with breast cancer: Comparisons of decision tree and logistic regression analysis. International Journal of Cancer Management. Vol.11, no.7
[17] Coghill A. E., Newcomba P. A., Madeleinea M. M., Richardsona A. B., Mutyabad I., Okukud F., Phippsa W and Wabingae H., Jackson Orema J and Casper C., 2013. Contribution of HIV infection to mortality among cancer patients in Uganda. NIH Public Access. Vol. 27; no.8; 2933–2942.
[18] Aizer, A. A., Chen, M. H., McCarthy, P. E.,and Nguyen, L. P., 2013. Marital status and survival in patients with cancer. Journal of Clinical Oncology. Vol.31, no.31: 3869-3876.
[19] Chang, W. T and Kuo, L. Y., 2010. A model building exercise of mortality risk for Taiwanese women with breast cancer. BMC Medical Informatics and Decision Making. Vol.10, no.43.
[20] Seedhom, E. A and Kamal, N. N., 2011. Factors affecting survival of women diagnosed with breast cancer in El-Minia Governorate, Egypt. International Journal of Preventive Medicine. Vol.2, no.3: 131-138.
[21] Bouzguenda, R., Khanfir, A., Lahiani, F., Ayedi, I., Daoud, J and Frikha, M., 2013. Prognostic factors and survival in metastatic breast cancer: A single institution experience. Reports of Practical Oncology and Radiotherapy. Vol.18: 127-132.
[22] Kawaguchi H., Masuda N., Nakayama T., Aogi K., Toi M and Ohno S., 2019. Factors associated with prolonged overall survival in patients with postmenopausal estrogen receptor positive advanced breast cancer using real world data: a follow up analysis of the JBCRG C06 Safari study. Breast Cancer. Vol.27; 389–398.
[23] Makanjuola, B. L. S., Popoola, O. A and Oludara, A. M., 2014. Radiation therapy: A major factor in the five-year survival analysis of women with breast cancer in Lagos, Nigeria. Radiotherapy and Oncology. Vol.111: 321-326.
[24] Gakwaya, A., Mugambe, J. B. K., Kavuma, A., Luwanga, A., Fualai, J., Jombwe, J., Galukande, M and Kanyike, D., 2008. Cancer of the breast: 5-year survival in a tertiary hospital in Uganda. British Journal of Cancer. Vol.99: 63-67.
Published
2024-07-01
How to Cite
1.
Mulope J, Amos B. Risk Factors Associated with Mortality of Breast Cancer Patients After Surgery: The Case of Zambia. Journal of Agricultural and Biomedical Sciences [Internet]. 1Jul.2024 [cited 13Nov.2024];7(3). Available from: https://vet.unza.zm/index.php/JABS/article/view/1199