Imaging from the implantable side: Ultrasonic-powered EIT system for surgical site infection detection
File(s)Paper_Ultrasonics_Symposium_Bruno.pdf (966.57 KB)
Accepted version
Author(s)
Gil Rosa, BM
Yang, GZ
Type
Conference Paper
Abstract
Abstract:
Ultrasounds (US) are a proven medical tool to assess a myriad of biological processes, including breast cancer screening, fetal development and blood flow. However, US also have the potential to deliver power and telemetry capability to deeply implanted devices, surpassing some challenges faced by coils or antennas operating inside the human body. In this study we present an implantable device powered by US that can perform in situ tissue impedance imaging. The objective is to provide a tool to evaluate soft tissue healing after surgery, by searching for areas of bacterial infection as the normal conductivity of tissue will be impaired, undetectable by standard imaging methods. The motivation is to reduce not only the morbidity rate associated with wound infections (1/3 of the postoperative deaths) but also to shorten patient's recovery time in hospital, with 5% risk of developing a new infection.
Ultrasounds (US) are a proven medical tool to assess a myriad of biological processes, including breast cancer screening, fetal development and blood flow. However, US also have the potential to deliver power and telemetry capability to deeply implanted devices, surpassing some challenges faced by coils or antennas operating inside the human body. In this study we present an implantable device powered by US that can perform in situ tissue impedance imaging. The objective is to provide a tool to evaluate soft tissue healing after surgery, by searching for areas of bacterial infection as the normal conductivity of tissue will be impaired, undetectable by standard imaging methods. The motivation is to reduce not only the morbidity rate associated with wound infections (1/3 of the postoperative deaths) but also to shorten patient's recovery time in hospital, with 5% risk of developing a new infection.
Date Issued
2017-11-02
Date Acceptance
2017-11-02
Citation
Ultrasonics Symposium (IUS), 2017 IEEE International, 2017
ISBN
978-1-5386-3383-0
ISSN
1948-5727
Publisher
IEEE
Journal / Book Title
Ultrasonics Symposium (IUS), 2017 IEEE International
Copyright Statement
© 2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works.
Sponsor
Engineering & Physical Science Research Council (EPSRC)
Grant Number
EP/L014149/1
Source
Ultrasonics Symposium (IUS), 2017 IEEE International
Publication Status
Published online
Start Date
2017-09-06
Finish Date
2017-09-09
Coverage Spatial
Washington, D.C., USA
Date Publish Online
2017-11-02