TY - JOUR
KW - BCG Vaccine
KW - Co-infection
KW - Schistosomiasis
KW - Tuberculosis
KW - backward bifurcation
AU - Ako II
AU - Omoregie RU
AB - We present a mathematical model, that is deterministic, for investigating the impact of schistosomiasis infection on the immunogenicity of the BCG vaccine affects the use of vaccination as a measure of control against TB infection at population level in Nigeria. The presence of the backward bifurcation phenomenon was established from the analysis of the model, and it was discovered that the following parameters were responsible the adjustment parameter for comparative contagiousness of individuals re-contaminated with TB ($\Theta_{RT}$), the rate of therapy for schistosomiasis-only infected persons ($\zeta_S$), the impact of schistosomiasis on the BCG protection against TB ($\zeta_{TS}$), BCG vaccine waning ($\theta_V$), the BCG vaccine efficacy ($\epsilon_1$), the treatment rate for TB ($\zeta_T$), the comparative rates by which individuals having dormant schistosomiasis ($\eta_1$) cum virulent schistosomiasis ($\eta_2$) are tainted with TB, correspondingly, the depreciated rate of contamination with schistosomiasis ($\psi$), the regulation parameter for comparative infectiousness of persons possessing virulent TB cum dormant schistosomiasis ($\Pi_1$), the treatment rate for TB for co-infected persons ($\zeta_{T1}$), the progression rate from contagious TB/unprotected from schistosomiasis to contagious TB/contagious schistosomiasis ($\sigma$), and the rate of advancement from unprotected against the two infirmities TB/schistosomiasis to unprotected against TB/infectious schistosomiasis ($\alpha_2$). The disease-free equilibrium was found to be globally asymptotically stable when the parameters responsible for the backward bifurcation phenomenon were negligible, the the effective reproduction number is less than unity.
BT - Earthline Journal of Mathematical Sciences
DO - 10.34198/ejms.15425.649683
LA - eng
M3 - Research Article
N2 - We present a mathematical model, that is deterministic, for investigating the impact of schistosomiasis infection on the immunogenicity of the BCG vaccine affects the use of vaccination as a measure of control against TB infection at population level in Nigeria. The presence of the backward bifurcation phenomenon was established from the analysis of the model, and it was discovered that the following parameters were responsible the adjustment parameter for comparative contagiousness of individuals re-contaminated with TB ($\Theta_{RT}$), the rate of therapy for schistosomiasis-only infected persons ($\zeta_S$), the impact of schistosomiasis on the BCG protection against TB ($\zeta_{TS}$), BCG vaccine waning ($\theta_V$), the BCG vaccine efficacy ($\epsilon_1$), the treatment rate for TB ($\zeta_T$), the comparative rates by which individuals having dormant schistosomiasis ($\eta_1$) cum virulent schistosomiasis ($\eta_2$) are tainted with TB, correspondingly, the depreciated rate of contamination with schistosomiasis ($\psi$), the regulation parameter for comparative infectiousness of persons possessing virulent TB cum dormant schistosomiasis ($\Pi_1$), the treatment rate for TB for co-infected persons ($\zeta_{T1}$), the progression rate from contagious TB/unprotected from schistosomiasis to contagious TB/contagious schistosomiasis ($\sigma$), and the rate of advancement from unprotected against the two infirmities TB/schistosomiasis to unprotected against TB/infectious schistosomiasis ($\alpha_2$). The disease-free equilibrium was found to be globally asymptotically stable when the parameters responsible for the backward bifurcation phenomenon were negligible, the the effective reproduction number is less than unity.
PB - Earthline Publishers
PY - 2025
SP - 649
EP - 683
T2 - Earthline Journal of Mathematical Sciences
TI - Mathematical Analysis of a Tuberculosis-Schistosomiasis Co-infection Model with Vaccination and Treatment
UR - https://earthlinepublishers.com/index.php/ejms/article/view/1066/626
SN - 2581-8147
ER -