NON-CONTACT ELECTRICAL SUPPLY OF IMPLANTS

The issues of long-term implants using in the human body are considered. Particular attention is paid to the problem of contactless supply of power to artificial organs with significant energy consumption. Using non-contact energy supply to a fully implanted technical device reduces the risk of infe...

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Main Authors: Володимир Петрович Олійник, Дар’я Вікторівна Теличко
Format: Article
Language:English
Published: National Aerospace University «Kharkiv Aviation Institute» 2019-09-01
Series:Радіоелектронні і комп'ютерні системи
Subjects:
Online Access:http://nti.khai.edu/ojs/index.php/reks/article/view/948
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spelling doaj-e6b78ca3b01c495bae0f1cda829f97982020-11-25T03:11:54ZengNational Aerospace University «Kharkiv Aviation Institute»Радіоелектронні і комп'ютерні системи1814-42252663-20122019-09-0103303910.32620/reks.2019.3.03993NON-CONTACT ELECTRICAL SUPPLY OF IMPLANTSВолодимир Петрович Олійник0Дар’я Вікторівна Теличко1Національний аерокосмічний університет ім. М. Є. Жуковського «Харківський авіаційний інститут», ХарківНаціональний аерокосмічний університет ім. М. Є. Жуковського «Харківський авіаційний інститут», ХарківThe issues of long-term implants using in the human body are considered. Particular attention is paid to the problem of contactless supply of power to artificial organs with significant energy consumption. Using non-contact energy supply to a fully implanted technical device reduces the risk of infections getting into the patient's body as compared to the use of a power line that is output through internal tissues to the skin surface. The well-known developments of artificial heart apparatus were used as the object of analysis. Their main technical characteristics are considered. The maximum power consumption of these devices is about 20 watts, including models AbioCor. The design of the AbioCor was produced as a fully implanted contactless power unit, but the project was not completed. Although the principle of contactless power supply is undoubtedly an innovative step in the development of implant designs. As a result of the technical implementation of this principle, the following was obtained: it is advisable to use an alternating magnetic field with an inductive coupling between an external and an internal inductor for non-contact energy supply of implants; the use of frequencies of an alternating magnetic field of ~ 100 kHz makes it possible to obtain a compromise solution between the required depth of penetration into biotissues, insignificant heat formation in them and the size and mass of inductors. Under such conditions, the location in the body of the receiving inductor can be determined by medical recommendations. Evaluation experiments were carried out to determine the effective scheme of inclusion of the transmitting and receiving circuits, and the effect on the transmission coefficient of the electrophysical properties of the environment between them. It is shown that for working out of technical solutions of hardware realization of contactless power supply, implantation elements can be placed in saline solution as a model of bioenvironment. It is recommended to use serial element base and circuit solutions used for contactless power supply of radio electronic devices. Also, a quantitative assessment of the additional heat load of the implant on the human body was carried out, since part of the energy of the apparatus and its work, in accordance with the efficiency, inevitably goes into the heat eventually. A simplified calculation of the impact of implant energy losses on the thermal state of the body showed that overheating by 1 °C would be achieved provided the complete insulation of the area, on average, 8.6 hours. This proves the non-critical overheating of the body with implants, and allows the maintenance of a stable body temperature by physiological mechanisms.http://nti.khai.edu/ojs/index.php/reks/article/view/948штучні органиімплантатибезконтактне електроживленняелектромагнітна індукціяпотужністьтепловий режим
collection DOAJ
language English
format Article
sources DOAJ
author Володимир Петрович Олійник
Дар’я Вікторівна Теличко
spellingShingle Володимир Петрович Олійник
Дар’я Вікторівна Теличко
NON-CONTACT ELECTRICAL SUPPLY OF IMPLANTS
Радіоелектронні і комп'ютерні системи
штучні органи
імплантати
безконтактне електроживлення
електромагнітна індукція
потужність
тепловий режим
author_facet Володимир Петрович Олійник
Дар’я Вікторівна Теличко
author_sort Володимир Петрович Олійник
title NON-CONTACT ELECTRICAL SUPPLY OF IMPLANTS
title_short NON-CONTACT ELECTRICAL SUPPLY OF IMPLANTS
title_full NON-CONTACT ELECTRICAL SUPPLY OF IMPLANTS
title_fullStr NON-CONTACT ELECTRICAL SUPPLY OF IMPLANTS
title_full_unstemmed NON-CONTACT ELECTRICAL SUPPLY OF IMPLANTS
title_sort non-contact electrical supply of implants
publisher National Aerospace University «Kharkiv Aviation Institute»
series Радіоелектронні і комп'ютерні системи
issn 1814-4225
2663-2012
publishDate 2019-09-01
description The issues of long-term implants using in the human body are considered. Particular attention is paid to the problem of contactless supply of power to artificial organs with significant energy consumption. Using non-contact energy supply to a fully implanted technical device reduces the risk of infections getting into the patient's body as compared to the use of a power line that is output through internal tissues to the skin surface. The well-known developments of artificial heart apparatus were used as the object of analysis. Their main technical characteristics are considered. The maximum power consumption of these devices is about 20 watts, including models AbioCor. The design of the AbioCor was produced as a fully implanted contactless power unit, but the project was not completed. Although the principle of contactless power supply is undoubtedly an innovative step in the development of implant designs. As a result of the technical implementation of this principle, the following was obtained: it is advisable to use an alternating magnetic field with an inductive coupling between an external and an internal inductor for non-contact energy supply of implants; the use of frequencies of an alternating magnetic field of ~ 100 kHz makes it possible to obtain a compromise solution between the required depth of penetration into biotissues, insignificant heat formation in them and the size and mass of inductors. Under such conditions, the location in the body of the receiving inductor can be determined by medical recommendations. Evaluation experiments were carried out to determine the effective scheme of inclusion of the transmitting and receiving circuits, and the effect on the transmission coefficient of the electrophysical properties of the environment between them. It is shown that for working out of technical solutions of hardware realization of contactless power supply, implantation elements can be placed in saline solution as a model of bioenvironment. It is recommended to use serial element base and circuit solutions used for contactless power supply of radio electronic devices. Also, a quantitative assessment of the additional heat load of the implant on the human body was carried out, since part of the energy of the apparatus and its work, in accordance with the efficiency, inevitably goes into the heat eventually. A simplified calculation of the impact of implant energy losses on the thermal state of the body showed that overheating by 1 °C would be achieved provided the complete insulation of the area, on average, 8.6 hours. This proves the non-critical overheating of the body with implants, and allows the maintenance of a stable body temperature by physiological mechanisms.
topic штучні органи
імплантати
безконтактне електроживлення
електромагнітна індукція
потужність
тепловий режим
url http://nti.khai.edu/ojs/index.php/reks/article/view/948
work_keys_str_mv AT volodimirpetrovičolíjnik noncontactelectricalsupplyofimplants
AT darâvíktorívnateličko noncontactelectricalsupplyofimplants
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