Add to ORKGThis dissertation explores the distribution of [tau]k , the first time for some cell to accumulate k mutations, under two different multistage models for cancer growth. The first model considers a freely mixing, exponentially growing cell population, while the second model considers a spatially fixed cell population of constant size. The first model is inspired by previous work of Iwasa, Nowak, and Michor (2006), and Haeno, Iwasa, and Michor (2007). We consider an exponentially growing population of cancerous cells that will evolve resistance to treatment after one mutation, or display a disease phenotype after two or more mutations. We use multi-type branching processes to prove results about [tau]k and about the growth of the number of ty...
Tumorigenesis has been described as a multistep process, where each step is associated with a geneti...
There is a growing appreciation for the insight mathematical models can yield on biological systems...
Cancer is a complex disease and thus is complicated to model. However, simple models that describe t...
In this chapter, we will use multitype branching processes with mutation to model cancer. With cance...
Abstract: We consider a spatial model of cancer in which cells are points on the d-dimensional ...
We study the accumulation of mutations in a spatial Moran model on a torus in Zd in which each cell ...
Stochastic models of mutation accumulation in exponentially growing cellular populations are widely ...
Cancer is currently viewed as an evolutionary process. In an organ there is a population of cells th...
Stochastic models of sequential mutation acquisition are widely used to quantify cancer and bacteria...
Motivated by models of cancer formation in which cells need to acquire $k$ mutations to become cance...
In this chapter, we use continuous time multi-type branching processes to model various aspects of c...
One of the hallmarks of cancer is the accumulation of driver mutations which increase the net reprod...
Motivation: Cancer is well known to be the end result of somatic mutations that disrupt normal cell ...
Cancer progression is an evolutionary process driven by mutation and selection in a population of tu...
Motivation: Cancer is well-known to be the end result of somatic mutations that disrupt normal cell ...
Tumorigenesis has been described as a multistep process, where each step is associated with a geneti...
There is a growing appreciation for the insight mathematical models can yield on biological systems...
Cancer is a complex disease and thus is complicated to model. However, simple models that describe t...
In this chapter, we will use multitype branching processes with mutation to model cancer. With cance...
Abstract: We consider a spatial model of cancer in which cells are points on the d-dimensional ...
We study the accumulation of mutations in a spatial Moran model on a torus in Zd in which each cell ...
Stochastic models of mutation accumulation in exponentially growing cellular populations are widely ...
Cancer is currently viewed as an evolutionary process. In an organ there is a population of cells th...
Stochastic models of sequential mutation acquisition are widely used to quantify cancer and bacteria...
Motivated by models of cancer formation in which cells need to acquire $k$ mutations to become cance...
In this chapter, we use continuous time multi-type branching processes to model various aspects of c...
One of the hallmarks of cancer is the accumulation of driver mutations which increase the net reprod...
Motivation: Cancer is well known to be the end result of somatic mutations that disrupt normal cell ...
Cancer progression is an evolutionary process driven by mutation and selection in a population of tu...
Motivation: Cancer is well-known to be the end result of somatic mutations that disrupt normal cell ...
Tumorigenesis has been described as a multistep process, where each step is associated with a geneti...
There is a growing appreciation for the insight mathematical models can yield on biological systems...
Cancer is a complex disease and thus is complicated to model. However, simple models that describe t...