Deformations of acid-mediated invasive tumors in a model with Allee effect

Paul Carter; Arjen Doelman; Peter van Heijster; Daniel Levy; Philip Maini; Erin Okey; Paige Yeung

doi:10.1007/s00285-025-02209-w

Deformations of acid-mediated invasive tumors in a model with Allee effect

Paul Carter^*, Arjen Doelman, Peter van Heijster, Daniel Levy, Philip Maini, Erin Okey, Paige Yeung

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

We consider a Gatenby–Gawlinski-type model of invasive tumors in the presence of an Allee effect. We describe the construction of bistable one-dimensional traveling fronts using singular perturbation techniques in different parameter regimes corresponding to tumor interfaces with, or without, an acellular gap. By extending the front as a planar interface, we perform a stability analysis to long wavelength perturbations transverse to the direction of front propagation and derive a simple stability criterion for the front in two spatial dimensions. In particular we find that in general the presence of the acellular gap indicates transversal instability of the associated planar front, which can lead to complex interfacial dynamics such as the development of finger-like protrusions and/or different invasion speeds.

Original language	English
Article number	55
Journal	Journal of Mathematical Biology
Volume	90
DOIs	https://doi.org/10.1007/s00285-025-02209-w
Publication status	Published - 5 May 2025

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title = "Deformations of acid-mediated invasive tumors in a model with Allee effect",

abstract = "We consider a Gatenby–Gawlinski-type model of invasive tumors in the presence of an Allee effect. We describe the construction of bistable one-dimensional traveling fronts using singular perturbation techniques in different parameter regimes corresponding to tumor interfaces with, or without, an acellular gap. By extending the front as a planar interface, we perform a stability analysis to long wavelength perturbations transverse to the direction of front propagation and derive a simple stability criterion for the front in two spatial dimensions. In particular we find that in general the presence of the acellular gap indicates transversal instability of the associated planar front, which can lead to complex interfacial dynamics such as the development of finger-like protrusions and/or different invasion speeds.",

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AU - Carter, Paul

AU - Doelman, Arjen

AU - van Heijster, Peter

AU - Levy, Daniel

AU - Maini, Philip

AU - Okey, Erin

AU - Yeung, Paige

PY - 2025/5/5

Y1 - 2025/5/5

N2 - We consider a Gatenby–Gawlinski-type model of invasive tumors in the presence of an Allee effect. We describe the construction of bistable one-dimensional traveling fronts using singular perturbation techniques in different parameter regimes corresponding to tumor interfaces with, or without, an acellular gap. By extending the front as a planar interface, we perform a stability analysis to long wavelength perturbations transverse to the direction of front propagation and derive a simple stability criterion for the front in two spatial dimensions. In particular we find that in general the presence of the acellular gap indicates transversal instability of the associated planar front, which can lead to complex interfacial dynamics such as the development of finger-like protrusions and/or different invasion speeds.

AB - We consider a Gatenby–Gawlinski-type model of invasive tumors in the presence of an Allee effect. We describe the construction of bistable one-dimensional traveling fronts using singular perturbation techniques in different parameter regimes corresponding to tumor interfaces with, or without, an acellular gap. By extending the front as a planar interface, we perform a stability analysis to long wavelength perturbations transverse to the direction of front propagation and derive a simple stability criterion for the front in two spatial dimensions. In particular we find that in general the presence of the acellular gap indicates transversal instability of the associated planar front, which can lead to complex interfacial dynamics such as the development of finger-like protrusions and/or different invasion speeds.

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DO - 10.1007/s00285-025-02209-w

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SN - 0303-6812

VL - 90

JO - Journal of Mathematical Biology

JF - Journal of Mathematical Biology

M1 - 55

ER -

Deformations of acid-mediated invasive tumors in a model with Allee effect

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