Samer Mabrouk started playing squash as an undergraduate at Georgia Tech. Ankle injuries were to be expected, and resting for a few days was all he needed to get back on the court. Now a research engineer in the School of Electrical and Computer Engineering, Mabrouk hasn’t put his racket down, but he gets injured more often — and rest isn’t enough anymore.
Injuries like Mabrouk’s are common for active Americans. About 25,000 people sprain their ankles daily, and 25% of Americans regularly experience knee pain. But physical therapy is expensive and time-consuming, and online options for rehab aren’t precise enough to be effective. Mabrouk and Omer Inan, Regents’ Entrepreneur and Linda J. and Mark C. Smith Chair in the School of Electrical and Computer Engineering, have been working on a wearable, battery-powered device that monitors joint health and gives personalized strengthening exercises. Inan and Mabrouk’s new company, Arthroba, created a device of the same name that uses electrical sensors to track swelling and tissue damage in the knee, ankle, and other critical joints.
A healthy joint has a delicate balance of fluid between bone, tendons, ligaments, and cartilage — too little fluid can lead to arthritis and stiffness, while too much indicates swelling. When the fluid balance is off, people often experience pain and mobility problems. Arthroba uses bioimpedance analysis, or electrical sensing of the tissue, to determine if there is swelling or damage around a joint and if there is enough soft tissue to support the joint.
“Impedance is how much something impedes — or slows down — electrical current through that material,” Inan noted. “Bioimpedance looks at how much the electrical current is impeded as it flows through the body.”
When the composition of joint tissue changes because of swelling or injury, it can block that current. Arthroba uses four dry electrodes placed around the knee to quantify accumulated fluid and how it moves around the joint, allowing for more targeted physical therapy. The device can also evaluate and detect swelling and muscle tears, and it contains an inertial measurement unit that tracks the acceleration, rotation, and velocity of the joint. Together, they can unlock new insights into joint health and optimize treatment protocols.