Lito A. Papaxenopoulou scite author profile

Emerging evidence demonstrates that radiotherapy induces immunogenic death on tumor cells that emit immunostimulating signals resulting in tumor-specific immune responses. However, the impact of tumor features and microenvironmental factors on the efficacy of radiation-induced immunity remains to be elucidated. Herein, we use a calibrated model of tumor-effector cell interactions to investigate the potential benefits and immunological consequences of radiotherapy. Simulations analysis suggests that radiotherapy success depends on the functional tumor vascularity extent and reveals that the pre-treatment tumor size is not a consistent determinant of treatment outcomes. The onesize-fits-all approach of conventionally fractionated radiotherapy is predicted to result in some overtreated patients. In addition, model simulations also suggest that an arbitrary increase in treatment duration does not necessarily result in better tumor control. This study highlights the potential benefits of tumor-immune ecosystem profiling during treatment planning to better harness the immunogenic potential of radiotherapy.

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Optimal vaccine roll-out strategies including social distancing for pandemics

Spiliotis

Koutsoumaris²,

Reppas

et al. 2022

iScience

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In silico predicted therapy against chronic Staphylococcus aureus infection leads to bacterial clearance in vivo

et al. 2022

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On the Immunological Consequences of Conventionally Fractionated Radiotherapy: In silico Insights

et al. 2019

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