We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculature as documented in the related publication. This dataset contains time snapshots of the simulation where the initial tumour seed was placed next to an arterial bifurcation. The data is stored as uncompressed hdf5 file
To ensure nutrient and oxygen supply, tumors beyond a size of 1–2 mm3 need a connection to the vascu...
To estimate the feasibility of large scale vascular tumor simulation on the current hardware at the ...
Cell-based lattice-free simulations of the growth of tumor tissues require the definition of geometr...
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
While mosts cells are polarized and give rise to complex structures as they grow, some cells, like t...
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>A cross-section of a tumour spheroid is presented. Cell centres, nodes of a mesh, are represented...
You see a lattice free cell based simulation of cancer cells in a artificial vasculature: blood vess...
Computational modeling has become a widely used tool for unraveling the mechanisms of higher level c...
<p>The cross-sectional plane shows the nutrient availability within the simulation area.</p
<p>The tumour grows from a single cell placed in the middle of a cubic lattice.</p
To ensure nutrient and oxygen supply, tumors beyond a size of 1–2 mm3 need a connection to the vascu...
To estimate the feasibility of large scale vascular tumor simulation on the current hardware at the ...
Cell-based lattice-free simulations of the growth of tumor tissues require the definition of geometr...
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
We conducted a lattice free cell based simulation of tumor spheroids within an artificial vasculatur...
While mosts cells are polarized and give rise to complex structures as they grow, some cells, like t...
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>A cross-section of a tumour spheroid is presented. Cell centres, nodes of a mesh, are represented...
You see a lattice free cell based simulation of cancer cells in a artificial vasculature: blood vess...
Computational modeling has become a widely used tool for unraveling the mechanisms of higher level c...
<p>The cross-sectional plane shows the nutrient availability within the simulation area.</p
<p>The tumour grows from a single cell placed in the middle of a cubic lattice.</p
To ensure nutrient and oxygen supply, tumors beyond a size of 1–2 mm3 need a connection to the vascu...
To estimate the feasibility of large scale vascular tumor simulation on the current hardware at the ...
Cell-based lattice-free simulations of the growth of tumor tissues require the definition of geometr...