Development of Multi-parameter Analyser based on Electrochemical Urea Biosensors and Electrolyte Electrodes for Monitoring of Hemodialysis Patients
Julija Razumiene, Vidute Gureviciene, Marius Dagys, Ieva Sakinyte, Algimantas Jonuska, Laurynas Rimsevicius, Svitlana Marchenko, Alexey Soldatkin
2016
Abstract
The idea of developing multi-parameter urea analyser comprising urea, Na+ and K+ selective electrodes has been considered. For this purpose the urea biosensors based on urease and recombinant urease working in amperometric and potentiometric way were developed. The working parameters of both urea biosensors were studied and optimized. Possibilities of real samples analysis using the developed biosensors were shown by measuring urea concentrations in blood dialysate taken from patients with renal failure. Both the potentiometric and the amperometric biosensors demonstrated high degree of signal reproducibility (the relative standard deviation of responses did not exceed 5 %). Change of sodium and potassium concentrations during blood hemodialysis is dangerous life-threatening condition and their monitoring is an important feature of point-of-care analyser. For this purpose high integrity commercial Na+ and K + selective electrodes were analysed and our own signal amplification and processing system proposed.
References
- Ahuja, T., Kumar, D., Singh, N., Biradar, A. M., Rajesh, 2011. Potentiometric urea biosensor based on multiwalled carbon nanotubes (MWCNTs)/silica composite material. Materials Science and Engineering: C, vol. 31, pp. 90-94.
- Boubriak, O. A., Soldatkin, A. P., Starodub, N. F., Sandrovsky, A. K., El'skaya, A. K., 1995. Determination of urea in blood serum by a urease biosensor based on an ion-sensitive field-effect transistor. Sensors and Actuators B: Chemical, vol. 27, pp. 429-431.
- Carter, E. L., Flugga, N., Boer, J. L., Mulrooney, S. B., Hausinger, R. P., 2009. Interplay of metal ions and urease. Metallomics, vol. 1, pp. 207-221.
- Chen, K., Liu, D., Nie, L., Yao, S., 1994. Determination of urea in urine using a conductivity cell with surface acoustic wave resonator-based measurement circuit. Talanta, vol. 41, pp. 2195-2200.
- Dhawan, G., Sumana, G., Malhotra, B. D., 2009. Recent developments in urea biosensors. Biochemical Engineering Journal, vol. 44, pp. 42-52.
- Iseki, K., Uehara, H., Nishime, K., Tokuyama, K., Yoshihara, K., Kinjo, K., Shiohira, Y., Fukiyama, K., 1996. Impact of the initial levels of laboratory variables on survival in chronic dialysis patients. American Journal of Kidney Diseases, vol. 28, pp. 541-548.
- Kulys, J. , Gureviciene, V., Laurinavicius, V., Jonuška, A. V., 1986. Urease sensors based on differential antimony electrodes. Biosensors, vol. 2, pp. 35-44.
- Kuralay, F., Özyörük, H., Yildiz, A., 2005. Potentiometric enzyme electrode for urea determination using immobilized urease in poly(vinylferrocenium) film. Sensors and Actuators B: Chemical, vol.109, pp. 194- 199.
- Laurinavicius, V., Razumiene, J., Gureviciene, V., 2013. Bioelectrochemical Conversion of Urea on Carbon Black Electrode and Application. Sensors Journal, IEEE, vol. 13, pp. 2208-2213.
- Liu, D., Meyerhoff, M. E., Goldberg, H. D., Brown, R. B., 1993. Potentiometric ion- and bioselective electrodes based on asymmetric polyurethane membranes. Analytica Chimica Acta, vol. 274, pp. 37-46.
- Maduell, F., Moreso, F., Pons, M., Ramos, R., Mora-Macià, J., Carreras, J., Soler, J., Torres, F., Campistol, J. M., Martinez-Castelao, A., 2013. High-Efficiency Postdilution Online Hemodiafiltration Reduces AllCause Mortality in Hemodialysis Patients. Journal of the American Society of Nephrology, vol. 24, pp. 487- 497.
- Marchenko, S. V., Kucherenko, I. S., Hereshko, A. N., Panasiuk, I. V., Soldatkin, O. O., El'skaya, A. V., Soldatkin, A. P., 2015. Application of potentiometric biosensor based on recombinant urease for urea determination in blood serum and hemodialyzate. Sensors and Actuators B: Chemical, vol. 207, Part B, 981-986.
- Mc Causland, F. R., Brunelli, S. M., Waikar, S. S., 2012. Dialysate sodium, serum sodium and mortality in maintenance hemodialysis. Nephrology Dialysis Transplantation, vol. 27, pp. 1613-1618.
- Much, W. E., Wilcox, C. S., 1982. Disorders of body fluids, sodium and potassium in chronic renal failure. The American Journal of Medicine, vol. 72, pp. 536-550.
- Nolph, K. D., Sorkin, M. I., Moore, H., 1980. Autoregulation of Sodium and Potassium Removal During Continuous Ambulatory Peritoneal Dialysis. ASAIO Journal, vol. 26, pp. 334-338.
- Parfrey, P. S., Foley, R. N., 1999. The Clinical Epidemiology of Cardiac Disease in Chronic Renal Failure. Journal of the American Society of Nephrology, vol. 10, pp. 1606-1615.
- Patton, C. J., Crouch, S. R., 1977. Spectrophotometric and kinetics investigation of the Berthelot reaction for the determination of ammonia. Analytical Chemistry, vol. 49, pp. 464-469.
- Pavluchenko, A. S., Kukla, A. L., Goltvianskyi, Y. V., Soldatkin, O. O., Arkhypova, V. M, Dzyadevych, S. V., Soldatkin, A. P., 2011. Investigation of Stability of the pH-Sensitive Field-Effect Transistor Characteristics. Sensor Letters, vol. 9, pp. 2392-2396.
- Ramirez, G., Brueggemeyer, C. D., Newton, J. L., 1984. Cardiac Arrhythmias on Hemodialysis in Chronic Renal Failure Patients. Nephron, vol. 36, pp. 212-218.
- Razumiene, J., Sakinyte, I., Barkauskas, J., Baronas, R., 2015, Nano-structured carbon materials for improved biosensing applications. Applied Surface Science, vol. 334, pp. 185-191.
- Sangodkar, H., Sukeerthi, S., Srinivasa, R. S., Lal, R., Contractor, A. Q., 1996. A Biosensor Array Based on Polyaniline. Analytical Chemistry, vol. 68, pp. 779-783.
- Sheliakina, M., Arkhypova, V., Soldatkin, O., Saiapina, O., Akata, B., Dzyadevych, S., 2014. Urease-based ISFET biosensor for arginine determination. Talanta, vol. 121, pp. 18-23.
- Soldatkin, O. O., Kucherenko, I. S., Marchenko, S. V., Ozansoy Kasap, B., Akata, B., Soldatkin, A. P., Dzyadevych, S. V., 2014. Application of enzyme/zeolite sensor for urea analysis in serum. Materials Science and Engineering: C, vol. 42, pp. 155- 160.
- Tiwari, A., Aryal, S., Pilla, S., Gong, S., 2009. An amperometric urea biosensor based on covalently immobilized urease on an electrode made of hyperbranched polyester functionalized gold nanoparticles. Talanta, vol. 78, pp. 1401-1407.
- Wang, X., Watanabe, H., Sekioka, N., Hamana, H., Uchiyama, S., 2007. Amperometric Urea Biosensor Using Aminated Glassy Carbon Electrode Covered with Urease Immobilized Carbon Sheet, Based on the Electrode Oxidation of Carbamic Acid. Electroanalysis, vol. 19, pp. 1300-1306.
- With, T. K., Petersen, T. D., Petersen, B., 1961. A simple spectrophotometric method for the determination of urea in blood and urine. Journal of Clinical Pathology, vol. 14, pp.202-204.
Paper Citation
in Harvard Style
Razumiene J., Gureviciene V., Dagys M., Sakinyte I., Jonuska A., Rimsevicius L., Marchenko S. and Soldatkin A. (2016). Development of Multi-parameter Analyser based on Electrochemical Urea Biosensors and Electrolyte Electrodes for Monitoring of Hemodialysis Patients . In Proceedings of the 9th International Joint Conference on Biomedical Engineering Systems and Technologies - Volume 1: BIODEVICES, (BIOSTEC 2016) ISBN 978-989-758-170-0, pages 93-101. DOI: 10.5220/0005814100930101
in Bibtex Style
@conference{biodevices16,
author={Julija Razumiene and Vidute Gureviciene and Marius Dagys and Ieva Sakinyte and Algimantas Jonuska and Laurynas Rimsevicius and Svitlana Marchenko and Alexey Soldatkin},
title={Development of Multi-parameter Analyser based on Electrochemical Urea Biosensors and Electrolyte Electrodes for Monitoring of Hemodialysis Patients},
booktitle={Proceedings of the 9th International Joint Conference on Biomedical Engineering Systems and Technologies - Volume 1: BIODEVICES, (BIOSTEC 2016)},
year={2016},
pages={93-101},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0005814100930101},
isbn={978-989-758-170-0},
}
in EndNote Style
TY - CONF
JO - Proceedings of the 9th International Joint Conference on Biomedical Engineering Systems and Technologies - Volume 1: BIODEVICES, (BIOSTEC 2016)
TI - Development of Multi-parameter Analyser based on Electrochemical Urea Biosensors and Electrolyte Electrodes for Monitoring of Hemodialysis Patients
SN - 978-989-758-170-0
AU - Razumiene J.
AU - Gureviciene V.
AU - Dagys M.
AU - Sakinyte I.
AU - Jonuska A.
AU - Rimsevicius L.
AU - Marchenko S.
AU - Soldatkin A.
PY - 2016
SP - 93
EP - 101
DO - 10.5220/0005814100930101