[HTML][HTML] Nature-inspired topographies on hydroxyapatite surfaces regulate stem cells behaviour
Surface topography is one of the key factors in regulating interactions between materials
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
Nature-inspired topographies on hydroxyapatite surfaces regulate stem cells behaviour.
Y Ramaswamy, I Roohani, YJ No, G Madafiglio… - Bioactive …, 2020 - europepmc.org
Surface topography is one of the key factors in regulating interactions between materials
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
[PDF][PDF] Nature-inspired topographies on hydroxyapatite surfaces regulate stem cells behaviour
Y Ramaswamy, I Roohani, YJ No, G Madafiglio… - Bioactive …, 2021 - researchgate.net
Surface topography is one of the key factors in regulating interactions between materials
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
Nature-inspired topographies on hydroxyapatite surfaces regulate stem cells behaviour
Y Ramaswamy, I Roohani, YJ No, G Madafiglio… - 2021 - agris.fao.org
Surface topography is one of the key factors in regulating interactions between materials
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
Nature-inspired topographies on hydroxyapatite surfaces regulate stem cells behaviour
Y Ramaswamy, I Roohani, YJ No… - Bioactive …, 2020 - pubmed.ncbi.nlm.nih.gov
Surface topography is one of the key factors in regulating interactions between materials
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
[HTML][HTML] Nature-inspired topographies on hydroxyapatite surfaces regulate stem cells behaviour
Y Ramaswamy, I Roohani, YJ No, G Madafiglio… - Bioactive …, 2021 - ncbi.nlm.nih.gov
Surface topography is one of the key factors in regulating interactions between materials
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
Nature-inspired topographies on hydroxyapatite surfaces regulate stem cells behaviour.
Y Ramaswamy, I Roohani, YJ No, G Madafiglio… - Bioactive …, 2020 - europepmc.org
Surface topography is one of the key factors in regulating interactions between materials
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …
and cells. While topographies presented to cells in vivo are non-symmetrical and in complex …