The use of converse ultrasonic capillary effect for the extraction of wound contents from capillary-porous human tissue

Author

Pedder, Valery V. ; Khmelev, Vladimir N. ; Golykh, Roman N. ; Shalunov, Andrey V. ; Pedder, Alexander V. ; Naboka, Maxim V.

Author_Institution

Sci.-production enterprise Metromed Ltd., Omsk, Russia

fYear

2015

fDate

June 29 2015-July 3 2015

Firstpage

265

Lastpage

271

Abstract

The article presents the results of studies on determination of optimum modes and conditions of the draining extraction of wound contents from human tissues by contact ultrasonic action. To optimize modes and conditions of the action we propose physical-mathematical model of converse capillary ultrasonic effect allowing determine extraction rate depending on amplitude of ultrasonic vibrations, area of radiating surface of the waveguide radiator, amount of drainage canals in it and physical properties of wound content.

Keywords

acoustic radiators; acoustic waveguides; biological effects of acoustic radiation; biological tissues; biomechanics; biomedical transducers; physiological models; ultrasonic therapy; ultrasonic transducers; vibrations; wounds; capillary porous human tissue; contact ultrasonic action; converse capillary ultrasonic effect; converse ultrasonic capillary effect; drainage canals; extraction rate; physical-mathematical model; radiating surface area; ultrasonic vibration amplitude; waveguide radiator; wound content draining; wound content extraction; Acoustics; Irrigation; Liquids; Surface waves; Vibrations; Viscosity; Wounds; Ultrasound; extraction by draining; human tissue; ultrasonic capillary effect; wound;

fLanguage

English

Publisher

ieee

Conference_Titel

Micro/Nanotechnologies and Electron Devices (EDM), 2015 16th International Conference of Young Specialists on

Conference_Location

Erlagol

ISSN

2325-4173

Print_ISBN

978-1-4673-6718-9

Type

conf

DOI

10.1109/EDM.2015.7184541

Filename

7184541