2016
DOI: 10.1101/042408
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Limiting the Development of Anti-Cancer Drug Resistance in a Spatial Model of Micrometastases

Abstract: While chemoresistance in primary tumors is well-studied, much less is known about the influence of systemic chemotherapy on the development of drug resistance at metastatic sites. In this work, we use a hybrid spatial model of tumor response to a DNA damaging drug to study how the development of chemoresistance in micrometastases depends on the drug dosing schedule. We separately consider cell populations that harbor pre-existing resistance to the drug, and those that acquire resistance during the course of tr… Show more

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Cited by 6 publications
(10 citation statements)
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“…If the microenvironment is incorporated, it is typically treated as a homogeneous medium. Some excellent overviews of such methods can be found in [7,13,29,30,34,54], and in our previous publications [16,59]. There are only a few mathematical models that deal with microenvironmental heterogeneity in the context of chemotherapy and drug resistance, using either agent-based approaches [42,52,53,61] or continuous equations [22,26,35,37].…”
Section: Discussionmentioning
confidence: 99%
“…If the microenvironment is incorporated, it is typically treated as a homogeneous medium. Some excellent overviews of such methods can be found in [7,13,29,30,34,54], and in our previous publications [16,59]. There are only a few mathematical models that deal with microenvironmental heterogeneity in the context of chemotherapy and drug resistance, using either agent-based approaches [42,52,53,61] or continuous equations [22,26,35,37].…”
Section: Discussionmentioning
confidence: 99%
“…For instance, nitrogen mustards can induce base substitutions and chromosomal rearrangements, topoisomerase II inhibitors can induce chromosomal translocations, and antimetabolites can induce double stranded breaks and chromosomal aberrations [73]. Such drug-induced genomic alterations would generally be non-reversible, and a handful of mathematical models have considered this type of drug-induced resistance [29,49,68,1,20]. Drug resistance can also be induced at the epigenetic level via DNA methylation and histone modification [62,65].…”
Section: Introductionmentioning
confidence: 99%
“…Cancer models have also been utilized to assess how various underlying mechanisms contribute to the resistant phenotype [80,13,59,18,20], and to calculate the probability that drug resistance emerges within a specified time frame, be it before or during cancer treatment [39,40,58,24,3,26,59]. The question of how frequently, and at what dose, a single cancer drug should be administered given the presence of (or risk of developing) resistant cells has also been explored through mathematical modeling [37,23,24,33,46,49,68,1,9]. When multiple drugs are available, mathematical models have been used to determine the drug schedule (number of drugs to use, dose, sequence, timing) that best controls tumor progression in spite of drug resistance [39,47,70,16,60,63,4,51,10].…”
Section: Introductionmentioning
confidence: 99%
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