nonlinear tumor modeling ii: tissue inhomogeneities and ...lowengrb/research/...•vascularization:...
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John LowengrubDept Math, UCI
Nonlinear Tumor Modeling II:Tissue inhomogeneities and
necrosis
P. Macklin, M.S. 2003, Ph.D. 2007 (expected);
V. Cristini (Dept Biomed Eng, UCI); Q. Nie (Dept Math, UCI)
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Motivation
• Provide biophysically justified in silicovirtual system to study
• Help experimental investigations; design new experiments
• Therapy protocols
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Outline
•Review of basic model and results
•Extension to a (simple) model of tissue inhomogeneity
•Numerical methods
•Results
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Mathematical model
•Continuum approximation: super-cell macro scale
•Role of cell adhesion and motility on tissue invasion and metastasisIdealized mechanical response of tissues
•Coupling between growth and angiogenesis (neo-vascularization): necessary for maintaining uncontrolled cell proliferation
•Genetic mutations: random changes in microphysical parameters cell apoptosis and adhesion
•Limitations: poor feedback from macro scale to micro scale
(Greenspan, Byrne & Chaplain, Anderson & Chaplain,Levine…)
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Cell proliferation and tissue invasion
( ) in
in | ( , )
on
M A P
N N Nt
PP
λ σ λλ σ σ
τ κµ
− Ω∇• = − Ω = ≤= Σ= − ∇
ux x
u
Cell proliferation: in the tumor is a balance of mitosisand apoptosis (mitosis is responsible for reproduction of mutated genes) and is one of the two main factors responsible for tissue invasion
Spatial distribution of the oncotic pressure
Cell mobility: reflect strength of cell adhesionto other cells and to the Extra-Cellular Matrix (ECM), the other main factor leading to tissue invasion
Assume constant tumor cell density: cell velocity
Darcy’s law
Cell death responsible for release of angiogenic factors: INPUT TO ANGIOGENESIS
Assume 1 diffusing nutrient of concentration σ
Cell-to-celladhesion
Greenspan, Chaplain, Byrne, …
Rate of enzymatic breakdownof necrotic cells (death due to lack of nutrient)
Viability concentration
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Evolution of nutrient: Oxygen/GlucoseGreenspan, Chaplain, Byrne, …
( ) ( ,P , , )C B B BD P ttσ σ λ σ λ σ σ∂= ∇• ∇ − ⋅ + − −
∂x
Oncotic pressure: affects blood flow and delivery of nutrients (and chemotherapy drugs)
Blood-to-tissue nutrient transfer rate function.Spatial distribution of capillaries: OUTPUT FROM ANGIOGENESIS
Nutrient consumption by the cells
Diffusion
=0 (quasi-steady assumption). Tumor growth time scale (~1 day) large compared to typical diffusion time (~1 min)
nutrientconcentrationin blood
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Limited Biophysics
•Simplified Blood-tissue transfer ( ) ( ), , ,B B B B BP P tλ σ σ λ σ σ− − = ⋅ −x
•Avascular or fully vascularized growth (i.e. no angiogenesis)
•Simplified cell-cycling model ( )M bλ σ σ=
•Insight to biophysical system•Benchmark for more complicated systems
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Previous (basic) modelGreenspan, Chaplain, Byrne, Friedman-Reitich, Cristini-Lowengrub-Nie,…
Ω pΩ N
ΣN
Σ Healthy tissue, vessels
tumor,
Necrotic core
Σ
PΩ
NΣ
NΩvessels
in in
P P
N N
uλλ
Ω∇• = − Ω
normal velocity
Nutrient Pressure
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Extended model
highly-vascularizedexterior
Healthy tissue(may have vessels)
ProliferatingTumor region(may have vessels)
Necroticcore
Capturedregion
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Extended Model
in 0 in
in
P P
H
N N
λ
λ
Ω∇• = Ω− Ω
u
normal velocity
•Let D and µ vary in HandpΩ Ω
( )( )
P
, H
N
inin
0 in
B B
B H B H
λ σ σ λσλ σ σ λ σ
− − − ΩΓ = − − − Ω Ω
( )0 D σ= ∇• ∇ +Γ
0Dσ σΣ Σ= ∇ • =n
( )0
σ σ∞∂Ω=
NutrientPressure
0N N
Dσ σΣ Σ
= ∇ • =n
, 0P Pγκ µΣ Σ= ∇ • =n
0N N
P PµΣ Σ
= ∇ • =n
( )0
p p∞∂Ω=
Macklin, Lowengrub, In preparation.
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Interpretation
In ,HΩ
•D is an indirect measure of perfusioni.e., D large nutrient rich
µ• is a measure of mechanical propertiesof extra-tumoral tissue
i.e., µ small tissue hard to penetrate
•Although a very simplified model of these effects, thisdoes provide insight on how inhomogeneity influencestumor growth.
(less mobile)
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Nondimensionalization(Cristini, Lowengrub and Nie, J. Math. Biol. 46, 191-224, 2003)
Intrinsic length scale: Adhesion time scale: 1,Rλ−
Previous nondimensional parameters:
•Apoptosis vs. mitosis•Vascularization:
•Mitosis vs. adhesion •Necrosis vs. mitosis /N N MG λ λ=
•Viability NN Bσσ∞
= −
3/R P DLλ γ µ=
( ) 1/ 21/ 2D P BL D λ λ −= +
•Diffusion ratio:New nondimensional parameters:
•Reduces to basic model when: , , , boundedD Bµ λχ χ χ χ→∞
•Transfer ratio:
/D H PD Dχ = /H Pµχ µ µ=•Mobility (adhesion) ratio:
•Uptake ratio: /Hλχ λ λ=, /B B H Bχ λ λ=
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Nondimensional System
d V pdt
Σ⋅ = = −∇ ⋅xn n
Nutrient: Pressure:( / ) /(1 )c B Bσ σ∞= − − ( ) /( / )Dp P P Lγ∞= −
Generic Poisson-type problems for c and p:
( ) ( , ),w f x wχ∇• ∇ =
, 0w g wχΣ Σ= ∇ • =n
( or )w c p=
0N N
w wχΣ Σ
= ∇ • =n
in N P HΩ = Ω Ω Ω∪ ∪
( )0
w w∞∂Ω=
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More Complex Biophysics•Non-uniform parameters•Necrosis•Complex morphology•angiogenesis
Level-set method
| | 0t Vφ φ+ ∇ =
V = •u n
Difficulties:•Stability– sensitive to geometry ( )sV H κ∼•Accurate extension/interpolation
•Stable discretizations of and κn
•Continuum description
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2nd Order Accurate Ghost Fluid/Level-Set Method
Macklin, Lowengrub, J. Comp. Phys. 203 (2005).Macklin, Lowengrub, J. Comp. Phys. (2005) in press.
•Embed in Rectangular domain
( )22
11 ˆ2 xx
uuuu iiixx ∆Ο+
∆+−
= +−
•Incorporate sub-cell resolutionAnd physical boundary conditions
•Solve equations on full Cartesian mesh
Fedkiw, Gibou, Osher,..
Difficulties:•Stability– sensitive to geometry ( )sV H κ∼•Accurate extension/interpolation
•Stable discretizations of and κn
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2nd Order Accurate Method
Extension
NormalVector/Curvature
Bilinear interpolation
Cubicextrapolation
1-sidedmethod
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Gaussian smoothing N=3
Curvature/Normal Vector
Poisson 2: Quadratic extrapolation of ghost-value linear approximation of ghost-point
WENO5: Reinitialization/Advection
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Validation with benchmark boundary integral result
Solid: BIDashed: GF
•Excellent agreement
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Post-transition dynamics
•Repeated capture of healthy tissue
•Captured tissue acts like blood vessels (nutrient supply from 3D)
Observed in tumorsIn vivo
Mimics tumor growing into uniformly vascularized tissue
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Growth with necrosis and without 3D nutrient supply
•Many topology transitions of tissue and necrotic core
•Capturedregions donot act as nutrient source
•Quite different morphology
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Morphology diagram
µχ
Dχ
Increasedtissueresistance
Higher degree of vascularization
Effect of extra-tumoral tissue
•3 distinct regimes:•Fragmented (nutrient-poor)•Fingered (high tissue resistance)•Hollowed (low tissue resistance, nutrient-rich)
A=0, G=20, 1NG =N=0.35
(decreased mobility)
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Fragmented1,D µχ χ= = ∞
•Strong metastatic potential•Implications for antiangiogenic therapy
Combine with anti-invasive therapy
•Hypoxia leads to invasioni.e., inhomogeneous nutrient distribution,
imperfect vasculature
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Dependence on other parameters1, 1D µχ χ= =
•Increasing G or NG enhances instability•Increasing NG decreases necrotic core
adhesiveness
Necrosis (degradation)
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Dependence on NN=0.175 N=0.35 N=0.70
•Strong effect on size
1,1,
20,1
D
N
GG
µ
χχ
==
==
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Fingered50, 1D µχ χ= =
•Growth into less mobile tissueresults in invasive fingering
Area ratios
proliferating
necrotic
captured
Shape parameter Length scale
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Dependence on other parameters50, 1D µχ χ= =
•Strong effect on morphology– compact, 1D-like, hollow
•Increasing G or NG enhances instability•Increasing NG decreases necrotic core
In vitro tumor spheroid
Cristini et al, CancerRes, in review.
spheroid
spheroid
adhesiveness
Necrosis (degradation)
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Dependence on N
50,1,
20,1
D
N
GG
µ
χχ
==
==
N=0.175 N=0.35 N=0.70
•Strong effect on size
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Hollowed100, 50D µχ χ= =
Area ratios
shape parameter length scale
•Repeated capture andcoalescence leads to hollowstructure
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Dependence on other parameters50,D µχ χ= = ∞
•Strong effect on morphology– compact, 1D-like, hollow
•Increasing G or NG enhances instability•Increasing NG decreases necrotic core
In vitro tumor spheroid
Cristini et al, CancerRes, in review
spheroid
adhesiveness
Necrosis (degradation)
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Growth into highly vascularized tissue20, 1,N DG G µχ χ= = = = ∞
•Multifocal tumor•Statistically self-similar
Area
Time
RelativeArea
Macklin, Lowengrub, J. Comp. Phys. 203 (2005).
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Effect of vascularizationin captured regions
vascularized unvascularized
•Vascularized tumor is more compact as predicted byprevious theory.
20, 1,N
D
G G
µχ χ= =
= = ∞
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Phase Diagram: Highly vascularized tissue
•3 distinct morphologies•Evolution becomes independent of G for G>>1
In vitro tumor spheroid
Cristini et al, CancerRes, in review
spheroid
spheroid
Macklin, Lowengrub, in preparation
adhesiveness
Necrosis (degradation)
,D µχ χ= ∞ = ∞
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Conclusions
•Extra-tumoral tissue strongly affects the size andmorphology of growing tumors
•Inhomogeneity in nutrient distribution may leadto invasion, fragmentation and metastasis throughdiffusional instability
•Additional instability introduced by growth intoless mobile tissue
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Next Steps•More complex/realistic biophysics
•Angiogenesis
•More realistic mechanical response
•Multiphase/Multiscale models
•Finite, complex domains
•Stochastic models
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Future work•Genetic mutations, cell-differentiation and spatial structure
Non-random RandomKomarova,Macklin, L.
Highly simplified model: dX dt dWΣ = +
•Strong interaction among length scales with geometry ofdomain leads to delayed invasion
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Modeling growth in real organs
Breast cancer model