A smart polymer hydrogel as a chemical sensor on biomedical implant

Authors

Md Arifuzzaman, Clemson University
Caleb Behrend, Virginia Polytechnic Institute and State University
John DesJardins, Clemson University
Jeffrey N. Anker, Clemson University

Document Type

Poster

Publication Date

3-2016

Abstract

Orthopedic implants are manufactured to support on healing fractured bones. In United States, over 2 million fracture fixation devices, including intra-medullary nails, external fixation pins, plates, and screws, and over 600 thousands joint prostheses, are implanted in patients annually. While fairly common, these fixation surgeries (5%) sometimes lead to unavoidable infection, which only amplifies health care costs accumulated from the initial procedures. In most cases, bacterial biofilms acutely causes infection which is a major reason of medical device failure. In order to obtain proper infections detection around biomedical implants a non-invasive chemical sensor is required. In vivo detection of low pH around implant is an indication of bacterial infection. Therefore, the sensor, which can detect low and/or high pH in the target, needs to be coupled with the implant. In addition, it should be biocompatible and stable material. To address this issue we are building a smart implant sensor out of soft, wet hydrogels which would be highly acceptable and useful.

Recommended Citation

Arifuzzaman, Md; Behrend, Caleb; DesJardins, John; and Anker, Jeffrey N., "A smart polymer hydrogel as a chemical sensor on biomedical implant" (2016). Chemistry Annual Research Symposium. 11.
https://open.clemson.edu/cars/11