Oxygen-releasing biomaterials: current challenges and future applications
Oxygen is essential for the survival, function, and fate of mammalian cells. Oxygen tension
controls cellular behaviour via metabolic programming, which in turn controls tissue …
controls cellular behaviour via metabolic programming, which in turn controls tissue …
Oxygen-Releasing Biomaterials: Current Challenges and Future Applications.
NGA Willemen, S Hassan, M Gurian, J Li… - Trends in …, 2021 - europepmc.org
Oxygen is essential for the survival, function, and fate of mammalian cells. Oxygen tension
controls cellular behaviour via metabolic programming, which in turn controls tissue …
controls cellular behaviour via metabolic programming, which in turn controls tissue …
[PDF][PDF] Oxygen-Releasing Biomaterials: Current Challenges and Future Applications
NGA Willemen, S Hassan, M Gurian, J Li, IE Allijn… - 2021 - ris.utwente.nl
Oxygen is essential for the survival, function, and fate of mammalian cells. Oxygen tension
controls cellular behaviour via metabolic programming, which in turn controls tissue …
controls cellular behaviour via metabolic programming, which in turn controls tissue …
Oxygen-Releasing Biomaterials: Current Challenges and Future Applications
NGA Willemen, S Hassan, M Gurian, J Li, IE Allijn… - Trends in …, 2021 - Elsevier
HighlightsOxygen tension is a crucial factor in many diseases, and gaining control over local
partial pressure of oxygen (pO 2) using oxygen-releasing materials can have a significant …
partial pressure of oxygen (pO 2) using oxygen-releasing materials can have a significant …
[HTML][HTML] Oxygen-Releasing Biomaterials: Current Challenges and Future Applications
NGA Willemen, S Hassan, M Gurian, J Li… - Trends in …, 2021 - ncbi.nlm.nih.gov
Oxygen is essential for the survival, function, and fate of mammalian cells. Oxygen tension
controls cellular behaviour via metabolic programming, which in turn controls tissue …
controls cellular behaviour via metabolic programming, which in turn controls tissue …
Oxygen-Releasing Biomaterials: Current Challenges and Future Applications
NGA Willemen, S Hassan, M Gurian… - Trends in …, 2021 - pubmed.ncbi.nlm.nih.gov
Oxygen is essential for the survival, function, and fate of mammalian cells. Oxygen tension
controls cellular behaviour via metabolic programming, which in turn controls tissue …
controls cellular behaviour via metabolic programming, which in turn controls tissue …
Oxygen-Releasing Biomaterials: Current Challenges and Future Applications
NGA Willemen, S Hassan, M Gurian, J Li… - Trends in …, 2021 - research.utwente.nl
Oxygen is essential for the survival, function, and fate of mammalian cells. Oxygen tension
controls cellular behaviour via metabolic programming, which in turn controls tissue …
controls cellular behaviour via metabolic programming, which in turn controls tissue …
[引用][C] Oxygen-Releasing Biomaterials: Current Challenges and Future Applications
NGA Willemen, S Hassan, M Gurian, J Li, IE Allijn… - Trends …, 2021 - europepmc.org
Oxygen is essential for the survival, function, and fate of mammalian cells. Oxygen tension
controls cellular behaviour via metabolic programming, which in turn controls tissue …
controls cellular behaviour via metabolic programming, which in turn controls tissue …
[PDF][PDF] Oxygen-Releasing Biomaterials: Current Challenges and Future Applications
NGA Willemen, S Hassan, M Gurian, J Li, IE Allijn… - 2021 - ris.utwente.nl
Oxygen is essential for the survival, function, and fate of mammalian cells. Oxygen tension
controls cellular behaviour via metabolic programming, which in turn controls tissue …
controls cellular behaviour via metabolic programming, which in turn controls tissue …