Physical rehabilitation has traditionally consisted of arduously retraining the body on weight machines and other resistance devices, but with the growing interest in ”smart fluids,” engineers envision a simple brace that can increase the resistance on a healing joint with the turn of a dial. ”Smart fluids,” is a generic term for any particle-filled, oil-based suspension which changes its consistency in a magnetic or electric field. Mavroidis is working with electro-rheological fluids (ERFs) which go from liquid to solid the instant an electric field is applied; remove the field and the paste-like substance reverts to liquid.From Northeastern University:USING ”SMART FLUIDS” TO RETRAIN MUSCLES
NU engineering prof designs a new kind of orthotic
Physical rehabilitation has traditionally consisted of arduously retraining the body on weight machines and other resistance devices, but with the growing interest in ”smart fluids,” NU engineering professor Constantinos Mavroidis envisions a simple brace that can increase the resistance on a healing joint with the turn of a dial.
”Smart fluids,” is a generic term for any particle-filled, oil-based suspension which changes its consistency in a magnetic or electric field. Mavroidis is working with electro-rheological fluids (ERFs) which go from liquid to solid the instant an electric field is applied; remove the field and the paste-like substance reverts to liquid.
The possible applications for ERFs have exploded over the last decade, including automotive technology and industrial uses, and Mavroidis and his co-researchers have already developed prototypes for a leg brace that could increase pressure on a joint simply by increasing the voltage from a small battery. Mavroidis is optimistic about starting human trial this fall in association with Spaulding Rehabilitation Hospital in Boston.
The power of smart fluid could transform the rehabilitation process for millions of people. According to the National Health Interview Survey on Assistive Devices, 3.5 million individuals in the United States have used orthotic devices for rehabilitation or mobility assistance. Currently, the most effective types of orthoses consist are often noisy, cumbersome, or difficult to conceal. ERF-powered orthothics, which are efficient and streamlined, would revolutionize rehabilitation therapy.
Northeastern University, located in the heart of Boston, Massachusetts, is a world leader in cooperative education and recognized for its expert faculty and first-rate academic and research facilities. Through co-op, Northeastern undergraduates alternate semesters of full-time study with semesters of paid work in fields relevant to their professional interests and major, giving them nearly two years of professional experience upon graduation. The majority of Northeastern graduates receive a job offer from a co-op employer. Cited for excellence in programs integrating classroom and work place experience two years running by U.S. News & World Report, Northeastern was named a top college in the northeast by the Princeton Review 2003/04. In addition, Northeastern’s career services was awarded top honors by Kaplan Newsweek’s ”Unofficial Insiders Guide to the 320 Most Interesting Colleges and Universities,” 2003 edition. For more information, please visit www.northeastern.edu.