Biosensor Measurement of Urea Coonncentration in Human Blood Serum
An application of the highly biosensor based on pH-sensitive field immobilized urease for urea analysis was demo The main analytical characteristics of the bios determined; the conditions of urea measureme blood were optimized. A conceptual possibility biosensor for detection of urea concentratio patients suffering from renal insufficiency was sensitive and selective effect transistor and monstrated in this work. iosensor developed were ment in real samples of ility of application of the tion in blood serum of as shown.
[1] F. Kuralay, H. ├ûzyör├╝k, A. Yildiz, "Amperometric enzyme electrode for urea determination using immobilized urease in poly(vinylferrocenium)
film," Sensor and Actuators B, vol. 114, pp. 500-506, 2006.
[2] J. C. Chen, J. C. Chou, T. P. Sun, S. K. Hsiung, "Portable urea biosensor
based on the extended-gate field effect transistor," Sensor and Actuators B, vol. 91, pp. 180-186, 2003.
[3] K. Yoneyama, Y. Fujino, T. Osaka, I. Satoh, "Amperometric sensing
system for the detection of urea by a combination of the pH-stat method and flow injection analysis," Sensor and Actuators B, vol. 76, pp. 152-157, 2001.
[4] M. Gutiérrez, S. Alegret, M. del Valle, "Bioelectronic tongue for the
simultaneous determination of urea, creatinine and alkaline ions in
clinical samples," Biosensor and Bioelectronics, vol. 23, pp. 795-802, 2008.
[5] De J. V. Melo, A. P. Soldatkin, C. Martelet, N. Jaffrezic-Renault, S.
Cosnier, "Use of competitive inhibition for driving sensitivity and dynamic range of urea ENFETs," Biosensors and Bioelectronics, vol.
18, pp. 345-351, 2003.
[6] R. Sahney, B. K. Puri, S. Anand, "Enzyme coated glass pH-electrode: Its
fabrication and application in the determination of urea in blood samples," Analytica Chimica Acta, vol. 542, pp. 157-161, 2005.
[7] R. Koncki, "Recent development in potentiometric biosensors for
biomedical analysis," Analytica Chimica Acta, vol. 599, pp. 7-15, 2007.
[8] G. Dhawan, G. Sumana, B. D. Malhotra, "Recent development in urea
biosensors," Biochemical Engineering Journal, vol. 44, pp. 42-52, 2009.
[9] W. R. Fearon, "The carbamide diacetyl reaction: a test for citrulline,"
Biochem. J., vol. 33, pp. 902-907, 1939.
[10] O. A. Boubriak, A. P. Soldatkin, N. F. Starodub, A. K. Sandrovsky, A.
V. El-skaya, "Determination of urea in blood serum by a urease biosensor based on an ion-sensitive field-effect transistor," Sensor and
Actuators B, vol. 26, no. 27, pp. 429-431, 1995.
[11] A. L. Kukla, A. S. Pavluchenko, Yu. V. Goltvianskyi, A. A. Soldatkin,
V. M. Arkhypova, S. V. Dzyadevych, A. P. Soldatkin, "Sensor arrays
based on the differential ISFET elements for monitoring of toxic
substances of natural and artificial origin," Sensor Electronics and
Microsystem Technologies, vol. 2, pp. 58-68, 2008.
[12] A. S. Pavluchenko, A. L. Kukla, Yu. V. Goltvianskyi, O. O. Soldatkin,
V. M. Arkhypova, S. V. Dzyadevych, A. P. Soldatkin, “Investigation of
stability of the pH-sensitive field-effect transistor characteristics,”
Sensor Letters, vol. 9, no. 6, pp. 2392-2396, 2011.
[13] S. V. Dzyadevych, V. N. Arkhypova, C. Martelet, N. Jaffrezic-Renault,
J.-M. Chovelon, A. V. El’skaya, A. P. Soldatkin, “Potentiometric
biosensors based on ISFETs and immobilized cholinesterases,”
Electroanalysis, vol. 16, pp. 1873–1882, 2004.
[14] http://www.terramedica.spb.ru/1d4_2007/slepushiva.htm
[1] F. Kuralay, H. ├ûzyör├╝k, A. Yildiz, "Amperometric enzyme electrode for urea determination using immobilized urease in poly(vinylferrocenium)
film," Sensor and Actuators B, vol. 114, pp. 500-506, 2006.
[2] J. C. Chen, J. C. Chou, T. P. Sun, S. K. Hsiung, "Portable urea biosensor
based on the extended-gate field effect transistor," Sensor and Actuators B, vol. 91, pp. 180-186, 2003.
[3] K. Yoneyama, Y. Fujino, T. Osaka, I. Satoh, "Amperometric sensing
system for the detection of urea by a combination of the pH-stat method and flow injection analysis," Sensor and Actuators B, vol. 76, pp. 152-157, 2001.
[4] M. Gutiérrez, S. Alegret, M. del Valle, "Bioelectronic tongue for the
simultaneous determination of urea, creatinine and alkaline ions in
clinical samples," Biosensor and Bioelectronics, vol. 23, pp. 795-802, 2008.
[5] De J. V. Melo, A. P. Soldatkin, C. Martelet, N. Jaffrezic-Renault, S.
Cosnier, "Use of competitive inhibition for driving sensitivity and dynamic range of urea ENFETs," Biosensors and Bioelectronics, vol.
18, pp. 345-351, 2003.
[6] R. Sahney, B. K. Puri, S. Anand, "Enzyme coated glass pH-electrode: Its
fabrication and application in the determination of urea in blood samples," Analytica Chimica Acta, vol. 542, pp. 157-161, 2005.
[7] R. Koncki, "Recent development in potentiometric biosensors for
biomedical analysis," Analytica Chimica Acta, vol. 599, pp. 7-15, 2007.
[8] G. Dhawan, G. Sumana, B. D. Malhotra, "Recent development in urea
biosensors," Biochemical Engineering Journal, vol. 44, pp. 42-52, 2009.
[9] W. R. Fearon, "The carbamide diacetyl reaction: a test for citrulline,"
Biochem. J., vol. 33, pp. 902-907, 1939.
[10] O. A. Boubriak, A. P. Soldatkin, N. F. Starodub, A. K. Sandrovsky, A.
V. El-skaya, "Determination of urea in blood serum by a urease biosensor based on an ion-sensitive field-effect transistor," Sensor and
Actuators B, vol. 26, no. 27, pp. 429-431, 1995.
[11] A. L. Kukla, A. S. Pavluchenko, Yu. V. Goltvianskyi, A. A. Soldatkin,
V. M. Arkhypova, S. V. Dzyadevych, A. P. Soldatkin, "Sensor arrays
based on the differential ISFET elements for monitoring of toxic
substances of natural and artificial origin," Sensor Electronics and
Microsystem Technologies, vol. 2, pp. 58-68, 2008.
[12] A. S. Pavluchenko, A. L. Kukla, Yu. V. Goltvianskyi, O. O. Soldatkin,
V. M. Arkhypova, S. V. Dzyadevych, A. P. Soldatkin, “Investigation of
stability of the pH-sensitive field-effect transistor characteristics,”
Sensor Letters, vol. 9, no. 6, pp. 2392-2396, 2011.
[13] S. V. Dzyadevych, V. N. Arkhypova, C. Martelet, N. Jaffrezic-Renault,
J.-M. Chovelon, A. V. El’skaya, A. P. Soldatkin, “Potentiometric
biosensors based on ISFETs and immobilized cholinesterases,”
Electroanalysis, vol. 16, pp. 1873–1882, 2004.
[14] http://www.terramedica.spb.ru/1d4_2007/slepushiva.htm
@article{"International Journal of Medical, Medicine and Health Sciences:50083", author = "O. L. Kukla and S. V. Marchenko and O. A. Zinchenko and O. S. Pavluchenko and O. M. KKuukla and S. V. Dzyadevych and O. P. Soldatkin", title = "Biosensor Measurement of Urea Coonncentration in Human Blood Serum", abstract = "An application of the highly biosensor based on pH-sensitive field immobilized urease for urea analysis was demo The main analytical characteristics of the bios determined; the conditions of urea measureme blood were optimized. A conceptual possibility biosensor for detection of urea concentratio patients suffering from renal insufficiency was sensitive and selective effect transistor and monstrated in this work. iosensor developed were ment in real samples of ility of application of the tion in blood serum of as shown.
", keywords = "Biosensor, blood serum, pH transistor, urea, urease, field-effect ", volume = "6", number = "8", pages = "358-5", }
