Author:
Pagalay Usman,Juhari ,Ayuna Hustani Sindi
Abstract
This study discusses the dynamic analysis, the Hopf bifurcation, and numerical simulations. The mathematical model of the anti-tumor immune response consists of three compartments namely Immature T Lymphocytes (L1), Mature T Lymphocytes (L2) and Tumor Cells (T). This research was conducted to represent the behavior between immune cells and tumor cells in the body with five γ conditions. Where γ is the intrinsic growth rate of mature T lymphocytes. This study produces R0 > 1 in conditions 1 to 4 while in condition 5 produces R0 < 1. The disease-free equilibrium point is stable only in condition 5, while the endemic equilibrium point is stable only in conditions 2 and 4. Hopf bifurcation occurs at the endemic equilibrium point. Numerical simulation graph in condition 1 shows that tumor cells will increase uncontrollably. In condition 2 the graph show that the endemic equilibrium point for large tumors is stable. In condition 3 the graph show that there will be a bifurcation from the endemic equilibrium point by the disturbance of the parameter value γ. In condition 4 the graph show the small tumor endemic equilibrium point is stable. Finally, in condition 5, the graph show a stable disease-free equilibrium point.
Reference12 articles.
1. Stable periodic oscillations in a two-stage cancer model of tumor and immune system interactions
2. Eryati Darwin, Dwitya Elvira, dan Eka Fithra Elfi, Imunologi Dan Infeksi, (Padang: Andalas University Press, 2021)
3. Yojanvia G. E., Hubungan Antara Asupan Lemak dan Obesitas dengan Kejadian Kanker Payudara di RSUD Kota Yogyakarta, (Yogyakarta: Jurusan Gizi Politeknik Kesehatan Kementerian Kesehatan Yogyakarta, 2019)
4. Liuyong Pang, Liu Sanghong, Xinan Zhang, and Tianhai Tian, Mathematical Modeling and Dynamic analysis of Anti-Tumor Immune Response, Korea: Journal of Applied Mathematics and Computing, 2019.
5. Mehta Atul dan A. Victor Hoffbrand, At a Glance Hematologi Edisi 2, (Jakarta: Erlangga, 2006)