The syndemic interaction between the Human Immuno Deficiency Virus (HIV) and opportunistic infections can have far reaching consequences on a person’s health. HIV associated dermatophytic infections result in extensive skin lesions which can be difficult to treatdue to poor response to conventional antifungal therapy. HIV- associated tuberculosis especially also contributed substantially to the burden of tuberculosis-associated morbidity and mortality. The Aim of this research was to study the co-infection of mycobacterium tuberculosis and dermatophytosis in a HIV positive population visiting the HIV clinics in some hospitals around Anyigba, Kogi State, Nigeria. Skin scrap samples were collected from nine hundred and seventy six (976) HIV positive persons within six (6) months for analysis. Out of these, 56 patients had dermatophytes infection, the skin leisons and skin scrap samples were further analyzed to identify the dermatophytes. Descriptive analysis, Student T tests and one way ANOVA were carried out to understand the various relationships. Most patient presented to the clinic with cough, fever, weight loss and multiple symptoms, and with CD4 values less than 200cells /ul and substantially between 200-349 cells/µl and 350-499cells/µl. The Predominant age of patients with HIV co-infected with tuberculosis and dermatophytosis was between 25-34 years and 35-44 years respectively. Dermatophytes were mostly found in patients with CD4 values which were equal or lower than 200 cells/µl irrespective of their age group. The predominant dermatophyte was Trichophyton species with Trichophyton tonsurans being the commonest species isolated followed by Trichophyton rubrum, Trichophyton mentagrophytes and Trichophyton gallinae. The finding of this study revealed that the prevalence of HIV infection led to higher progression rate of 10% active tuberculosis. It also revealed that Trichophyton species were the predominant dermatophytes in the environment with Trichophyton tonsurans being the most common isolate. Most patients visiting the hospital were already in the stage II and III of HIV infection in this area and the most common opportunistic infection is Tuberculosis.
| Published in | Central African Journal of Public Health (Volume 7, Issue 4) |
| DOI | 10.11648/j.cajph.20210704.18 |
| Page(s) | 198-203 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
HIV Infection, Tuberculosis, Opportunistic Infections, Dermatophytes, Coinfection
| [1] | Ajayi, A. I., Awopegba, O. E., Adeagbo, O. A., & Ushie, B. A. (2020). Low coverage of HIV testing among adolescents and young adults in Nigeria: Implication for achieving the UNAIDS first 95. PloS one, 15 (5), e0233368. |
| [2] | Moss, A. R., & Bacchetti, P. (1989). Natural history of HIV infection. Aids, 3 (2), 55-62. |
| [3] | Detels, R., Munoz, A., McFarlane, G., Kingsley, L. A., Margolick, J. B., Giorgi, J.,...& Multicenter AIDS Cohort Study Investigators. (1998). Effectiveness of potent antiretroviral therapy on time to AIDS and death in men with known HIV infection duration. Jama, 280 (17), 1497-1503. |
| [4] | Dore, G. J., Li, Y., McDonald, A., Ree, H., & Kaldor, J. M. (2002). Impact of highly active antiretroviral therapy on individual AIDS-defining illness incidence and survival in Australia. Journal of acquired immune deficiency syndromes (1999), 29 (4), 388-395. |
| [5] | Miller, C. J., McGhee, J. R., & Gardner, M. B. (1993). Biology of disease: mucosal immunity, HIV transmission, and AIDS. Laboratory investigation, 68 (2), 129-145. |
| [6] | Vives-Cases, C., Eriksson, M., Goicolea, I., & Öhman, A. (2015). Gender and health inequalities: intersections with other relevant axes of oppression. Global health action, 8. |
| [7] | Daniel, O. J., Oladapo, O. T., Salako, A. A., Iyaniwura, C. A., & Oluwole, F. A. (2005). Gender and TB/HIV co-infection: presentation and treatment outcome in Nigeria. Nigerian Medical Practitioner, 47 (4), 58-60. |
| [8] | Carvalho, Bráulio Matias de, André Jalles Monteiro, Roberto da Justa Pires Neto, Thalles Barbosa Grangeiro, and Cristiane Cunha Frota. "Factors related to HIV/tuberculosis coinfection in a Brazilian reference hospital." Brazilian Journal of Infectious Diseases 12, no. 4 (2008): 281-286. |
| [9] | Oliveira, N. F. D., & Gonçalves, M. J. F. (2013). Social and environmental factors associated with the hospitalization of tuberculosis patients. Revista latino-americana de enfermagem, 21 (2), 507-514. |
| [10] | Affusim, C. C., Kesieme, E., & Abah, V. O. (2012). The pattern of presentation and prevalence of tuberculosis in HIV-seropositive patients seen at Benin City, Nigeria. International Scholarly Research Notices, 2012. |
| [11] | Gyar, S. D., Dauda, E., & Reuben, C. R. (2014). Prevalence of tuberculosis in HIV/AIDS patients in Lafia, Central Nigeria. Int. J. Curr. Microbiol. App. Sci, 3 (6), 831-838. |
| [12] | WHO. (2020, April 30). Joint HIV/Tuberculosis Interventions. Https://Www.Who.Int/Hiv/Topics/Tb/Tuberculosis/En/. |
| [13] | Anígilájé, E. A., Aderibigbe, S. A., Adeoti, A. O., & Nweke, N. O. (2016). Tuberculosis, before and after antiretroviral therapy among HIV-infected children in Nigeria: what are the risk factors?. PLoS One, 11 (5), e0156177. |
| [14] | Nachega, J. B., Kapata, N., Sam-Agudu, N. A., Decloedt, E. H., Katoto, P. D., Nagu, T.,... & Zumla, A. (2021). Minimizing the impact of the triple burden of COVID-19, tuberculosis and HIV on health services in sub-Saharan Africa. International Journal of Infectious Diseases. |
| [15] | Abdullahi, S. A., Smelyanskaya, M., John, S., Adamu, H. I., Ubochioma, E., Kennedy, I.,...& Creswell, J. (2020). Providing TB and HIV outreach services to internally displaced populations in Northeast Nigeria: Results of a controlled intervention study. PLoS medicine, 17 (9), e1003218. |
| [16] | Boushab, B. M., Malick Fall, F. Z., Ould Cheikh Mohamed Vadel, T. K., Ould Cheikh Melaïnine, M. L., Maazouz, M. V., Savadogo, M., & Basco, L. K. (2017). Mucocutaneous manifestations in human immunodeficiency virus (HIV)-infected patients in Nouakchott, Mauritania. International journal of dermatology, 56 (12), 1421-1424. |
| [17] | Costa, J. E. F., Neves, R. P., Delgado, M. M., Lima-Neto, R. G., Morais, V. M. S., & Coêlho, M. R. C. D. (2015). Dermatophytosis in patients with human immunodeficiency virus infection: Clinical aspects and etiologic agents. Acta tropica, 150, 111-115. |
| [18] | Berger, T. G. "Treatment of bacterial, fungal, and parasitic infections in the HIV-infected host." In Seminars in dermatology, vol. 12, no. 4, pp. 296-300. 1993. |
| [19] | Narang, Kirti, Manish Pahwa, and V. Ramesh. "Tinea capitis in the form of concentric rings in an HIV positive adult on antiretroviral treatment." Indian journal of dermatology 57.4 (2012): 288. |
| [20] | Vinnakoti, A., Boina, K., & Purushothaman, S. Clinico-mycological profile of onychomycosis in HIV patients at a tertiary care centre, Kakinada. |
| [21] | Araya, S., Tesfaye, B., & Fente, D. (2020). Epidemiology of dermatophyte and non-dermatophyte fungi infection in Ethiopia. Clinical, cosmetic and investigational dermatology, 13, 291. |
| [22] | AL-Khikani, F. H., & Ayit, A. S. (2021). Major challenges in dermatophytosis treatment: current options and future visions. Egyptian Journal of Dermatology and Venerology, 41 (1), 1. |
| [23] | Heinen, M. P., Cambier, L., Fievez, L., & Mignon, B. (2017). Are Th17 cells playing a role in immunity to dermatophytosis?. Mycopathologia, 182 (1-2), 251-261. |
| [24] | UTHAYAKUMAR, S., Nandwani, R., Drinkwater, T., Nayagam, A. T., & Darley, C. R. (1997). The prevalence of skin disease in HIV infection and its relationship to the degree of immunosuppression. British Journal of Dermatology, 137 (4), 595-598. |
| [25] | Altraide, D. D., Amaewhule, M. N., & Otike-Odibi, B. (2021). Prevalence, Pattern and Clinical Variations of Dermatophytosis in Patients with HIV Infection at the University of Port Harcourt Teaching Hospital, Port Harcourt. Asian Journal of Research in Infectious Diseases, 33-43. |
| [26] | Da Silva, B. C. M., Paula, C. R., Auler, M. E., Ruiz, L. D. S., Dos Santos, J. I., Yoshioka, M. C. N.,... & Gambale, W. (2014). Dermatophytosis and immunovirological status of HIV-infected and AIDS patients from Sao Paulo city, Brazil. Mycoses, 57 (6), 371-376. |
| [27] | Hussen, S., Belachew, T., & Hussein, N. (2017). Nutritional status of HIV clients receiving HAART: its implication on occurrence of opportunistic infection. The Open Public Health Journal, 10 (1). |
APA Style
Abba Moses Audu, Oche Joseph Otorkpa, Odama Lillian Eniola. (2021). Prevalence of Mycobacterium Tuberculosis and Dermatophytes Co-Infection in Human Immunodeficiency Virus (HIV) Patients. Central African Journal of Public Health, 7(4), 198-203. https://doi.org/10.11648/j.cajph.20210704.18
ACS Style
Abba Moses Audu; Oche Joseph Otorkpa; Odama Lillian Eniola. Prevalence of Mycobacterium Tuberculosis and Dermatophytes Co-Infection in Human Immunodeficiency Virus (HIV) Patients. Cent. Afr. J. Public Health 2021, 7(4), 198-203. doi: 10.11648/j.cajph.20210704.18
AMA Style
Abba Moses Audu, Oche Joseph Otorkpa, Odama Lillian Eniola. Prevalence of Mycobacterium Tuberculosis and Dermatophytes Co-Infection in Human Immunodeficiency Virus (HIV) Patients. Cent Afr J Public Health. 2021;7(4):198-203. doi: 10.11648/j.cajph.20210704.18
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Download@article{10.11648/j.cajph.20210704.18,
author = {Abba Moses Audu and Oche Joseph Otorkpa and Odama Lillian Eniola},
title = {Prevalence of Mycobacterium Tuberculosis and Dermatophytes Co-Infection in Human Immunodeficiency Virus (HIV) Patients},
journal = {Central African Journal of Public Health},
volume = {7},
number = {4},
pages = {198-203},
doi = {10.11648/j.cajph.20210704.18},
url = {https://doi.org/10.11648/j.cajph.20210704.18},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.cajph.20210704.18},
abstract = {The syndemic interaction between the Human Immuno Deficiency Virus (HIV) and opportunistic infections can have far reaching consequences on a person’s health. HIV associated dermatophytic infections result in extensive skin lesions which can be difficult to treatdue to poor response to conventional antifungal therapy. HIV- associated tuberculosis especially also contributed substantially to the burden of tuberculosis-associated morbidity and mortality. The Aim of this research was to study the co-infection of mycobacterium tuberculosis and dermatophytosis in a HIV positive population visiting the HIV clinics in some hospitals around Anyigba, Kogi State, Nigeria. Skin scrap samples were collected from nine hundred and seventy six (976) HIV positive persons within six (6) months for analysis. Out of these, 56 patients had dermatophytes infection, the skin leisons and skin scrap samples were further analyzed to identify the dermatophytes. Descriptive analysis, Student T tests and one way ANOVA were carried out to understand the various relationships. Most patient presented to the clinic with cough, fever, weight loss and multiple symptoms, and with CD4 values less than 200cells /ul and substantially between 200-349 cells/µl and 350-499cells/µl. The Predominant age of patients with HIV co-infected with tuberculosis and dermatophytosis was between 25-34 years and 35-44 years respectively. Dermatophytes were mostly found in patients with CD4 values which were equal or lower than 200 cells/µl irrespective of their age group. The predominant dermatophyte was Trichophyton species with Trichophyton tonsurans being the commonest species isolated followed by Trichophyton rubrum, Trichophyton mentagrophytes and Trichophyton gallinae. The finding of this study revealed that the prevalence of HIV infection led to higher progression rate of 10% active tuberculosis. It also revealed that Trichophyton species were the predominant dermatophytes in the environment with Trichophyton tonsurans being the most common isolate. Most patients visiting the hospital were already in the stage II and III of HIV infection in this area and the most common opportunistic infection is Tuberculosis.},
year = {2021}
}
TY - JOUR T1 - Prevalence of Mycobacterium Tuberculosis and Dermatophytes Co-Infection in Human Immunodeficiency Virus (HIV) Patients AU - Abba Moses Audu AU - Oche Joseph Otorkpa AU - Odama Lillian Eniola Y1 - 2021/08/02 PY - 2021 N1 - https://doi.org/10.11648/j.cajph.20210704.18 DO - 10.11648/j.cajph.20210704.18 T2 - Central African Journal of Public Health JF - Central African Journal of Public Health JO - Central African Journal of Public Health SP - 198 EP - 203 PB - Science Publishing Group SN - 2575-5781 UR - https://doi.org/10.11648/j.cajph.20210704.18 AB - The syndemic interaction between the Human Immuno Deficiency Virus (HIV) and opportunistic infections can have far reaching consequences on a person’s health. HIV associated dermatophytic infections result in extensive skin lesions which can be difficult to treatdue to poor response to conventional antifungal therapy. HIV- associated tuberculosis especially also contributed substantially to the burden of tuberculosis-associated morbidity and mortality. The Aim of this research was to study the co-infection of mycobacterium tuberculosis and dermatophytosis in a HIV positive population visiting the HIV clinics in some hospitals around Anyigba, Kogi State, Nigeria. Skin scrap samples were collected from nine hundred and seventy six (976) HIV positive persons within six (6) months for analysis. Out of these, 56 patients had dermatophytes infection, the skin leisons and skin scrap samples were further analyzed to identify the dermatophytes. Descriptive analysis, Student T tests and one way ANOVA were carried out to understand the various relationships. Most patient presented to the clinic with cough, fever, weight loss and multiple symptoms, and with CD4 values less than 200cells /ul and substantially between 200-349 cells/µl and 350-499cells/µl. The Predominant age of patients with HIV co-infected with tuberculosis and dermatophytosis was between 25-34 years and 35-44 years respectively. Dermatophytes were mostly found in patients with CD4 values which were equal or lower than 200 cells/µl irrespective of their age group. The predominant dermatophyte was Trichophyton species with Trichophyton tonsurans being the commonest species isolated followed by Trichophyton rubrum, Trichophyton mentagrophytes and Trichophyton gallinae. The finding of this study revealed that the prevalence of HIV infection led to higher progression rate of 10% active tuberculosis. It also revealed that Trichophyton species were the predominant dermatophytes in the environment with Trichophyton tonsurans being the most common isolate. Most patients visiting the hospital were already in the stage II and III of HIV infection in this area and the most common opportunistic infection is Tuberculosis. VL - 7 IS - 4 ER -
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