Dilruba Sofia scite author profile

Dilruba Sofia

4Publications

60Citation Statements Received

539Citation Statements Given

How they've been cited

How they cite others

379

539

Affiliations

University of Massachusetts Amherst

Publications

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A Mathematical Model of Breast Tumor Progression Based on Immune Infiltration

Mirzaei

Sofia

et al. 2021

JPM

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Breast cancer is the most prominent type of cancer among women. Understanding the microenvironment of breast cancer and the interactions between cells and cytokines will lead to better treatment approaches for patients. In this study, we developed a data-driven mathematical model to investigate the dynamics of key cells and cytokines involved in breast cancer development. We used gene expression profiles of tumors to estimate the relative abundance of each immune cell and group patients based on their immune patterns. Dynamical results show the complex interplay between cells and molecules, and sensitivity analysis emphasizes the direct effects of macrophages and adipocytes on cancer cell growth. In addition, we observed the dual effect of IFN-γ on cancer proliferation, either through direct inhibition of cancer cells or by increasing the cytotoxicity of CD8+ T-cells.

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Investigating key cell types and molecules dynamics in PyMT mice model of breast cancer through a mathematical model

et al. 2022

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The most common kind of cancer among women is breast cancer. Understanding the tumor microenvironment and the interactions between individual cells and cytokines assists us in arriving at more effective treatments. Here, we develop a data-driven mathematical model to investigate the dynamics of key cell types and cytokines involved in breast cancer development. We use time-course gene expression profiles of a mouse model to estimate the relative abundance of cells and cytokines. We then employ a least-squares optimization method to evaluate the model’s parameters based on the mice data. The resulting dynamics of the cells and cytokines obtained from the optimal set of parameters exhibit a decent agreement between the data and predictions. We perform a sensitivity analysis to identify the crucial parameters of the model and then perform a local bifurcation on them. The results reveal a strong connection between adipocytes, IL6, and the cancer population, suggesting them as potential targets for therapies.

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Patient-Specific Mathematical Model of the Clear Cell Renal Cell Carcinoma Microenvironment

Sofia

Mirzaei

Shahriyari

2022

JPM

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The interactions between cells and molecules in the tumor microenvironment can give insight into the initiation and progression of tumors and their optimal treatment options. In this paper, we developed an ordinary differential equation (ODE) mathematical model of the interaction network of key players in the clear cell renal cell carcinoma (ccRCC) microenvironment. We then performed a global gradient-based sensitivity analysis to investigate the effects of the most sensitive parameters of the model on the number of cancer cells. The results indicate that parameters related to IL-6 have high a impact on cancer cell growth, such that decreasing the level of IL-6 can remarkably slow the tumor’s growth.

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Mixed volume of small reaction networks

Obatake

Shiu

Sofia

2020

Involve

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Dilruba Sofia

A Mathematical Model of Breast Tumor Progression Based on Immune Infiltration

Investigating key cell types and molecules dynamics in PyMT mice model of breast cancer through a mathematical model

Patient-Specific Mathematical Model of the Clear Cell Renal Cell Carcinoma Microenvironment

Mixed volume of small reaction networks

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