INFORMATION AND MICROELECTRONIC TECHNOLOGIES FOR APPLICATION IN MOBILE MEDICINE. HOPES AND LIMITATIONS

Authors

  • O. P. Mintser Shupyk National Medical Academy of Postgraduate Education https://orcid.org/0000-0002-7224-4886
  • V. A. Romanov V. M. Glushkov Institute of Cybernetics of NAS of Ukraine
  • I. B. Galelyuka V. M. Glushkov Institute of Cybernetics of NAS of Ukraine
  • A. V. Antomonov V. M. Glushkov Institute of Cybernetics of NAS of Ukraine

DOI:

https://doi.org/10.11603/mie.1996-1960.2018.2.9288

Keywords:

information technologies, microelectronic technologies, mobile medicine, personalized medicine, patient monitoring, portable medical sensory devices, communicators, identification and interpretation of medical information, aggregation of medical data, artificial intelligence

Abstract

The issues of using information and microelectronic technologies in medical practice are considered. It is emphasized that the need to take into account the history of the disease for the diagnosis of the pathological process and the aggregation of information about the patient's previous and parallel studies in other medical institutions makes the widespread use of such devices in practical medicine unsuccessful. Conclusions are drawn about the scope of their use in mobile medicine limited to practical cases that do not require detailed knowledge and background of the pathological process. It is also emphasized that at the present stage of the development of medicine, a significant expansion of the directions of the use of microelectronic technology can be ensured by its joint use with artificial intelligence.

References

Krechetov, N., & Ivanov, P. (1997). Produkty dlya intellektual'nogo analiza dannykh [Products for data mining]. Computer Week, 14-15, 32-39. [In Russian].

Sergienko, I. V., Voronenko,O. V., Galelyuka, I. B., & Romanov, V. O. (2013). Patent of Ukraine for utility model № 80490. Sposib spilkuvannya z lyudinoyu, shcho mae movni ta slukhovi obmezhennya [The way to communicate with a person with verbal and auditory limitations]. Bul. No. 10 (27.05.2013). [In Ukrainian].

Sakharov, A. A. (1996). Kontseptsii postroeniya i realizatsii informatsionnykh sistem, orientirovannykh na analiz dannykh [Concepts of construction and implementation of information systems focused on data analysis]. SUBD, 4, 55-70. [In Russian].

Denison, T., Consoer, K., Santa, W., Avestruz, A. T., Cooley, J., & Kelly, A. (2007). A 2 jjw 100 nV/rtHz chopper-stabilized instrumentation amplifier for chronic measurement of neural field potentials. IEEE Journal of Solid-State Circuits, 42(12), 2934-2945.

Adler-Milstein, J. (2015, Mar 17). America's health IT transformation: Translating the promise of electronic health records into better care. U.S. Senate Committee on Health, Education, Labor and Pensions. Retrieved from: www.help.senate.gov/imo/media/doc/Adler-Milstein.pdf.

Adler-Milstein, J., & Jha, A. (2014). Health information exchange among U.S. hospitals: who's in, who's out and why? Healthcare, 2(1), 26-32. doi: 10.1016/j. hjdsi.2013.12.005.

Allen, B, Thorworth, W. T. (2014). Input submitted to the Committee on Diagnostic Error in Health Care, November 5 and December 29, 2014. Washington.

AHIMA (American Health Information Management Association). (2014). Appropriate use of the copy and paste functionality in electronic health records. Retrieved from: www.ahima.org/topics/ehr.

Zeng, F. G., Rebscher, S., Harrison, W. V., Sun, X., & Feng, H. (2008). Cochlear implants: system design, integration, and evaluation. IEEE Reviews in Biomedical Engineering, 1, 115-142. doi: 10.1109/ RBME.2008.2008250.

Gray, J., Chaudhuri, S., Bosworth, A., Layman, A., Reichart, D., Venkatrao, M., Pellow, F., & Pirahesh, H. (1997). Data cube: a relational aggregation operator generalizing group-by, cross-tab, and sub-totals. Data Mining and Knowledge Discovery, 1, 29-53.

Demosthenous, A. (2014). Advances in microelectronics for implantable medical devices. Advances in Electronics, 2014. doi.org/10.1155/2014/981295.

Adler-Milstein, J., DesRoches, C. M., Furukawa, M. F., Worzala, C., Charles, D., Kralovec, P., Stalley, S., & Jha, A. K. (2014). More than half of U.S. hospitals have at least a basic EHR, but stage 2 criteria remain challenging for most. Health Affairs (Millwood), 33(9), 1664-1671. doi: 10.1377/hlthaff.2014.0453.

Ong, J. M., & da Cruz, L. (2012). The bionic eye: a review. Clinical & Experimental Ophthalmology, 40(1), 6-17. doi: 10.1111/j.1442-9071.2011.02590.x.

Altshuler, J. S., Balogh, E., Barker, A. D., Eck, S. L., Friend, S. H., Ginsburg, G. S. ... Wagner, J. A. (2010). Opening up to precompetitive collaboration. Science Translational Medicine, 2(52), 52cm26. doi: 10.1126/ scitranslmed.3001515.

Singh, H., Naik, A. D., Rao, R., & Petersen, L. A. (2008). Reducing diagnostic errors through effective communication: harnessing the power of information technology. Journal of General Internal Medicine, 23(4), 489-494. doi: 10.1007/s11606-007-0393-z.

Turner, J. (2012, August 05). Microelectronic technology: IEDs spark into life. Verdict Medical Devices. Retrieved from: https://www.medicaldevice-network.com/ features/featuremicroelectronic-technology-ieds-spark-into-life/.

Uranga, A., Navarro, X., & Barniol, N. (2004). Integrated CMOS amplifier for ENG signal recording. IEEE Transactions on Biomedical Engineering, 51(12), 2188-2194. doi: 10.1109/TBME.2004.834253.

Vardas, P. E., Simantirakis, E. N., & Kanoupakis, E. M. (2013). New developments in cardiac pacemakers. Circulation, 127(23), 2343-2350. doi: 10.1161/ CIRCULATIONAHA.112.000086.

Ward C., Henderson S., & Metcalfe, N. H. (2013). A short history on pacemakers. International Journal of Cardiology, 169(4), 244-248. doi: 10.1016/j. ijcard.2013.08.093.

Wilson, B. S., & Dorman, M. F. (2008). Cochlear implants: a remarkable past and a brilliant future. Hearing Research, 242(1-2), 3-21. doi: 10.1016/j. heares.2008.06.005.

Published

2018-12-21

How to Cite

Mintser, O. P., Romanov, V. A., Galelyuka, I. B., & Antomonov, A. V. (2018). INFORMATION AND MICROELECTRONIC TECHNOLOGIES FOR APPLICATION IN MOBILE MEDICINE. HOPES AND LIMITATIONS. Medical Informatics and Engineering, (2), 13–27. https://doi.org/10.11603/mie.1996-1960.2018.2.9288

Issue

Section

Articles