Biosensor concept and data input to biomedical infornation systems
DOI:
https://doi.org/10.11603/mie.1996-1960.2020.3.11698Abstract
Background. In present publication we generalized and analyzed deeply the experience of some biosensors studying in biophysical experiments with aim to incorporate them further to electronic information systems. Output biosensor electrical signals were input ones to electronic information system making their connection into joined bioinformation system.
Materials and methods. Methods of comparative analysis of the characteristics of input and output electrical information signals of biosensor were applied; its physical and mathematical models were developed. For biosensor properties studies the methods of transmembrane electric currents recording in voltage-clamp mode as well as patch-clamp on hippocampal neuronal membranes were used.
Results. Biosensor concept and their general characteristic were given, corresponding prototypes were observed. The physical model of biosensor was developed and some test results of this device were suggested. The biosensor was examined as abstraction in consistent unity of its functions: signal receiver — filter — analyzer — encoder/decoder. A brief mathematical description of biosensor functioning was given as well as corresponding algorithm. As a result of performed works the possibilities of this biosensor incorporation to bioinformation electronic systems were substantiated and the example of such system «EcoIS» was observed.
Conclusion. In conclusion following results of the works were summarized. The detailed description of technical devices — biosensors as elements of biomedical information systems were done as well as analysis of electrical information signals at output of biosensor, its ability to encode information and detailed analysis of the possibility to incorporate this biotechnical device into electronic information systems due to biosensor output electricals signals.
References
Klyuchko O. М. (2018). Medical information system for monitoring the health of the population with the protection of personal data. Medical Informatics and Engineering. 1 (49), 17-28. [In Ukrainian].
Klyuchko O. M. (2008). Information and computer technologies in biology and medicine. Kyiv: NAU-druk. 252. [In Ukrainian].
Sigvors F., Sackman B., Sigvors F., Neer E. (1987). Registration of single channels. Moskow : Mir, 448. [In Russian].
Klyuchko O. M., Biletsky A. Ya., Lizunov G. V., Shutko V. N. (2018). Method of generating electrical signals by bioelements of technical hybrid system. Patent UA 134574 U; IPC A01N 1/02, G01N 33/00, A61N 1/32, B82Y 30/00. Priority: 14.12.2018, u201812442. Issued: 27.05.2019, Bull. 10, 11. [In Ukrainian].
Klyuchko O. M., Biletsky A. Ya., Navrotsky D. O. (2018). Method of application of biosensor test system. Patent UA 129923 U, IPC G01N33 / 00, G01N33 / 50, C12Q 1/02. Priority: 22.03.2018, u201802896. Issued: 26.11.2018, Bull. 22, 7. [In Ukrainian].
Klyuchko O. M., Biletsky A. Ya., Lizunov G. V., Pyankova O. V. (2019). Method of application of biosensor test system with databases. Patent UA 135575U; G01N33 / 00, G01N33 / 50, C12Q 1/02. Priority: 17.01.2019, u201900476. Issued: 10.07.2019, Bull. 13, 10. [In Ukrainian].
Klyuchko O. M., Biletsky A. Ya., Navrotsky D. O. (2019). Method of application of biotechnical monitoring system with biosensor (biosensor test system). Patent UA 132245 U, G01N33 / 50. Priority: 23.03.18, u2018 02893. Issued: 25.02.2019, Bull. 4, 7. [In Ukrainian].
Klyuchko O. M., Biletsky A. Ya., Lizunov G. V., Piankova O. V. (2019). Method of application of monitoring system with biosensor and databases. Patent UA 135574 U; C12Q 1/02, G01N33/00, G01N33/50, G016F 11/20. Priority: 17.01.2019, u201900475. Issued: 10.07.2019, Bull. 13, 10. [In Ukrainian].
Xian Tong, Chen Min, Bin Yu, Han, Hua Feng, Guo Qiang, Lo. (2007). Biosensor. Patent WO 2007084076 A1 / Agency For Science, Technology And Research. Priority: 20.6.2006. Issued: 26.8.2007. http://www. google.com/patents/WO2007084076A1?hl=en&cl=en.
Owe Orwar, Jardemark Kent (2002). Biosensors and methods of using the same. Patent US 20020182642 A1, DE69832381D1. Priority: 19.6.2002. Issued: 5.12. 2002. https://www.google.com/patents/US20020182642.
Klyuchko O. M., Biletsky A. Ya. (2019). Computer recognition of chemical substances based on their electrophysiological characteristics. Biotechnol. acta. 12 (5), 5-28. https://doi.org/10.15407/biotech12.05.005.
Klyuchko O. M., Klyuchko Z. F. (2018). Electronic databases for Arthropods: methods and applications. Biotechnol. acta. 11 (4), 28-49. https://doi.org/10.15407/ biotech11.04.028.
Klyuchko O. M., Buchatsky L. P., Melezhyk O. V. (2019). Fish information databases construction: data preparation and object-oriented system analysis. Fisheries science of Ukraine. 49 (3), 32-47.
Klyuchko O. M. (2019). Biotechnical information systems for monitoring of chemicals in environment: biophysical approach. Biotechnol. Acta. 12 (1), 5-28. https://doi.org/10.15407/biotech.
Klyuchko O. M. (2018). Electronic expert systems for biology and medicine. Biotechnol. acta. 11 (6), 5-28. https://doi.org/10.15407/biotech11.06.005.
Klyuchko O. M. (2020). Electrophysiological studies of Nephila clavata venom and toxin influence on hippocampal neuronal membranes after Aspergillus orysae proteases pretreatment. Biol. Stud. 14 (3), 39-59.
Klyuchko O. M. (2018). Information computer technologies for biotechnology: electronic medical information systems. Biotechnol. acta. 11 (3), 5-26. https://doi.org/10.15407/biotech11.03.005.
Klyuchko O. M. (2018). Electronic information systems in biotechnology. Biotechnol. acta. 11 (2), 5-22. https:// doi.org/10.15407/biotech11.02.005.
Klyuchko O. M. (2020). Venom and toxins from Argiope lobata: electrophysiological studies. Biol. Stud. 14 (2), 39-56.
Cavalcanti A., Shirinzadeh B., Zhang M., Kretly L. C. (2008). Nanorobot Hardware Architecture for Medical Defense. Sensors: journal. 8(5), 2932-2958. doi: 10.3390 / s8052932.
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