Difference between revisions of "Luo Lab:Research"

From OpenWetWare
Jump to: navigation, search
Line 9: Line 9:
 
events have been rather limited.  By integrating our knowledge in material science and  
 
events have been rather limited.  By integrating our knowledge in material science and  
 
engineering, microfabrication and biology, our research is aimed at generating engineered  
 
engineering, microfabrication and biology, our research is aimed at generating engineered  
extracellular microenvironment for understanding and controlling cell behavior.  Experiments are
+
extracellular microenvironment for understanding and controlling cell behavior.  Experiments  
designed to facilitate the analysis and identification of essential extracellular cues, which can be further applied to 2-D and 3-D artificial systems to monitor, trigger or modulate biological processes.  On one application front, our materials and devices are geared toward controlling stem cell fate and directing stem cell differentiation for use of regenerative medicine. On another application front, it is our interest to build targeted and triggerable delivery systems for therapeutic compounds/cells to improve treatment outcomes.  
+
are designed to facilitate the analysis and identification of essential extracellular cues,  
 +
which can be further applied to 2-D and 3-D artificial systems to monitor, trigger or modulate
 +
biological processes.  On one application front, our materials and devices are geared toward  
 +
controlling stem cell fate and directing stem cell differentiation for use of regenerative  
 +
medicine. On another application front, it is our interest to build targeted and triggerable  
 +
delivery systems for therapeutic compounds/cells to improve treatment outcomes.  
  
 
</pre>
 
</pre>

Revision as of 09:20, 13 August 2007

LUOLAB.png

Home        Research        People        Publications        Internal        Contact       


About

Interactions between cells and extracellular matrix (ECM) play pivotal roles in directing 
cellular and tissue functions.  However, due to the ultra complexity of biological systems, 
our current understanding of cell-ECM processes and our capability to control the relevant 
events have been rather limited.  By integrating our knowledge in material science and 
engineering, microfabrication and biology, our research is aimed at generating engineered 
extracellular microenvironment for understanding and controlling cell behavior.  Experiments 
are designed to facilitate the analysis and identification of essential extracellular cues, 
which can be further applied to 2-D and 3-D artificial systems to monitor, trigger or modulate
biological processes.  On one application front, our materials and devices are geared toward 
controlling stem cell fate and directing stem cell differentiation for use of regenerative 
medicine. On another application front, it is our interest to build targeted and triggerable 
delivery systems for therapeutic compounds/cells to improve treatment outcomes. 

Projects

Please stay tuned!