A mathematical model of tumor-induced angiogenesis
![](thesis/SuppInfo/02_Evol.png)
Tumor-induced angiogenesis in a small domain
![](./thesis/SuppInfo/02_Large.png)
Tumor-induced angiogenesis in a medium-sized domain
![](thesis/SuppInfo/02_Geom_Circ.png)
Tumor-induced angiogenesis from a circular capillary
![](thesis/SuppInfo/02_Geom_Complex.png)
Tumor-induced angiogenesis from a realistic setup
![](thesis/SuppInfo/02_Geom_Multi.png)
Angiogenesis triggered by four tumors
Tip endothelial cells guided by chemotatic and haptotactic cues
![](thesis/SuppInfo/03_Evolution.png)
Numerical simulation of a tumor angiogenesis model that includes haptotaxis
![](thesis/SuppInfo/03_Interactive.png)
Interactive comparison of the final vascular patterns with and without haptotaxis
Tumor angiogenesis in 3D
![](thesis/SuppInfo/04_Cube3D_Normal.png)
3D angiogenesis in a cube triggered by a tumor
![](thesis/SuppInfo/04_Cube3D_Multi.png)
3D angiogenesis in a cube triggered by three tumors
![](thesis/SuppInfo/04_Cube3D_200.png)
3D angiogenesis in a cube triggered by 200 HYC
![](thesis/SuppInfo/04_Cube3D_100.png)
3D angiogenesis in a cube triggered by 100 HYC
Growth, regression, and regrowth
![](thesis/SuppInfo/05_Intuition.png)
Video S5.1
Intuition of the model
![](thesis/SuppInfo/05_Sim.png)
Video S5.2
Corneal neovascularization
![](thesis/SuppInfo/05_Evol.png)
Video S5.3
Tumor angiogenesis simulation: growth, regression, and regrowth