You see a lattice free cell based simulation of cancer cells in a artificial vasculature: blood vessel are colored by their blood pressure according to the lower left bar, the cells are colored by the pH according to the lower right bar. The simulation time is indicated above the panel. <br
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
We present a physiologically structured lattice model for vascular tumor growth which accounts for b...
<p>Virtual magnetic resonance imaging of simulations reproducing progression by Expanding FLAIR (a a...
You see a lattice free cell based simulation of cancer cells in a artificial vasculature: blood vess...
<p>Hypoxic tumor cells (dark brown; see color scales in the bottom left corner) release tumor angiog...
<p>The cross-sectional plane shows the nutrient availability within the simulation area.</p
We present a 3D multi-cell simulation of a generic simplification of vascular tumor growth which can...
We present a 3D multi-cell simulation of a generic simplification of vascular tumor growth which can...
<p>(<b>A</b>) Functional relationships involving cell-scale parameters such as proliferation (Ki-67)...
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
<p>Graphs with different values of the pressure interval show how the predicted health of epithelial...
In tumor metastasis, the margination and adhesion of tumor cells are two critical and closely relate...
(A) Snapshots of predicted cellular structure and concentration fields of metabolites at different t...
<p>Observations in living mice using intravital microscopy (A, B, C: red – functional blood vessels;...
<p>The tumour grows rapidly from a single layer and eventually EMT events are observed to occur. Cel...
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
We present a physiologically structured lattice model for vascular tumor growth which accounts for b...
<p>Virtual magnetic resonance imaging of simulations reproducing progression by Expanding FLAIR (a a...
You see a lattice free cell based simulation of cancer cells in a artificial vasculature: blood vess...
<p>Hypoxic tumor cells (dark brown; see color scales in the bottom left corner) release tumor angiog...
<p>The cross-sectional plane shows the nutrient availability within the simulation area.</p
We present a 3D multi-cell simulation of a generic simplification of vascular tumor growth which can...
We present a 3D multi-cell simulation of a generic simplification of vascular tumor growth which can...
<p>(<b>A</b>) Functional relationships involving cell-scale parameters such as proliferation (Ki-67)...
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
<p>Graphs with different values of the pressure interval show how the predicted health of epithelial...
In tumor metastasis, the margination and adhesion of tumor cells are two critical and closely relate...
(A) Snapshots of predicted cellular structure and concentration fields of metabolites at different t...
<p>Observations in living mice using intravital microscopy (A, B, C: red – functional blood vessels;...
<p>The tumour grows rapidly from a single layer and eventually EMT events are observed to occur. Cel...
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
We present a physiologically structured lattice model for vascular tumor growth which accounts for b...
<p>Virtual magnetic resonance imaging of simulations reproducing progression by Expanding FLAIR (a a...
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