2021
DOI: 10.1038/s41598-021-00989-x
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Evaluation of solid tumor response to sequential treatment cycles via a new computational hybrid approach

Abstract: The development of an in silico approach that evaluates and identifies appropriate treatment protocols for individuals could help grow personalized treatment and increase cancer patient lifespans. With this motivation, the present study introduces a novel approach for sequential treatment cycles based on simultaneously examining drug delivery, tumor growth, and chemotherapy efficacy. This model incorporates the physical conditions of tumor geometry, including tumor, capillary network, and normal tissue assumin… Show more

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Cited by 34 publications
(21 citation statements)
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“…The TME plays a compelling role in cancer development, by providing a complex and dynamic stage for bidirectional interactions between tumor and immune cells in favor of progression and metastasis ( Baghban et al, 2020 ). Thus, specifically targeting different key players within the TME at different time points, as well as optimal dosages and frequency of administration, is a crucial factor in achieving maximum drug benefit to the patient ( Moradi Kashkooli and Soltani, 2021 ). TAMs are the dominant immune cell type in the TME, representing up to 30–50% of tumor tissue and playing major roles in tumor angiogenesis growth, invasion, and immunosuppression ( Banciu et al, 2008c ; Patras et al, 2016 ; Luput et al, 2017 ; Rauca et al, 2018 ; Licarete et al, 2019 ; Ge and Ding, 2020 ; Licarete et al, 2020 ).…”
Section: Discussionmentioning
confidence: 99%
“…The TME plays a compelling role in cancer development, by providing a complex and dynamic stage for bidirectional interactions between tumor and immune cells in favor of progression and metastasis ( Baghban et al, 2020 ). Thus, specifically targeting different key players within the TME at different time points, as well as optimal dosages and frequency of administration, is a crucial factor in achieving maximum drug benefit to the patient ( Moradi Kashkooli and Soltani, 2021 ). TAMs are the dominant immune cell type in the TME, representing up to 30–50% of tumor tissue and playing major roles in tumor angiogenesis growth, invasion, and immunosuppression ( Banciu et al, 2008c ; Patras et al, 2016 ; Luput et al, 2017 ; Rauca et al, 2018 ; Licarete et al, 2019 ; Ge and Ding, 2020 ; Licarete et al, 2020 ).…”
Section: Discussionmentioning
confidence: 99%
“…The model can be further developed by incorporating different injection strategies; these include an intravenous administration of TSLs or magnetic liposomes through continuous injection, direct injection of both MNPs and TSLs into the tumor, and intratumoral injection of chemotherapy drugs. The current model for microvascular transport can be extended to incorporate a more realistic vascular network as demonstrated by Kashkooli and Soltani [92]. In addition, specific cell killing models for different types of cancer cells and anticancer drugs could be employed to make the prediction more tumor specific.…”
Section: Discussionmentioning
confidence: 99%
“…The model was performed with a macroscopic point of view, and variations over the microscopic scale were average. Accordingly, for analyzing the function of normalization, the effect of anti-angiogenic therapy on transport properties of the interstitium was considered instead of including the tumor microvascular network by mathematical simulation [26] or image processing [27,74] under the influence of anti-angiogenesis. Another assumption is that the model was assumed to be 2D axisymmetric because there is one image of the tumor.…”
Section: Limitations and Future Workmentioning
confidence: 99%
“…Drug delivery was studied in a comprehensive multi-scale model, in which the tumor-induced capillary network was performed by a mathematical model [26]. In the study of Moradi Kashkooli and Soltani [27], the importance of alternative chemotherapy strategies-metronomic chemotherapy and chemo-switching-in consecutive treatments were addressed compared to the conventional approach, which is based on maximum tolerated dose, through a numerical model on a real image of solid tumor. They proposed an appropriate computational framework to evaluate and improve the treatment efficacy of solid tumors.…”
Section: Introductionmentioning
confidence: 99%