Recording of electromyographic biopotentials using nanosensors and osteosynthesis performed using porous implants with bioactive coatings as a basis for creating upper limb

Abstract

In this work, it was shown that the level of biopotentials recorded on muscles by nanosensors is sufficient for the mental control of the prosthetic arm in real time without additional processing. To properly control the upper limb prostheses, training and practice are necessary. To achieve stable attachment of the limb prosthesis to the stump, the titanium implants with the extramedullary fixation or intraosseous arrangement were used. It was shown that the implants with porous structure performed better than monolithic ones.

Original language	English
Pages (from-to)	724-734
Number of pages	11
Journal	International Journal of Mechanical Engineering and Technology
Volume	9
Issue number	10
Publication status	Published - 1 Oct 2018

Keywords

Calcium phosphate coating
Experimental studies
Mental control of prostheses
Porous implant
Real time
Signal-to-noise ratio

ASJC Scopus subject areas

Mechanics of Materials
Mechanical Engineering
Industrial and Manufacturing Engineering

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Avdeeva, D. K., Tverdokhlebov, S. I., Popkov, A. V., Gorbach, E. N., Yuzhakov, M. M., Turushev, N. V., Ivanov, M. L., Kodermiatov, R., Wenjia, G., & Kozelskaya, A. I. (2018). Recording of electromyographic biopotentials using nanosensors and osteosynthesis performed using porous implants with bioactive coatings as a basis for creating upper limb. International Journal of Mechanical Engineering and Technology, 9(10), 724-734.

Recording of electromyographic biopotentials using nanosensors and osteosynthesis performed using porous implants with bioactive coatings as a basis for creating upper limb. / Avdeeva, Diana K.; Tverdokhlebov, Sergey I.; Popkov, Arnold V.; Gorbach, Elena N.; Yuzhakov, Mikhail M.; Turushev, Nikita V.; Ivanov, Maxim L.; Kodermiatov, Radik; Wenjia, Guo; Kozelskaya, Anna I.

In: International Journal of Mechanical Engineering and Technology, Vol. 9, No. 10, 01.10.2018, p. 724-734.

Research output: Contribution to journal › Article › peer-review

Avdeeva, DK , Tverdokhlebov, SI, Popkov, AV, Gorbach, EN, Yuzhakov, MM , Turushev, NV, Ivanov, ML, Kodermiatov, R, Wenjia, G & Kozelskaya, AI 2018, 'Recording of electromyographic biopotentials using nanosensors and osteosynthesis performed using porous implants with bioactive coatings as a basis for creating upper limb', International Journal of Mechanical Engineering and Technology, vol. 9, no. 10, pp. 724-734.

Avdeeva, Diana K. ; Tverdokhlebov, Sergey I. ; Popkov, Arnold V. ; Gorbach, Elena N. ; Yuzhakov, Mikhail M. ; Turushev, Nikita V. ; Ivanov, Maxim L. ; Kodermiatov, Radik ; Wenjia, Guo ; Kozelskaya, Anna I. / Recording of electromyographic biopotentials using nanosensors and osteosynthesis performed using porous implants with bioactive coatings as a basis for creating upper limb. In: International Journal of Mechanical Engineering and Technology. 2018 ; Vol. 9, No. 10. pp. 724-734.

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title = "Recording of electromyographic biopotentials using nanosensors and osteosynthesis performed using porous implants with bioactive coatings as a basis for creating upper limb",

abstract = "In this work, it was shown that the level of biopotentials recorded on muscles by nanosensors is sufficient for the mental control of the prosthetic arm in real time without additional processing. To properly control the upper limb prostheses, training and practice are necessary. To achieve stable attachment of the limb prosthesis to the stump, the titanium implants with the extramedullary fixation or intraosseous arrangement were used. It was shown that the implants with porous structure performed better than monolithic ones.",

keywords = "Calcium phosphate coating, Experimental studies, Mental control of prostheses, Porous implant, Real time, Signal-to-noise ratio",

author = "Avdeeva, {Diana K.} and Tverdokhlebov, {Sergey I.} and Popkov, {Arnold V.} and Gorbach, {Elena N.} and Yuzhakov, {Mikhail M.} and Turushev, {Nikita V.} and Ivanov, {Maxim L.} and Radik Kodermiatov and Guo Wenjia and Kozelskaya, {Anna I.}",

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AU - Popkov, Arnold V.

AU - Gorbach, Elena N.

AU - Yuzhakov, Mikhail M.

AU - Turushev, Nikita V.

AU - Ivanov, Maxim L.

AU - Kodermiatov, Radik

AU - Wenjia, Guo

AU - Kozelskaya, Anna I.

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AB - In this work, it was shown that the level of biopotentials recorded on muscles by nanosensors is sufficient for the mental control of the prosthetic arm in real time without additional processing. To properly control the upper limb prostheses, training and practice are necessary. To achieve stable attachment of the limb prosthesis to the stump, the titanium implants with the extramedullary fixation or intraosseous arrangement were used. It was shown that the implants with porous structure performed better than monolithic ones.

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KW - Experimental studies

KW - Mental control of prostheses

KW - Porous implant

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Recording of electromyographic biopotentials using nanosensors and osteosynthesis performed using porous implants with bioactive coatings as a basis for creating upper limb

Abstract

Keywords

ASJC Scopus subject areas

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