Suggs Lab: Difference between revisions
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Our lab is primarily interested in the development of biologically active materials and their use and behavior in cardiovascular tissue engineering. It is important to understand molecular and cellular mechanisms during processes such as vasculogenesis as well as the structure of both natural and synthetic polymers and their effect on living tissues. With this fundamental knowledge base, biomaterials can be designed to mimic naturally occurring structures found in the supporting extracellular matrix. | Our lab is primarily interested in the development of biologically active materials | ||
and their use and behavior in cardiovascular tissue engineering. It is important to | |||
We utilize a number of techniques including polymer synthesis and characterization using traditional wet chemistry techniques as well as various biochemical analysis techniques. We culture bone marrow stem cells and evaluate differentiated phenotype and function using immunohistochemistry and PCR. Our lab is also working on developing in vitro models of vascularization based on coronary vessel development during embryogenesis. | understand molecular and cellular mechanisms during processes such as vasculogenesis | ||
as well as the structure of both natural and synthetic polymers and their effect on | |||
living tissues. With this fundamental knowledge base, biomaterials can be designed | |||
to mimic naturally occurring structures found in the supporting extracellular matrix.<br> | |||
We utilize a number of techniques including polymer synthesis and characterization | |||
using traditional wet chemistry techniques as well as various biochemical analysis | |||
techniques. We culture bone marrow stem cells and evaluate differentiated phenotype | |||
and function using immunohistochemistry and PCR. Our lab is also working on developing | |||
in vitro models of vascularization based on coronary vessel development during | |||
embryogenesis. | |||
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Revision as of 20:56, 8 September 2005
Our lab is primarily interested in the development of biologically active materials and their use and behavior in cardiovascular tissue engineering. It is important to understand molecular and cellular mechanisms during processes such as vasculogenesis as well as the structure of both natural and synthetic polymers and their effect on living tissues. With this fundamental knowledge base, biomaterials can be designed to mimic naturally occurring structures found in the supporting extracellular matrix.
We utilize a number of techniques including polymer synthesis and characterization using traditional wet chemistry techniques as well as various biochemical analysis techniques. We culture bone marrow stem cells and evaluate differentiated phenotype and function using immunohistochemistry and PCR. Our lab is also working on developing in vitro models of vascularization based on coronary vessel development during embryogenesis.
Lab Members• Laura Suggs |
Contact UsThe University of Texas at Austin Office: CPE 1.110 |
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