Min-Ho Kim Lab:Research: Difference between revisions
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<h3>Research goal</h3> | <h3>Research goal</h3> | ||
<font size=3>The research goal of our laboratory is to (1) understand the molecular and cellular mechanisms by which local inflammatory environmental cues alter phenotypic switch of tissue infiltrating innate immune cells and these cells functionally interact with endogenous or exogenously implanted mesenchymal stem cells (MSCs), and (2) develop selective strategy to engineer microenvironmental cues towards tissue regeneration by utilizing micro/nano-engineered biomaterials that enable spatio-temporal control inflammatory response. To achieve this goal, we combine interdisciplinary approaches of immuno-biology, stem cell biology, cellular and tissue engineering, and nano-bioengineering.</font> | <font size=3>The research goal of our laboratory is to (1) understand the molecular and cellular mechanisms by which local inflammatory environmental cues alter phenotypic switch of tissue infiltrating innate immune cells and these cells functionally interact with endogenous or exogenously implanted mesenchymal stem cells (MSCs), and (2) develop selective strategy to engineer microenvironmental cues towards tissue regeneration by utilizing micro/nano-engineered biomaterials that enable spatio-temporal control of inflammatory response. To achieve this goal, we combine interdisciplinary approaches of immuno-biology, stem cell biology, cellular and tissue engineering, and nano-bioengineering.</font> | ||
Revision as of 06:43, 19 June 2013
Research goalThe research goal of our laboratory is to (1) understand the molecular and cellular mechanisms by which local inflammatory environmental cues alter phenotypic switch of tissue infiltrating innate immune cells and these cells functionally interact with endogenous or exogenously implanted mesenchymal stem cells (MSCs), and (2) develop selective strategy to engineer microenvironmental cues towards tissue regeneration by utilizing micro/nano-engineered biomaterials that enable spatio-temporal control of inflammatory response. To achieve this goal, we combine interdisciplinary approaches of immuno-biology, stem cell biology, cellular and tissue engineering, and nano-bioengineering. |
Current Research Projects
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Research Collaborators
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Research Support
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