Mathematical modeling and computational biology have been used to understand, describe, and predict critical behaviors of cancer progression. Recent technological advancements in the acquisition of single cell resolution data by high-throughput micrographic imaging and by single cell genomics now enable new analyses of cancer cells at the individual cell and cell population levels. This dissertation focuses on the development of math modeling frameworks capable of integrating and improving our utilization of these novel data types. First, we investigate the relevance of deviations from the conventional exponential growth model via an ecological principle known as the Allee effect, in which cancer cells exhibit cooperative growth dynamics at...
This thesis seeks to use mathematical and computational models to develop measures of clinically ava...
Cancers arise as a result of genetic and epigenetic alterations. These accumulate in cells during th...
A key area of interest in cancer research is understanding tumor dynamics, so that tumor growth can ...
Mathematical modeling and computational biology have been used to understand, describe, and predict ...
Most models of cancer cell population expansion assume exponential growth kinetics at low cell densi...
Tumour fitness landscapes underpin selection in cancer, impacting evolution and response to treatmen...
Most models of cancer assume that tumor cells populations, at low densities, grow exponentially to b...
University of Minnesota Ph.D. dissertation June 2018. Major: Mathematics. Advisor: Jasmine Foo. 1 co...
Background: Frequently occurring in cancer are the aberrant alterations of regulatory onco-metabolit...
Cancer as a disease causes about 8.8 million deaths worldwide per year, a number that will largely i...
Predicting patient responses to chemotherapy regimens is a major challenge in cancer treatment. Expe...
OBJECTIVE: Evolution of resistance allows cancer cells to adapt and continue proliferating even whe...
Cancer is one of the major causes of death in the world (particularly the developed world), with aro...
textTechnological advances in the recent decades have enabled cancer researchers to probe the diseas...
Mathematical models, that depict the dynamics of a cancer cell population growing out of the human b...
This thesis seeks to use mathematical and computational models to develop measures of clinically ava...
Cancers arise as a result of genetic and epigenetic alterations. These accumulate in cells during th...
A key area of interest in cancer research is understanding tumor dynamics, so that tumor growth can ...
Mathematical modeling and computational biology have been used to understand, describe, and predict ...
Most models of cancer cell population expansion assume exponential growth kinetics at low cell densi...
Tumour fitness landscapes underpin selection in cancer, impacting evolution and response to treatmen...
Most models of cancer assume that tumor cells populations, at low densities, grow exponentially to b...
University of Minnesota Ph.D. dissertation June 2018. Major: Mathematics. Advisor: Jasmine Foo. 1 co...
Background: Frequently occurring in cancer are the aberrant alterations of regulatory onco-metabolit...
Cancer as a disease causes about 8.8 million deaths worldwide per year, a number that will largely i...
Predicting patient responses to chemotherapy regimens is a major challenge in cancer treatment. Expe...
OBJECTIVE: Evolution of resistance allows cancer cells to adapt and continue proliferating even whe...
Cancer is one of the major causes of death in the world (particularly the developed world), with aro...
textTechnological advances in the recent decades have enabled cancer researchers to probe the diseas...
Mathematical models, that depict the dynamics of a cancer cell population growing out of the human b...
This thesis seeks to use mathematical and computational models to develop measures of clinically ava...
Cancers arise as a result of genetic and epigenetic alterations. These accumulate in cells during th...
A key area of interest in cancer research is understanding tumor dynamics, so that tumor growth can ...