Foot ulcers are one of the most prevalent problems facing diabetic patients, but new technology developed at 两性色午夜 may soon help doctors better understand and treat them. The device, called a 鈥淪hear Force Mat,鈥 represents a breakthrough for physicians seeking to understand how plantar ulcers form. It was developed and built by 两性色午夜 alumnus Misha Pevnyi, PhD 鈥15, and Tianyi Guo, a graduate student in KSU鈥檚 Chemical Physics Interdisciplinary Program in the Advanced Materials and Liquid Crystal Institute (AMLCI). The project, funded by a grant from the Ohio College of Podiatric Medicine, was overseen by Peter
Palffy-Muhoray, PhD, and Hiroshi Yokoyama, PhD (both in the AMLCI) and Vincent Hetherington, DPM, senior associate dean and professor in the College of Podiatric Medicine.
The team took the top prize at the Burton D. Morgan Foundation鈥檚 LaunchTown Soar competition, which focuses on high-tech college student businesses and was held at Baldwin Wallace University in April. Their winnings ($7,000) will allow them to further develop the device.
鈥淭hey conducted interviews with 18 podiatrists, and the judges were impressed that the inventors had actually spoken with potential customers,鈥 says Stephen Roberts, director of KSU鈥檚 Office of Technology Commercialization and Research Finance. 鈥淭his is a great example of the value of getting out of the lab and talking to end users.鈥
Unlike direct forces, created when the foot comes straight down, shear force pushes one part of the body in one direction and another part in the opposite direction. Recent studies suggest shear forces may play a significant role in ulcer development, but the question was how to effectively measure shear?
鈥淭his is a great example of the value of getting out of the lab and talking to end users.鈥
The answer, Pevnyi and Guo found, was to convert shear stresses to more easily measurable local pressures. The device鈥檚 platform (about the size of a large computer keyboard) is made mostly of pyramid-shaped pressure plates that were 3D printed in Palffy-Muhoray鈥檚 lab, with a pivot plate on top, and electrodes and a microprocessor for data collection beneath. The data is automatically uploaded to a website for instant access and monitoring.
Guo worked on the 3D printing and layout while Pevnyi did the electrical and software development. AMLCI engineer Merrill Groom contributed to the IC chip design and assembly. Hetherington says the next steps include improvements of the prototype and clinical testing, followed by use of the technology as a medical analysis tool. Future goals include developing a device for in-shoe application.
The KSU Patent Board has recently approved the device for federal patent application, and funding to continue development is currently being sought.
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