Agent-based Modeling of Tumor and Immune System Interactions  in Combinational Therapy with Low-dose 5-fluorouracil  and Dendritic Cell Vaccine in Melanoma B16F10

Rahbar, Sarah; Shafiekhani, Sajad; Allahverdy, Armin; Jamali, Arezoo; Kheshtchin, Nasim; Ajami, Mansoureh; Mirsanei, Zahra; Habibi, Sima; Makkiabadi, Bahador; Hadjati, Jamshid; Jafari‬, Amir Homayoun

doi:10.18502/ijaai.v21i2.9223

Cited by 7 publications

(7 citation statements)

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“…5-FU in combination with a DC vaccine showed a greater MDSC reduction and improved survival rates in melanoma-bearing mice compared with DC vaccination alone (which maintained MDSC levels), and/or 5-FU alone (which significantly depleted MDSCs, although survival rates were lower compared to the combinatorial treatment) ( 50 ). Interestingly, these schedules were used in a melanoma-bearing mice to stablish an agent-based model to simulate the interactions between tumor and immune cells, as well as comparing different scenarios to determine the role of each component (including MDSCs) during tumor progression ( 69 ).…”

Section: Dendritic Cell Vaccines and Myeloid-derived Suppressor Cellsmentioning

confidence: 99%

The effects of dendritic cell-based vaccines in the tumor microenvironment: Impact on myeloid-derived suppressor cells

et al. 2022

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Dendritic cells (DCs) are a heterogenous population of professional antigen presenting cells whose main role is diminished in a variety of malignancies, including cancer, leading to ineffective immune responses. Those mechanisms are inhibited due to the immunosuppressive conditions found in the tumor microenvironment (TME), where myeloid-derived suppressor cells (MDSCs), a heterogeneous population of immature myeloid cells known to play a key role in tumor immunoevasion by inhibiting T-cell responses, are extremely accumulated. In addition, it has been demonstrated that MDSCs not only suppress DC functions, but also their maturation and development within the myeloid linage. Considering that an increased number of DCs as well as the improvement in their functions boost antitumor immunity, DC-based vaccines were developed two decades ago, and promising results have been obtained throughout these years. Therefore, the remodeling of the TME promoted by DC vaccination has also been explored. Here, we aim to review the effectiveness of different DCs-based vaccines in murine models and cancer patients, either alone or synergistically combined with other treatments, being especially focused on their effect on the MDSC population.

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Section: Dendritic Cell Vaccines and Myeloid-derived Suppressor Cellsmentioning

confidence: 99%

The effects of dendritic cell-based vaccines in the tumor microenvironment: Impact on myeloid-derived suppressor cells

et al. 2022

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“…Many agent-based models (ABMs) have been developed to study diseases, including cancer [3, 4, 5, 6, 7, 8], COVID-19 [9], tuberculosis [10, 11], and more, with a core purpose being to determine the best means to treat a patient with the given disease. This involves modeling therapeutics alongside the cells in a given microenvironment.…”

Section: Statement Of Needmentioning

confidence: 99%

PhysiPKPD: A pharmacokinetics and pharmacodynamics module for PhysiCell

Bergman

Marazzi

Chowkwale

et al. 2022

Preprint

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Pharmacokinetics and pharmacodynamics are key considerations in any study of molecular therapies. It is thus imperative to factor their effects in to any in silico model of biological tissue involving such therapies. Furthermore, creation of a standardized and flexible framework will benefit the community by increasing access to such modules and enhancing their communicability. PhysiCell is an open source physics-based cell simulator, i.e. a platform for modeling biological tissue, that is quickly being adopted and utilized by the mathematical biology community. We present here PhysiPKPD, an open source PhysiCell-based package that allows users to include PKPD in PhysiCell models.

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“…Here, we employed an agent-based digital simulation that could model the complex relationships among the factors based on our in vitro experimental results and calculate the priority of each factor for the PDT treatment efficacy, providing data for a clearer understanding of parameters that yield optimum PDT results. Agent-based simulation is a form of machine learning-based inference modeling that has been successfully used to predict brain cancer response to tyrosine kinase inhibitors (TKIs) and to simulate the dynamics between melanoma tumor cells and the immune system in their response to dendritic cell vaccine and 5-fluorouracil co-treatment 21 , 22 . In our PDT treatment strategy, agents execute various events based on the system they represent: cells, photosensitizers, and light.…”

Section: Introductionmentioning

confidence: 99%

Wireless sequential dual light delivery for programmed PDT in vivo

Liu,

Sun,

et al. 2024

Light Sci Appl

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Using photodynamic therapy (PDT) to treat deep-seated cancers is limited due to inefficient delivery of photosensitizers and low tissue penetration of light. Polymeric nanocarriers are widely used for photosensitizer delivery, while the self-quenching of the encapsulated photosensitizers would impair the PDT efficacy. Furthermore, the generated short-lived reactive oxygen spieces (ROS) can hardly diffuse out of nanocarriers, resulting in low PDT efficacy. Therefore, a smart nanocarrier system which can be degraded by light, followed by photosensitizer activation can potentially overcome these limitations and enhance the PDT efficacy. A light-sensitive polymer nanocarrier encapsulating photosensitizer (RB-M) was synthesized. An implantable wireless dual wavelength microLED device which delivers the two light wavelengths sequentially was developed to programmatically control the release and activation of the loaded photosensitizer. Two transmitter coils with matching resonant frequencies allow activation of the connected LEDs to emit different wavelengths independently. Optimal irradiation time, dose, and RB-M concentration were determined using an agent-based digital simulation method. In vitro and in vivo validation experiments in an orthotopic rat liver hepatocellular carcinoma disease model confirmed that the nanocarrier rupture and sequential low dose light irradiation strategy resulted in successful PDT at reduced photosensitizer and irradiation dose, which is a clinically significant event that enhances treatment safety.

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Agent-based Modeling of Tumor and Immune System Interactions in Combinational Therapy with Low-dose 5-fluorouracil and Dendritic Cell Vaccine in Melanoma B16F10

Cited by 7 publications

References 0 publications

The effects of dendritic cell-based vaccines in the tumor microenvironment: Impact on myeloid-derived suppressor cells

The effects of dendritic cell-based vaccines in the tumor microenvironment: Impact on myeloid-derived suppressor cells

PhysiPKPD: A pharmacokinetics and pharmacodynamics module for PhysiCell

Wireless sequential dual light delivery for programmed PDT in vivo

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