Add to ORKGStem cells have a great potential to bring about advancements in fields like developmental biology, drug discovery, cancer biology and tissue engineering. In order to be able to use stem cells to their full potential, it is important to have control over their behavior. In vivo cellular fate processes are controlled by the microenvironment around them and the many different factors in it. Cells communicate with their surrounding environment and shape it actively via cell-cell, cell-matrix and cell-liquid interactions. These interactions often happen on the cellular and subcellular length scale in defined time dependent sequences. Consequently, it is important to have systems that can provide different molecular cues with a high spatial and ...
Many cellular characteristics such as cell attachment, migration, morphology and proliferation are a...
Microfluidics, the science of engineering fluid streams at the micrometer scale, offers unique tools...
Cell migration is a cellular fate process essential for embryogenesis, tissue regeneration and wound...
Stem cells have a great potential to bring about advancements in fields like developmental biology, ...
Microfluidics has shown promise in mimicking a cellular environment that is more physiologically rel...
ii Cellular behavior is dependent on a variety of extracellular cues required for normal tissue func...
Conventional culture systems are often limited in their ability to regulate the growth and different...
The properties of a cell\u27s microenvironment are one of the main driving forces in cellular fate p...
The effects of gradients of bioactive molecules on the cell microenvironment are crucial in several ...
The effects of gradients of bioactive molecules on the cell microenvironment are crucial in several ...
Cellular behavior is dependent on a variety of extracellular cues required for normal tissue functio...
For better translation from basic science to everyday clinical practice, biomedical research must at...
Elucidating molecular processes that govern cell function is paramount in forming a basis for unders...
University of Minnesota Ph.D. dissertation.August 2016. Major: Chemistry. Advisor: Christy Haynes. ...
Microfluidics, the science of engineering fluid streams at the micrometer scale, offers unique tools...
Many cellular characteristics such as cell attachment, migration, morphology and proliferation are a...
Microfluidics, the science of engineering fluid streams at the micrometer scale, offers unique tools...
Cell migration is a cellular fate process essential for embryogenesis, tissue regeneration and wound...
Stem cells have a great potential to bring about advancements in fields like developmental biology, ...
Microfluidics has shown promise in mimicking a cellular environment that is more physiologically rel...
ii Cellular behavior is dependent on a variety of extracellular cues required for normal tissue func...
Conventional culture systems are often limited in their ability to regulate the growth and different...
The properties of a cell\u27s microenvironment are one of the main driving forces in cellular fate p...
The effects of gradients of bioactive molecules on the cell microenvironment are crucial in several ...
The effects of gradients of bioactive molecules on the cell microenvironment are crucial in several ...
Cellular behavior is dependent on a variety of extracellular cues required for normal tissue functio...
For better translation from basic science to everyday clinical practice, biomedical research must at...
Elucidating molecular processes that govern cell function is paramount in forming a basis for unders...
University of Minnesota Ph.D. dissertation.August 2016. Major: Chemistry. Advisor: Christy Haynes. ...
Microfluidics, the science of engineering fluid streams at the micrometer scale, offers unique tools...
Many cellular characteristics such as cell attachment, migration, morphology and proliferation are a...
Microfluidics, the science of engineering fluid streams at the micrometer scale, offers unique tools...
Cell migration is a cellular fate process essential for embryogenesis, tissue regeneration and wound...