Biomedical Engineering Reference
In-Depth Information
50. Freire, E., Gomes, F. C. A., Linden, R., Neto, V. M., and Coelho-Sampaio, T. (2002)
Structure of laminin substrate modulates cellular signaling for neuritogenesis,
J. Cell Sci.
,
115
, 4867.
51. Stuart, G. J., and Sakmann, B. (1994) Active propagation of somatic action
potentials into neocortical pyramidal cell dendrites,
Nature
,
367
, 69.
52. Yeh, S.-R., Chen, Y.-C., Su, H.-C., Yew, T.-R., Kao, H.-H., Lee, Y.-T., Liu, T.-A., Chen,
H., Chang, Y.-C., Chang, P., and Chen, H. (2009) Interfacing neurons both
extracellularly and intracellularly using carbon-nanotube probes with long-
term endurance,
Langmuir
,
25
, 7718.
53. Nguyen-Vu, T. D. B., Chen, H., Cassell, A. M., Andrews, R., Meyyappan, M., and
Li, J. (2006) Vertically aligned carbon nanoiber arrays: an advance toward
electrical-neural interfaces,
Small
,
2
, 89.
54. Lovat, V., Pantarotto, D., Lagostena, L., Cacciari, B., Grandolfo, M., Righi, M.,
Spalluto, G., Prato, M., and Ballerini, L. (2005) Carbon nanotube substrates
boost neuronal electrical signaling,
Nano Lett.
,
5
, 1107.
55. Liopo, A. V., Stewart, M. P., Hudson, J., Tour, J. M., and Pappas, T. C. (2006)
Biocompatibility of native and functionalized single-walled carbon nanotubes
for neuronal interface,
J. Nanosci. Nanotechnol.
,
6
, 1365.
56. Bahr, J. L., and Tour, J. M. (2001) Highly functionalized carbon nanotubes using
in situ generated diazonium compounds,
Chem. Mater.
,
13
, 3823.
57. Gabriel, G., Gómez, R., Bongard, M., Benito, N., Fernández, E., and Villa, R.
(2009) Easily made single-walled carbon nanotube surface microelectrodes
for neuronal applications,
Biosens. Bioelectron.
,
24
, 1942.
58. Gabriel, G., Gómez-Martínez, R., and Villa, R. (2008) Single-walled carbon
nanotubes deposited on surface electrodes to improve interface impedance,
Physiol. Meas
.,
29
, S203.
59.
Gaillard, C., Cellot, G., Li, S., Toma, F. M., Dumortier, H., Spalluto, G., Cacciari,
B., Prato, M., Ballerini, L.,
and
Bianco, A. (2009) Carbon nanotubes carrying
cell-adhesion peptides do not interfere with neuronal functionality,
Adv. Mater
,
21
, 2903.
60. Gall, C. M., Pinkstaff, J. K., Lauterborn, J. C., Xie, Y., and Lynch, G. (2003) Integrins
regulate neuronal neurotrophin gene expression through effects on voltage-
sensitive calcium channels,
Neuroscience
,
118
, 925.
61. Anderson, D. G., Burdick, J. A., and Langer, R. (2004) Smart biomaterials,
Science
,
305
, 1923.
62. Malarkey, E. B., Reyes, R. C., Zhao, B., Haddon, R. C., and Parpura, V. (2008)
Water soluble single-walled carbon nanotubes inhibit stimulated endocytosis
in neurons,
Nano Lett.
,
8
, 3538.
63. Mazzatenta, A., Giugliano, M., Campidelli, S., Gambazzi, L., Businaro, L.,
Markram, H., Prato, M., and Ballerini, L. (2007) Interfacing neurons with carbon
nanotubes: electrical signal transfer and synaptic stimulation in cultured brain
circuits,
J. Neurosci.
,
27
, 6931.
Search WWH ::
Custom Search