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Group by: Date | Item Type | Keywords | Funder's Name | No Grouping
Biotechnology and Biological Sciences Research Council (BBSRC) Engineering and Physical Sciences Research Council (EPSRC) Royal College of Surgeons of Edinburgh (RCSED)
Number of items: 5.

Biotechnology and Biological Sciences Research Council (BBSRC)

Lee, L., Gadegaard, N. , Andrés, M. C. d., Turner, L.-A., Burgess, K., Yarwood, S., Wells, J., Mpoyi, E., Salmerón-Sánchez, M., Meek, R. D., Oreffo, R. and Dalby, M. (2016) Nanotopography controls cell cycle changes involved with skeletal stem cell self-renewal and multipotency. [Data Collection] (Unpublished)

Lee, L., Gadegaard, N. , Andrés, M. C. d., Turner, L.-A., Burgess, K., Yarwood, S., Wells, J., Mpoyi, E., Salmerón-Sánchez, M., Meek, R. D., Oreffo, R. and Dalby, M. (2016) Nanotopography controls cell cycle changes involved with skeletal stem cell self-renewal and multipotency. [Data Collection] (Unpublished)

Lee, L., Gadegaard, N. , Andrés, M. C. d., Turner, L.-A., Burgess, K., Yarwood, S., Wells, J., Mpoyi, E., Salmerón-Sánchez, M., Meek, R. D., Oreffo, R. and Dalby, M. (2016) Nanotopography controls cell cycle changes involved with skeletal stem cell self-renewal and multipotency. [Data Collection] (Unpublished)

Engineering and Physical Sciences Research Council (EPSRC)

Kennedy, J., Tsimbouri, M. , Campsie, P., Sood, S., Childs, P., Reid, S., Young, P., Meek, D., Goodyear, C. and Dalby, M. (2021) Nanovibrational stimulation inhibits osteoclastogenesis and enhances osteogenesis in co-cultures. [Data Collection]

Royal College of Surgeons of Edinburgh (RCSED)

Kennedy, J., Tsimbouri, M. , Campsie, P., Sood, S., Childs, P., Reid, S., Young, P., Meek, D., Goodyear, C. and Dalby, M. (2021) Nanovibrational stimulation inhibits osteoclastogenesis and enhances osteogenesis in co-cultures. [Data Collection]

This list was generated on Wed Apr 24 04:39:00 2024 BST.