BERKELEY SENSOR & ACTUATOR CENTER
UC BERKELEY UC DAVIS
User: Guest |  Site Map |  My BSAC Profile
HOME  PROJECTS  THRUSTS  PUBLICATIONS  ABOUT BSAC  DIRECTORY  ALUMNI  FOR BSAC RESEARCHERS  EVENTS CALENDAR  SECURE LOGIN
Table of all Projects
     
 

BPN780: Impedance Spectroscopy to Monitor Fracture Healing

Project ID BPN780
Website
Start Date Thu 2015-Jan-22 17:58:54
Last Updated Wed 2017-Jun-14 12:41:02
Abstract An estimated 15 million fracture injuries occur each year in the United States. Of these, 10% of fractures result in delayed or non-union, with this number rising to 46% when they occur in conjunction with vascular injury. Current methods of monitoring include taking X-rays and making clinical observations. However, radiographic techniques lag and physician examination of injury is fraught with subjectivity. No standardized methods exist to assess the extent of healing that has taken place in a fracture, revealing the need for a diagnostic device that can reliably detect non-union in its early pathologic phases. Electrical impedance spectroscopy has been used to characterize different tissues, and we hypothesize that this technique can be applied to fractures to distinguish between the various types of tissue present in the clearly defined stages of healing. We are developing an objective measurement tool that utilizes impedance spectroscopy to monitor fracture healing, with the goal of providing physicians with more information that can resolve the initial stages of fracture healing. This would enable early intervention to prevent problem fractures from progressing to non-union.
Status Continuing
Funding Source NSF
IAB Research Area Physical Sensors & Devices
Researcher(s) Monica C. Lin
Advisor(s) Michel M. Maharbiz
Detailed Information
Secure Access

Private Abstract
Research Report
Poster
Summary Slide PDF | VIDEO
Active Feedback (or Request for Response)

 

  • Copyright Notification: All papers downloaded from this site are © University of California or the publisher, all rights reserved. Contact the BSAC Webmaster for permission related to copyrighted materials.
  • Links on these pages to commercial sites do not represent endorsements by UC or its affiliates.
  • Privacy Policy
  • Contact Us

   webmaster@bsac.eecs.berkeley.edu
  User logged in as: Guest
  User Idle since: November 24, 2017, 2:15 pm