Biomedical Engineering Reference
In-Depth Information
35. T. Malinski, Z. Taha, S. Grunfeld, A. Burewicz, P. Tomboulian, and F. Kiechle, Measurements of nitric-
oxide in biological-materials using a porphyrinic microsensor. Anal. Chim. Acta 279 , 135 (1993).
36. T. Malinski, F. Bailey, Z.G. Zhang, and M. Chopp, Nitric-oxide measured by a porphyrinic microsensor in
rat-brain after transient middle cerebral-artery occlusion. J. Cereb. Blood Flow Metab. 13 , 355-358 (1993).
37. Z.G. Zhang, M. Chopp, F. Bailey, and T. Malinski, Nitric-oxide changes in the rat-brain after transient
middle cerebral-artery occlusion. J. Neurol. Sci. 128 , 22-27 (1995).
38. F. Lantoine, S. Trevin, F. Bedioui, and J. Devynck, Selective and sensitive electrochemical measure-
ment of nitric-oxide in aqueous-solution - discussion and new results. J. Electroanal. Chem. 392 , 85-89
(1995).
39. F. Bedioui, S. Trevin, and J. Devynck, The use of gold electrodes in the electrochemical detection of
nitric-oxide in aqueous-solution. J. Electroanal. Chem. 377 , 295 (1994).
40. H. Yokoyama, N. Mori, N. Kasai, T. Matsue, I. Uchida, N. Kobayashi, N. Tsuchihashi, T. Yoshimura,
M. Hiramatsu, and S.I. Niwa, Direct and continuous monitoring of intrahippocampal nitric oxide (NO)
by an NO sensor in freely moving rat after N-methyl-D-aspartic acid injection. Denki Kagaku 63 ,
1167-1170 (1995).
41. K.I. Kim, H.Y. Chung, G.S. Oh, H.O. Bae, S.H. Kim, and H.J. Chun, Integrated gold-disk microelec-
trode modifi ed with iron(II)-phthalocyanine for nitric oxide detection in macrophages. Microchem J. 80 ,
219-226 (2005).
42. S.L Vilakazi and T. Nyokong, Voltammetric determination of nitric oxide on cobalt phthalocyanine
modifi ed microelectrodes. J. Electroanal. Chem. 512 , 56-63 (2001).
43. X.J. Zhang, L. Cardosa, M. Broderick, H. Fein, and J. Lin, An integrated nitric oxide sensor based on
carbon fi ber coated with selective membranes. Electroanalysis 12 , 1113-1117 (2001).
44. A. Dickson, J. Lin, J. Sun, M. Broderick, H. Fein and X.J. Zhang, Construction and characterization of a
new fl exible and nonbreakable nitric oxide microsensor. Electroanalysis 16 , 640-643 (2004).
45. X.J. Zhang, Y. Kislyak, J. Lin, A. Dickson, L. Cardosa, M. Broderick, and H. Fein, Nanometer size
electrode for nitric oxide and S-nitrosothiols measurement. Electrochem. Commun. 4 , 11-16 (2002).
46. X.J. Zhang, J. Lin, L. Cardoso, M. Broderick, and V. Darley-Usmar, A novel microchip nitric oxide sen-
sor with sub-nM detection limit. Electroanalysis 14 , 697-703 (2002).
47. B. Fabre, S. Burlet, R. Cespuglio, and G. Bidan, Voltammetric detection of NO in the rat brain with an
electronic conducting polymer and Nafi on®bilayer-coated carbon fi bre electrode. J. Electroanal. Chem.
426 , 75-83 (1997).
48. M.N. Friedemann, S.W. Robinson, and G.A. Gerhardt, o-phenylenediamine-modifi ed carbon fi ber elec-
trodes for the detection of nitric oxide. Anal. Chem. 68 , 2621-2628 (1996).
49. J.K. Park, P.H. Tran, J.K.T. Chao, R. Ghodadra, R. Rangarajan, and N.V. Thakor, In vivo nitric oxide sen-
sor using non-conducting polymer-modifi ed carbon fi ber. Biosens. Bioelectron. 13 , 1187-1195 (1998).
50. N.R. Ferreira, A. Ledo, J.G. Frade, G.A. Gerhardt, J. Laranjinha, and R.M. Barbosa, Electrochemical
measurement of endogenously produced nitric oxide in brain slices using Nafi on/o-phenylenediamine
modifi ed carbon fi ber microelectrodes. Anal. Chim. Acta 535 , 1-7 (2005).
51. D. Kato, M. Kunitake, M. Nishizawa, T. Matsue, and F. Mizutani, Amperometric nitric oxide micro-
sensor using two-dimensional cross-linked Langmuir-Blodgett fi lms of polysiloxane copolymer. Sens.
Actuator B-Chem. 108 , 384-388 (2005).
52. K. Ichimori, H. Ishida, M. Fukahori, H. Nakazawa, and E. Murakami, Practical nitric-oxide measure-
ment employing a nitric oxide-selective electrode. Rev. Sci. Instrum. 65 , 2714-2718 (1994).
53. M. Pontie, F. Bedioui, and J. Devynck, New composite modifi ed carbon microfi bers for sensitive
and selective determination of physiologically relevant concentrations of nitric oxide in solution.
Electroanalysis 11 , 845-850 (1999).
54. B.W. Allen, C.A. Piantadosi, and L.A. Coury, Electrode materials for nitric oxide detection. Nitric
Oxide-Biol. Chem. 4 , 75-84 (2000).
55. Y.Z. Xian, W.L. Sun, J.A. Xue, M. Luo, and L.T. Jin, Iridium oxide and palladium modifi ed nitric oxide
microsensor. Anal. Chim. Acta 381 , 191-196 (1999).
56. T. Haruyama, S. Shiino, Y. Yanagida, E. Kobatake, and M. Aizawa, Two types of electrochemical
nitric oxide (NO) sensing systems with heat-denatured Cyt C and radical scavenger PTIO. Biosens.
Bioelectron. 13 , 763-769 (1998).
Previous Page
Next Page
Electrochemical Sensors, Biosensors and Their Biomedical Applications
Search WWH ::




Custom Search
Home