Characterising cancer cell responses to cyclic hypoxia using mathematical modelling
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Publication:6639831
DOI10.1007/S11538-024-01359-0MaRDI QIDQ6639831
Philip K. Maini, Joe Pitt-Francis, Ruby Nixson, H. M. Byrne, Giulia L. Celora
Publication date: 18 November 2024
Published in: Bulletin of Mathematical Biology (Search for Journal in Brave)
cell cycleindividual-based modellingmathematical oncologydamage repairfluctuating oxygen levelstumour hypoxia
Cell biology (92C37) Mathematical modeling or simulation for problems pertaining to biology (92-10) Pathology, pathophysiology (92C32)
Cites Work
- Spatio-temporal modelling of phenotypic heterogeneity in tumour tissues and its impact on radiotherapy treatment
- A DNA-structured mathematical model of cell-cycle progression in cyclic hypoxia
- Structural features of microvascular networks trigger blood flow oscillations
- A mathematical dissection of the adaptation of cell populations to fluctuating oxygen levels
- Targeting cellular DNA damage responses in cancer: an in vitro-calibrated agent-based model simulating monolayer and spheroid treatment responses to ATR-inhibiting drugs
- Modeling the dynamics of hypoxia inducible factor-\(1\alpha\) (HIF-\(1\alpha\)) within single cells and 3D cell culture systems
- An Operator-Theoretic Formulation of Asynchronous Exponential Growth
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