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The following pages link to A mathematical model for the glucose-lactate metabolism of in vitro cancer cells (Q417386):

Displaying 21 items.

Modeling deuterated glucose labeling of T-lymphocytes (Q253228) (← links)
Modeling the connection between primary and metastatic tumors (Q365702) (← links)
A stochastic multiscale model for acid mediated cancer invasion (Q475006) (← links)
Glucose-lactate metabolic cooperation in cancer: insights from a spatial mathematical model and implications for targeted therapy (Q485684) (← links)
A new approach to study in vivo cellular metabolism using a modellistic analysis of magnetic resonance spectra (Q1042742) (← links)
Hypoxic cell waves around necrotic cores in glioblastoma: a biomathematical model and its therapeutic implications (Q1936688) (← links)
A mathematical model of HIF-1 regulated cellular energy metabolism (Q2022474) (← links)
Unraveling the origin of glucose mediated disparate proliferation dynamics of cancer stem cells (Q2041314) (← links)
Analysis of a model for tumor growth and lactate exchanges in a glioma (Q2063971) (← links)
An oxygen driven proliferative-to-invasive transition of glioma cells: an analytical study (Q2090484) (← links)
Local and global sensitivity analysis of spheroid and xenograft models of the acid-mediated development of tumor malignancy (Q2109734) (← links)
A mathematical model for imaging and killing cancer cells by using concepts of the Warburg effect in designing a graphene system (Q2130362) (← links)
Nonlinear ghost waves accelerate the progression of high-grade brain tumors (Q2200235) (← links)
Cahn-Hilliard models for glial cells (Q2232778) (← links)
Mathematical analysis of a model for proliferative-to-invasive transition of hypoxic glioma cells (Q2278483) (← links)
A microscale mathematical model for metabolic symbiosis: investigating the effects of metabolic inhibition on ATP turnover in tumors (Q2415751) (← links)
A reduced model of cell metabolism to revisit the glycolysis-OXPHOS relationship in the deregulated tumor microenvironment (Q2693212) (← links)
A theoretical explanation of the laws of Warburg and Sigmond (Q4353824) (← links)
Partial differential model of lactate neuro-energetics: analytic results and numerical simulations (Q5000122) (← links)
A mathematical model of the disruption of glucose homeostasis in cancer patients (Q6165611) (← links)
Computational model of the cancer necrotic core formation in a tumor-on-a-chip device (Q6594270) (← links)