Can cancer cells inform us about the tumor microenvironment?

Characteristics of the tumor microenvironment (TME) such as the leaky intratumoral vascular network and the density and composition of the desmoplastic extracellular matrix (ECM) contain essential information that determine the possibly heterogeneous interstitial fluid (IF) velocity field and inters...

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Vydáno v:Journal of computational physics Ročník 492; s. 112449
Hlavní autoři: Nævdal, Geir, Evje, Steinar
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Inc 01.11.2023
Témata:
Cell migration
Ensemble Kalman filter
Interstitial fluid pressure
Multiphase model
Parameter estimation
Reservoir modeling
Interstitial fluid pressure
Parameter estimation
Multiphase model
Reservoir modeling
Ensemble Kalman filter
Cell migration
ISSN:0021-9991
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Abstract Characteristics of the tumor microenvironment (TME) such as the leaky intratumoral vascular network and the density and composition of the desmoplastic extracellular matrix (ECM) contain essential information that determine the possibly heterogeneous interstitial fluid (IF) velocity field and interstitial fluid pressure (IFP). This information plays an important role for how anticancer drug that is delivered through the blood vasculature will distribute and possibly affect the tumor. The main question we deal with in this work is: Can we lure the cancer cells to reveal such information to us? By means of an in silico tumor model we demonstrate that subject to the condition that the tumor progression behavior is dominated by a cancer cell phenotype which moves by fluid-sensitive migration mechanisms as reported from experimental works, such information about the TME can be acquired by measuring the change in the cancer cell volume fraction distribution between two times T0 and T1, e.g., based on MRI images. We demonstrate this principle by using a continuum based multiphase model for tumor progression combined with assimilation of observed data through an ensemble Kalman filter approach which has been extensively and successfully used for updating advanced multiphase flow models in the context of reservoir simulation. Our results based on a synthetic dataset demonstrate how the methodology can be used to extract valuable quantitative information (e.g., interstitial fluid velocity field and fluid pressure, tissue conductivity reflecting ECM status, and effective vasculature conductivity) for which direct measurements may not be possible or impractical. •A multiphase tumor model with fluid-sensitive migration mechanisms is explored.•Insight from reservoir simulation is taken over to tumor biology characterization.•Parameters that characterize tumor are learned by means of Ensemble filter method.•Small observation data is enough to identify tumor characteristics.•After training of model with sparse data, prediction of future behavior is possible.
AbstractList Characteristics of the tumor microenvironment (TME) such as the leaky intratumoral vascular network and the density and composition of the desmoplastic extracellular matrix (ECM) contain essential information that determine the possibly heterogeneous interstitial fluid (IF) velocity field and interstitial fluid pressure (IFP). This information plays an important role for how anticancer drug that is delivered through the blood vasculature will distribute and possibly affect the tumor. The main question we deal with in this work is: Can we lure the cancer cells to reveal such information to us? By means of an in silico tumor model we demonstrate that subject to the condition that the tumor progression behavior is dominated by a cancer cell phenotype which moves by fluid-sensitive migration mechanisms as reported from experimental works, such information about the TME can be acquired by measuring the change in the cancer cell volume fraction distribution between two times T0 and T1, e.g., based on MRI images. We demonstrate this principle by using a continuum based multiphase model for tumor progression combined with assimilation of observed data through an ensemble Kalman filter approach which has been extensively and successfully used for updating advanced multiphase flow models in the context of reservoir simulation. Our results based on a synthetic dataset demonstrate how the methodology can be used to extract valuable quantitative information (e.g., interstitial fluid velocity field and fluid pressure, tissue conductivity reflecting ECM status, and effective vasculature conductivity) for which direct measurements may not be possible or impractical. •A multiphase tumor model with fluid-sensitive migration mechanisms is explored.•Insight from reservoir simulation is taken over to tumor biology characterization.•Parameters that characterize tumor are learned by means of Ensemble filter method.•Small observation data is enough to identify tumor characteristics.•After training of model with sparse data, prediction of future behavior is possible.
ArticleNumber 112449
Author Evje, Steinar
Nævdal, Geir
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Keywords Interstitial fluid pressure
Parameter estimation
Multiphase model
Reservoir modeling
Ensemble Kalman filter
Cell migration
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Snippet Characteristics of the tumor microenvironment (TME) such as the leaky intratumoral vascular network and the density and composition of the desmoplastic...
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StartPage 112449
SubjectTerms Cell migration
Ensemble Kalman filter
Interstitial fluid pressure
Multiphase model
Parameter estimation
Reservoir modeling
Title Can cancer cells inform us about the tumor microenvironment?
URI https://dx.doi.org/10.1016/j.jcp.2023.112449
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