A bibliography produced by Adam Curtis

Bibliography provided by Adam Curtis - by Author

Living nerve nets.

Breckenridge, L., Clark, P., Connolly, P., Curtis, A. S. G., and Dow, J. A. T. (1991). Signals from real neural networks. Proceedings of International Symposium on 'Basis for the future electronics technology' Oiso, Jappon pg 119-126.

Breckenridge, L., Clark, P., Connolly, P., Curtis, A. S. G., Dow, J. A. T., Wilson, R., Lind, R., and Wilkinson, C. D. W. (1992). Artificially induced nerve-cell patterning or real neural networks. In Peckerar M., editor, Synthetic microstructres in biological research, pg. 201-206. Plenum, New York.

Breckenridge, L. J., Wilson, R. J. A., Connolly, P., Curtis, A. S. G., Dow, J. A. T., Blackshaw, S. E., and Wilkinson, C. D. W. (1995). Advantages Of Using Microfabricated Extracellular Electrodes For In- Vitro Neuronal Recording. Journal Of Neuroscience Research 42:266-276.

Britland, S., Perridge, C., Denyer, M., Morgan, H., Curtis, A., and Wilkinson, C. (1996). Morphogenetic guidance cues can interact synergistically and hierarchically in steering nerve cell growth. Experimental Biology Online - EBO 1:2.

Connolly, P., Clark, P., Curtis, A., Dow, J., Lind, R., and Wilkinson, C. D. W. Biological impedance measurements. 1980. Univ. Glasgow.
Ref Type: Report

Connolly, P., Clark, P., Curtis, A., Dow, J., R., L., and Wilkinson, C. D. W. (1989). Extracellular electrodes for monitoring cell cultures. IOP Short Meetings Series NO 21(21):39-50.

Connolly, P., Clark, P., Curtis, A. S. G., Dow, J. A. T., and Lind, R. e. a. (1990). Extracellular microelectrodes and topographies for the creation of neural cell circuits. Towards the biochip - 9th Course of the Internl.Sch.Pure & Appl.Biostructure Ed. C. Nicolini pg 319-332.

Connolly, P., Clark, P., Curtis, A. S. G., Dow, J. A. T., and Wilkinson, C. D. W. (1990). An extracellular microelectrode array for monitoring electrogenic cells in culture. Biosensors & Bioelectronics 5:223-234.

Curtis, A., Quinn, R., and McGrath, M. (1996). Activation of neuron adhesion and neurite extension by tethered neurotrophins and adhesion molecules. Experimental Biology Online 1.

Curtis, A., Wilkinson, C., and Breckenridge, L. (1994). San Diego, Academic Press. Enabling technologies for cultured neural networks. T.M.McKenna., D. A. Stenger and. Ref Type: Serial (Book,Monograph) 99-120.

Denyer, M. C., Britland, S. T., Curtis, A. S. G., and Wilkinson, C. D. W. (1997). Patterning living neural networks on microfabricated microelectronic electrophysiological recording devices. Cell.Eng. 2:122-131.

Ternaux, J.-P., Wilson, R., Dow, J., Curtis, A. S. G., Clark, P., Portalier, P., and Moores, J. (1992). Dendritic processing - using microstructures to solve a hitherto intractable neurophysiological problem. Med.Biol.Eng.Computing 30:CE37-CE41.

Wilkinson, C. and Curtis, A. (1999). Networks of living cells. Physics World 12: 45-48.

Wilson, R. J. A., Breckenridge, L., Blackshaw, S. E., Connolly, P., Dow, J. A. T., Curtis, A. S. G., and Wilkinson, C. D. W. (1994). Simultaneous multisite recordings and stimulation of single isolated leech neurons using planar extracellular electrode arrays. J.of Neuroscience Methods 53:101-110.