Malm, J., Giannaras, D., Riehle, M.O., Gadegaard, N., Sjovall, P.
Time-of-flight secondary ion mass spectrometry (TOF-SIMS) is a promising tool for subcellular chemical analysis of biological cells. However, to obtain relevant information, the method used for...
Rossi, L., Riehle, M.O., McNamara, L.E., Burchmore, R.J.S., Dalby, M.J., McMurray, R.J., ...
Abstract not available
Fluorescence two-dimensional difference gel electrophoresis for biomaterial applications (2009)
McNamara, L.E., Dalby, M.J., Riehle, M.O., Burchmore, R.J.S.
Fluorescence two-dimensional difference gel electrophoresis (DiGE) is rapidly becoming established as a powerful technique for the characterization of differences in protein expression levels between...
Cortese, B., Gigli, G., Riehle, M.O.
A novel method for the fabrication and the use of simple uniform poly(dimethylsiloxane) PDMS substrates for controlling cell motility by a mechanical gradient is reported. The substrate is fabricated...
Dalby, M.J., McNamara, L.E., Riehle, M.O., Burchmore, R.J.S., Kuntanawat, P., McMurray, R.J., ...
No abstract available.
Dalby, M.J., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
The environment around a cell during in vitro culture is unlikely to mimic those in vivo. Preliminary experiments with nanotopography have shown that nanoscale features can strongly influence cell...
Tubes with controllable internal nanotopography (2004)
Gadegaard, N., Dalby, M.J., Riehle, M.O., Curtis, A.S.G., Affrossman, S.
No abstract available.
Dalby, M.J., Gadegaard, N., Riehle, M.O., Wilkinson, C.D.W., Curtis, A.S.G.
In order for cells to react to topography, they must be able to sense shape. When considering nano-topography, these shapes are much smaller than the cell, but still strong responses to...
Dalby, M.J., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
In designing new biomaterials, specific chemical and topographical cues will be important in guiding cell response. Filopodia are actin-driven structures produced by cells and speculated to be...
Dalby, M.J., Berry, C.C., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
Control of the cells' nanoenvironment is likely to be important in the future of cell and tissue engineering. Microtopography has been shown to provide cues to cells that elicit a large range of cell...
Cells react to nanoscale order and symmetry in their surroundings (2004)
Curtis, A.S.G., Gadegaard, N., Dalby, M.J., Riehle, M.O., Wilkinson, C.D.W., Aitchison, G.
Mammalian cells react to microstructured surfaces, but there is little information on the reactions to nanostructured surfaces, and such as have been tested are poorly ordered or random in their...
Fibroblast response to a controlled nanoenvironment produced by colloidal lithography (2004)
Dalby, M.J., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
It is thought that by understanding how cells respond to topography, that better tissue engineering may be achievable. An important consideration in the cellular environment is topography. The...
Rapid fibroblast adhesion to 27 nm high polymer demixed nano-topography (2004)
Dalby, M.J., Giannaras, D., Riehle, M.O., Gadegaard, N., Affrossman, S., Curtis, A.S.G.
It is well known that many cell types react strongly to micro-topography. It is rapidly becoming clear than cells will also react to nano-topography. Polymer demixing is a rapid and low-cost chemical...
Use of nanotopography to study mechanotransduction in fibroblasts – methods and perspectives (2004)
Dalby, M.J., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
The environment around a cell during in vitro culture is unlikely to mimic those in vivo. Preliminary experiments with nanotopography have shown that nanoscale features can strongly influence cell...
Dalby, M.J., Riehle, M.O., Johnstone, H., Affrossman, S., Curtis, A.S.G.
Having the ability to control cell behaviour would be of great advantage in tissue engineering. One method of gaining control over cell adhesion, proliferation, guidance and differentiation is use of...
Dalby, M.J., Riehle, M.O., Johnstone, H.J.H., Affrossman, S., Curtis, A.S.G.
It is becoming clear that cells do not only respond to micrometric scale topography, but may also respond to topography at the nanometric scale. Nano-fabrication methods such as electron beam...
Nucleus alignment and cell signaling in fibroblasts: response to a micro-grooved topography (2003)
Dalby, M.J., Riehle, M.O., Yarwood, S.J., Wilkinson, C.D.W., Curtis, A.S.G.
Cellular response to scaffold materials is of great importance in cellular and tissue engineering, and it is perhaps the initial cell contact with the scaffold that determines development of new...
Cells react to nanoscale order and symmetry in their surroundings
Curtis, A.S.G., Gadegaard, N., Dalby, M.J., Riehle, M.O., Wilkinson, C.D.W., Aitchison, G.
Mammalian cells react to microstructured surfaces, but there is little information on the reactions to nanostructured surfaces, and such as have been tested are poorly ordered or random in their...
Use of nanotopography to study mechanotransduction in fibroblasts – methods and perspectives
Dalby, M.J., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
The environment around a cell during in vitro culture is unlikely to mimic those in vivo. Preliminary experiments with nanotopography have shown that nanoscale features can strongly influence cell...
Nucleus alignment and cell signaling in fibroblasts: response to a micro-grooved topography
Dalby, M.J., Riehle, M.O., Yarwood, S.J., Wilkinson, C.D.W., Curtis, A.S.G.
Cellular response to scaffold materials is of great importance in cellular and tissue engineering, and it is perhaps the initial cell contact with the scaffold that determines development of new...
Attempted endocytosis of nano-environment produced by colloidal lithography by human fibroblasts
Dalby, M.J., Berry, C.C., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
Control of the cells' nanoenvironment is likely to be important in the future of cell and tissue engineering. Microtopography has been shown to provide cues to cells that elicit a large range of cell...
Dalby, M.J., Riehle, M.O., Johnstone, H., Affrossman, S., Curtis, A.S.G.
Having the ability to control cell behaviour would be of great advantage in tissue engineering. One method of gaining control over cell adhesion, proliferation, guidance and differentiation is use of...
Tubes with controllable internal nanotopography
Gadegaard, N., Dalby, M.J., Riehle, M.O., Curtis, A.S.G., Affrossman, S.
No abstract available.
Investigating filopodia sensing using arrays of defined nano-pits down to 35 nm diameter in size
Dalby, M.J., Gadegaard, N., Riehle, M.O., Wilkinson, C.D.W., Curtis, A.S.G.
In order for cells to react to topography, they must be able to sense shape. When considering nano-topography, these shapes are much smaller than the cell, but still strong responses to...
Dalby, M.J., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
The environment around a cell during in vitro culture is unlikely to mimic those in vivo. Preliminary experiments with nanotopography have shown that nanoscale features can strongly influence cell...
Changes in fibroblast morphology in response to nano-columns produced by colloidal lithography
Dalby, M.J., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
In designing new biomaterials, specific chemical and topographical cues will be important in guiding cell response. Filopodia are actin-driven structures produced by cells and speculated to be...
Fibroblast response to a controlled nanoenvironment produced by colloidal lithography
Dalby, M.J., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
It is thought that by understanding how cells respond to topography, that better tissue engineering may be achievable. An important consideration in the cellular environment is topography. The...
Dalby, M.J., Riehle, M.O., Johnstone, H.J.H., Affrossman, S., Curtis, A.S.G.
It is becoming clear that cells do not only respond to micrometric scale topography, but may also respond to topography at the nanometric scale. Nano-fabrication methods such as electron beam...
Rapid fibroblast adhesion to 27 nm high polymer demixed nano-topography
Dalby, M.J., Giannaras, D., Riehle, M.O., Gadegaard, N., Affrossman, S., Curtis, A.S.G.
It is well known that many cell types react strongly to micro-topography. It is rapidly becoming clear than cells will also react to nano-topography. Polymer demixing is a rapid and low-cost chemical...
Cells react to nanoscale order and symmetry in their surroundings
Curtis, A.S.G., Gadegaard, N., Dalby, M.J., Riehle, M.O., Wilkinson, C.D.W., Aitchison, G.
Mammalian cells react to microstructured surfaces, but there is little information on the reactions to nanostructured surfaces, and such as have been tested are poorly ordered or random in their...
Nucleus alignment and cell signaling in fibroblasts: response to a micro-grooved topography
Dalby, M.J., Riehle, M.O., Yarwood, S.J., Wilkinson, C.D.W., Curtis, A.S.G.
Cellular response to scaffold materials is of great importance in cellular and tissue engineering, and it is perhaps the initial cell contact with the scaffold that determines development of new...
Use of nanotopography to study mechanotransduction in fibroblasts – methods and perspectives
Dalby, M.J., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
The environment around a cell during in vitro culture is unlikely to mimic those in vivo. Preliminary experiments with nanotopography have shown that nanoscale features can strongly influence cell...
Attempted endocytosis of nano-environment produced by colloidal lithography by human fibroblasts
Dalby, M.J., Berry, C.C., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
Control of the cells' nanoenvironment is likely to be important in the future of cell and tissue engineering. Microtopography has been shown to provide cues to cells that elicit a large range of cell...
Dalby, M.J., Riehle, M.O., Johnstone, H., Affrossman, S., Curtis, A.S.G.
Having the ability to control cell behaviour would be of great advantage in tissue engineering. One method of gaining control over cell adhesion, proliferation, guidance and differentiation is use of...
Tubes with controllable internal nanotopography
Gadegaard, N., Dalby, M.J., Riehle, M.O., Curtis, A.S.G., Affrossman, S.
No abstract available.
Investigating filopodia sensing using arrays of defined nano-pits down to 35 nm diameter in size
Dalby, M.J., Gadegaard, N., Riehle, M.O., Wilkinson, C.D.W., Curtis, A.S.G.
In order for cells to react to topography, they must be able to sense shape. When considering nano-topography, these shapes are much smaller than the cell, but still strong responses to...
Changes in fibroblast morphology in response to nano-columns produced by colloidal lithography
Dalby, M.J., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
In designing new biomaterials, specific chemical and topographical cues will be important in guiding cell response. Filopodia are actin-driven structures produced by cells and speculated to be...
Fibroblast response to a controlled nanoenvironment produced by colloidal lithography
Dalby, M.J., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
It is thought that by understanding how cells respond to topography, that better tissue engineering may be achievable. An important consideration in the cellular environment is topography. The...
Dalby, M.J., Riehle, M.O., Johnstone, H.J.H., Affrossman, S., Curtis, A.S.G.
It is becoming clear that cells do not only respond to micrometric scale topography, but may also respond to topography at the nanometric scale. Nano-fabrication methods such as electron beam...
Rapid fibroblast adhesion to 27 nm high polymer demixed nano-topography
Dalby, M.J., Giannaras, D., Riehle, M.O., Gadegaard, N., Affrossman, S., Curtis, A.S.G.
It is well known that many cell types react strongly to micro-topography. It is rapidly becoming clear than cells will also react to nano-topography. Polymer demixing is a rapid and low-cost chemical...
Dalby, M.J., Riehle, M.O., Sutherland, D.S., Agheli, H., Curtis, A.S.G.
The environment around a cell during in vitro culture is unlikely to mimic those in vivo. Preliminary experiments with nanotopography have shown that nanoscale features can strongly influence cell...