Oliver Saut scite author profile

Hierarchical processes spanning several orders of magnitude of both space and time underlie nearly all cancers. Multi-scale statistical, mathematical, and computational modeling methods are central to designing, implementing and assessing treatment strategies that account for these hierarchies. The basic science underlying these modeling efforts is maturing into a new discipline that is close to influencing and facilitating clinical successes. The purpose of this review is to capture the state-of-the-art as well as the key barriers to success for multi-scale modeling in clinical oncology. We begin with a summary of the long-envisioned promise of multi-scale modeling in clinical oncology, including the synthesis of disparate data types into models that reveal underlying mechanisms and allow for experimental testing of hypotheses. We then evaluate the mathematical techniques employed most widely and present several examples illustrating their application as well as the current gap between pre-clinical and clinical applications. We conclude with a discussion of what we view to be the key challenges and opportunities for multi-scale modeling in clinical oncology.

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In vivo mathematical modeling of tumor growth from imaging data: Soon to come in the future?

Cornelis

Saut

Eltit

et al. 2013

Diagnostic and Interventional Imaging

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The future challenges in oncology imaging are to assess the response to treatment even earlier. As an addition to functional imaging, mathematical modeling based on the imaging is an alternative, cross-disciplinary area of development. Modeling was developed in oncology not only in order to understand and predict tumor growth, but also to anticipate the effects of targeted and untargeted therapies. A very wide range of these models exist, involving many stages in the progression of tumors. Few models, however, have been proposed to reproduce in vivo tumor growth because of the complexity of the mechanisms involved. Morphological imaging combined with "spatial" models appears to perform well although functioning imaging could still provide further information on metabolism and the micro-architecture. The combination of imaging and modeling can resolve complex problems and describe many facets of tumor growth or response to treatment. It is now possible to consider its clinical use in the medium term. This review describes the basic principles of mathematical modeling and describes the advantages, limitations and future prospects for this in vivo approach based on imaging data.

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La modélisation mathématique in vivo de la croissance tumorale sur les données de l’imagerie : un avenir proche ?

Saut

Cumsill

Lombardi

et al. 2013

Journal de Radiologie Diagnostique et Interventionnelle

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Oliver Saut

Multi-scale Modeling in Clinical Oncology: Opportunities and Barriers to Success

In vivo mathematical modeling of tumor growth from imaging data: Soon to come in the future?

La modélisation mathématique in vivo de la croissance tumorale sur les données de l’imagerie : un avenir proche ?

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