An Extended Mathematical Model of Tumor Growth and Its Interaction With the Immune System, to Be Used for Developing an Optimized Immunotherapy Treatment Protocol

An Extended Mathematical Model of Tumor Growth and Its Interaction With the Immune System, to Be Used for Developing an Optimized Immunotherapy Treatment Protocol Publisher Pubmed

Qomlaqi M¹ ; Bahrami F¹ ; Ajami M² ; Hajati J³

Show Affiliations

1. CIPCE, Human Motor Control and Computational Neuroscience Lab, School of Electrical and Computer Engineering, College of Engineering, University of Tehran, Tehran, Iran
2. Department of immunology, Faculty of Medical Sciences, Tarbiat Modares University, Tehran, Iran
3. Department of Immunology, School of Medicine, Tehran University of Medical Science, Tehran, Iran

Source: Mathematical Biosciences Published:2017

Abstract

Background Chemotherapy is usually known as the main modality for cancer treatment. Nevertheless, most of chronic cancers could not be treated with chemotherapy alone. Immunotherapy is a new modality for cancer treatment that is effective for early stages of cancer and it has fewer side effects compared to chemotherapy, specifically for those types of cancer that are resistant to it. Method This work presents an extended mathematical model to depict interactions between cancerous and adaptive immune system in mouse. We called the model an extended model, because we embedded all those compartments that have important roles in response to tumor in one model. The model includes tumor cells, natural killers, naive and mature cytotoxic T cells, naive and mature helper T cells, regulatory T cells, dendritic cells and interleukin 2 cytokine. Whole cycle of cell division program of immune cells is also considered in the model. We also optimized protocol of immunotherapy with DC vaccine based on the proposed mathematical model. Result Simulation results of the proposed model are in conformity with the experimental data recorded from mouse in immunology department of Tehran University of Medical Science as well as what has been explained in the literature. Our results explain dynamics of the immune cells from the first day of cancer growth and progression. Simulation result shows that reducing intervals between immunotherapy injections, efficacy of the treatment will be increased because CD8+ cells are boosted more rapidly. Optimized protocol for immunotherapy suggests that if the effect of DC vaccines on increasing number of anti-tumor immune cells be just before the maximum number of CD8+ cells, the effect of treatment will be maximized. © 2017 Elsevier Inc.

Related Docs

View other Related Docs

1. A Structural Methodology for Modeling Immune-Tumor Interactions Including Pro- and Anti-Tumor Factors for Clinical Applications, Mathematical Biosciences (2018)

2. Mathematical Modeling of In-Vivo Tumor-Immune Interactions for the Cancer Immunotherapy Using Matured Dendritic Cells, Journal of Biological Systems (2018)

3. Mathematical Modeling of Tumor-Induced Immunosuppression by Myeloid-Derived Suppressor Cells: Implications for Therapeutic Targeting Strategies, Journal of Theoretical Biology (2018)

4. Agent-Based Modeling of Tumor and Immune System Interactions in Combinational Therapy With Low-Dose 5-Fluorouracil and Dendritic Cell Vaccine in Melanoma B16f10, Iranian Journal of Allergy# Asthma and Immunology (2022)

5. Mathematical Model of Cancer Immunotherapy by Dendritic Cells Combined With Tumor Hypoxia Treatment, 2018 25th Iranian Conference on Biomedical Engineering and 2018 3rd International Iranian Conference on Biomedical Engineering# ICBME 2018 (2018)

6. An Agent-Based Model for Investigating the Effect of Myeloid-Derived Suppressor Cells and Its Depletion on Tumor Immune Surveillance, Journal of Medical Signals and Sensors (2019)

7. Nanoparticles in Cancer Immunotherapies: An Innovative Strategy, Biotechnology Progress (2021)

8. Cancer Immunotherapy Confers a Global Benefit, Cancer Immunology: Cancer Immunotherapy for Organ-Specific Tumors (2015)

Experts (# of related papers)

View all Related Experts

Jamshid Hadjati (6)

Nima Rezaei (2)

Style	Citing Format
MLA	Qomlaqi M, et al.. "An Extended Mathematical Model of Tumor Growth and Its Interaction With the Immune System, to Be Used for Developing an Optimized Immunotherapy Treatment Protocol." Mathematical Biosciences, vol. 292, no. , 2017, pp. 1-9.
APA	Qomlaqi M, Bahrami F, Ajami M, Hajati J (2017). An Extended Mathematical Model of Tumor Growth and Its Interaction With the Immune System, to Be Used for Developing an Optimized Immunotherapy Treatment Protocol. Mathematical Biosciences, 292(), 1-9.
Chicago	Qomlaqi M, Bahrami F, Ajami M, Hajati J. "An Extended Mathematical Model of Tumor Growth and Its Interaction With the Immune System, to Be Used for Developing an Optimized Immunotherapy Treatment Protocol." Mathematical Biosciences 292, no. (2017): 1-9.
Harvard	Qomlaqi M et al. (2017) 'An Extended Mathematical Model of Tumor Growth and Its Interaction With the Immune System, to Be Used for Developing an Optimized Immunotherapy Treatment Protocol', Mathematical Biosciences, 292(), pp. 1-9.
Vancouver	Qomlaqi M, Bahrami F, Ajami M, Hajati J. An Extended Mathematical Model of Tumor Growth and Its Interaction With the Immune System, to Be Used for Developing an Optimized Immunotherapy Treatment Protocol. Mathematical Biosciences. 2017;292():1-9.
BibTex	@article{ author = {Qomlaqi M and Bahrami F and Ajami M and Hajati J}, title = {An Extended Mathematical Model of Tumor Growth and Its Interaction With the Immune System, to Be Used for Developing an Optimized Immunotherapy Treatment Protocol}, journal = {Mathematical Biosciences}, volume = {292}, number = {}, pages = {1-9}, year = {2017} }
RIS	TY - JOUR AU - Qomlaqi M AU - Bahrami F AU - Ajami M AU - Hajati J TI - An Extended Mathematical Model of Tumor Growth and Its Interaction With the Immune System, to Be Used for Developing an Optimized Immunotherapy Treatment Protocol JO - Mathematical Biosciences VL - 292 IS - SP - 1 EP - 9 PY - 2017 ER -

Science Communicator Platform

Authors

Authors Affiliations

Abstract