Add to ORKGThesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2000.Includes bibliographical references.Controlling the spatial distribution of cells in two and three dimensions may be important in the design of advanced tissue engineering scaffolds and other biomedical applications. In this thesis, the concept of biophysical sorting was applied as a method to control the spatial distribution of cells. This approach relies on a self-assembly process that is dependent, in part, on the intrinsic adhesivity of cells. A model system was developed using a simple patterning technique to prepare surfaces with alternating regions that supported variable cell response. First, the influence of certain biophysical parameters tha...
Cell-substrate interactions play a crucial role in the design of better biomaterials and integration...
Self-propelled particles are used to simulate cell aggregates in a model considering homogeneous adh...
Cell behavior is influenced by a multitude of extracellular factors including chemistry, mechanics, ...
We develop simple onedimensional stochastic model of cell behavior on chemically patterned surfaces ...
Control of the position, growth and subsequent function of living cells is a fundamental problem in ...
The presence of micro and nano-domains on a surface allows the manipulation of two fundamental exter...
This thesis extends an existing cell population modelling framework to investigate two different hyp...
As a theoretical framework for understanding the self-assembly of living cells into tissues, Steinbe...
Micro-patterned surfaces are frequently used in high-throughput single-cell studies, as they allow o...
This work reports the design of and experimentation with a topographically patterned cell culture su...
Extracellular matrix assembly and composition influence the biological and mechanical functions of t...
Cell adhesion, spreading and migration require the dynamic formation and dispersal of contacts with ...
The strength of the interfacial interactions and the length scale over which these interactions occu...
Many biological processes, including tissue morphogenesis, are driven by cell sorting. However, the ...
Cell adhesion refers to the ability of cells to make enduring and dynamic attachments to extracellul...
Cell-substrate interactions play a crucial role in the design of better biomaterials and integration...
Self-propelled particles are used to simulate cell aggregates in a model considering homogeneous adh...
Cell behavior is influenced by a multitude of extracellular factors including chemistry, mechanics, ...
We develop simple onedimensional stochastic model of cell behavior on chemically patterned surfaces ...
Control of the position, growth and subsequent function of living cells is a fundamental problem in ...
The presence of micro and nano-domains on a surface allows the manipulation of two fundamental exter...
This thesis extends an existing cell population modelling framework to investigate two different hyp...
As a theoretical framework for understanding the self-assembly of living cells into tissues, Steinbe...
Micro-patterned surfaces are frequently used in high-throughput single-cell studies, as they allow o...
This work reports the design of and experimentation with a topographically patterned cell culture su...
Extracellular matrix assembly and composition influence the biological and mechanical functions of t...
Cell adhesion, spreading and migration require the dynamic formation and dispersal of contacts with ...
The strength of the interfacial interactions and the length scale over which these interactions occu...
Many biological processes, including tissue morphogenesis, are driven by cell sorting. However, the ...
Cell adhesion refers to the ability of cells to make enduring and dynamic attachments to extracellul...
Cell-substrate interactions play a crucial role in the design of better biomaterials and integration...
Self-propelled particles are used to simulate cell aggregates in a model considering homogeneous adh...
Cell behavior is influenced by a multitude of extracellular factors including chemistry, mechanics, ...