A wireless implantable passive strain sensor system

Author

Umbrecht, F. ; Wendlandt, M. ; Juncker, D. ; Hierold, C. ; Neuenschwander, J.

Author_Institution

Micro & Nanosystems, ETH Zurich

fYear

2005

fDate

Oct. 30 2005-Nov. 3 2005

Abstract

A design study of a novel passive strain-sensor technology for the in-situ measurement of small strains on implants, bones or fixation systems is presented. The sensing principle is based on hydro-mechanical strain amplification which allows for the abandonment of any electrical circuits. Thus, the sensor can be fabricated applying solely biocompatible or bioresorbable polymeric materials. Finite element simulations are employed to validate the basic sensing principle and to optimize design parameters according to the required target specifications. Remote wireless and passive signal read-out of the sensor signal can be achieved by advanced ultrasound imaging technologies

Keywords

biomedical measurement; finite element analysis; medical signal detection; strain sensors; biocompatible polymeric materials; bioresorbable polymeric materials; bones systems; fixation systems; hydro-mechanical strain amplification; implants systems; passive strain sensor technology; strains measurement; ultrasound imaging technologies; wireless sensor system; Biosensors; Bones; Capacitive sensors; Circuits; Implants; Polymers; Sensor systems; Strain measurement; Ultrasonic imaging; Wireless sensor networks;

fLanguage

English

Publisher

ieee

Conference_Titel

Sensors, 2005 IEEE

Conference_Location

Irvine, CA

Print_ISBN

0-7803-9056-3

Type

conf

DOI

10.1109/ICSENS.2005.1597627

Filename

1597627