Number of items: 13.
2018
Silva Nigenda, E., Postma, T., Hezwani, M., Pirvan, A., Gannon, S., Smith, C.-A. , Riehle, M. and Liskamp, R. M.J.
(2018)
Synthesis and cellular penetration properties of new phosphonium based cationic amphiphilic peptides.
MedChemComm, 9(6),
pp. 982-987.
(doi: 10.1039/c8md00113h)
Casson, J., O'Kane, S., Smith, C.-A. , Dalby, M. J. and Berry, C. C.
(2018)
Interleukin 6 plays a role in the migration of magnetically levitated mesenchymal stem cells spheroids.
Applied Sciences, 8(3),
412.
(doi: 10.3390/app8030412)
Allan, C., Ker, A., Smith, C.-A. , Tsimbouri, P. , Borsoi, J., O'Neill, S., Gadegaard, N. , Dalby, M. J. and Meek, D.
(2018)
Osteoblast response to disordered nanotopography.
Journal of Tissue Engineering, 9,
pp. 1-7.
(doi: 10.1177/2041731418784098)
(PMID:30034770)
(PMCID:PMC6048666)
Casson, J., Davies, O. G., Smith, C.-A. , Dalby, M. J. and Berry, C. C.
(2018)
Mesenchymal stem cell-derived extracellular vesicles may promote breast cancer cell dormancy.
Journal of Tissue Engineering, 9,
p. 2041731418810093.
(doi: 10.1177/2041731418810093)
(PMID:30627418)
(PMCID:PMC6311537)
2017
Thomson, S. E., Charalambous, C., Smith, C.-A. , Tsimbouri, P. M. , Déjardin, T., Kingham, P. J., Hart, A. M. and Riehle, M. O.
(2017)
Microtopographical cues promote peripheral nerve regeneration via transient mTORC2 activation.
Acta Biomaterialia, 60,
pp. 220-231.
(doi: 10.1016/j.actbio.2017.07.031)
(PMID:28754648)
(PMCID:PMC5593812)
Donnelly, H., Smith, C.-A. , Sweeten, P. E., Gadegaard, N. , Meek, D., D'Este, M., Mata, A., Eglin, D. and Dalby, M. J.
(2017)
Bone and cartilage differentiation of a single stem cell population driven by material interface.
Journal of Tissue Engineering, 8,
pp. 1-10.
(doi: 10.1177/2041731417705615)
(PMID:28567273)
(PMCID:PMC5438107)
2016
Laing, S., Suriano, R., Lamprou, D. A., Smith, C.-A. , Dalby, M. J. , Mabbott, S., Faulds, K. and Graham, D.
(2016)
Thermoresponsive polymer micropatterns fabricated by dip-pen nanolithography for a Highly controllable substrate with potential cellular applications.
ACS Applied Materials and Interfaces, 8(37),
pp. 24844-24852.
(doi: 10.1021/acsami.6b03860)
(PMID:27572916)
Davison, M. J., McMurray, R. J., Smith, C.-A. , Dalby, M. and Meek, R.M. D.
(2016)
Nanopit-induced osteoprogenitor cell differentiation: the effect of nanopit death.
Journal of Tissue Engineering, 7,
pp. 1-8.
(doi: 10.1177/2041731416652778)
(PMID:27298716)
2014
Cassidy, J.W., Roberts, J.N. , Smith, C.-A. , Robertson, M., White, K., Biggs, M.J., Oreffo, R.O.C. and Dalby, M.J.
(2014)
Osteogenic lineage restriction by osteoprogenitors cultured on nanometric grooved surfaces – the role of focal adhesion maturation.
Acta Biomaterialia, 10(2),
pp. 651-660.
(doi: 10.1016/j.actbio.2013.11.008)
(PMID:24252447)
(PMCID:PMC3907683)
2013
Curtis, A. S.G., Reid, S., Martin, I. , Vaidyanathan, R., Smith, C.-A. , Nikukar, H. and Dalby, M. J.
(2013)
Cell interactions at the nanoscale: piezoelectric stimulation.
IEEE Transactions on NanoBioscience, 12(3),
pp. 247-254.
(doi: 10.1109/TNB.2013.2257837)
(PMID:23771395)
Chaudhary, S., Smith, C.-A. , del Pino, P., de la Fuente, J., Mullin, M., Hursthouse, A., Stirling, D. and Berry, C. C.
(2013)
Elucidating the function of penetratin and a static magnetic field in cellular uptake of magnetic nanoparticles.
Pharmaceuticals, 6(2),
pp. 204-222.
(doi: 10.3390/ph6020204)
(PMID:24275948)
(PMCID:PMC3816682)
2012
Dejardin, T., de la Fuente, J., del Pino, P., Furlani, E.P., Mullin, M., Smith, C.A. and Berry, C.C.
(2012)
Influence of both a static magnetic field and penetratin on magnetic nanoparticle delivery into fibroblasts.
Nanomedicine, 6(10),
pp. 1719-1731.
(doi: 10.2217/nnm.11.65)
2010
Smith, C.-A.M. , de la Fuente, J., Pelaz, B., Furlani, E.P., Mullin, M. and Berry, C.C.
(2010)
The effect of static magnetic fields and tat peptides on cellular and nuclear uptake of magnetic nanoparticles.
Biomaterials, 31(15),
pp. 4392-4400.
(doi: 10.1016/j.biomaterials.2010.01.096)
This list was generated on Thu Sep 28 14:32:50 2023 BST.