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Brad Petersen
Director of
Communications
2052 ECE Building
306 N. Wright Street
Urbana, IL 61801
Phone: (217) 244-6376
bradp@illinois.edu

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Meg Dickinson
Communications Specialist
2016 ECE Building
306 N. Wright Street
Urbana, IL 61801
Phone: (217) 300-6664
megd@illinois.edu

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Recent News

New ECE class gives students an in-depth look at the engineering process

New ECE class gives students an in-depth look at the engineering process

Starting this semester, ECE ILLINOIS will offer students an opportunity to study the engineering design process and possibly get a head start on their Senior Design projects with a new class called ECE 398, Special Topics in ECE.

Boppart leads team receiving NIH grant to develop imaging technology for primary care physicians

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By Greta Weiderman, Department of Bioengineering
July 8, 2011

  • ECE and Bioengineering Professor Stephen Boppart leads a team that has received a $5 million grant from the National Institutes of Health to develop new instruments for primary care physicians.
  • The instruments will focus on diagnosing middle ear infections and diabetic retinopathy.
  • The grant will fund the research partnership for five years and could be renewed for an additional five years.

Stephen Allen Boppart
Stephen Allen Boppart

The National Institutes of Health (NIH) has awarded ECE and Bioengineering Professor Stephen Allen Boppart a $5 million grant for a research partnership that will develop new handheld optical imaging technology for primary care providers.

“The result of this, if successful, could really reduce our health care costs and streamline our delivery of health care,” said Boppart, who is a researcher in the Beckman Institute for Advanced Technology and an affiliate of the Micro and Nanotechnology Lab.

Boppart’s research team will partner with Carle Foundation Hospital in Urbana, the Eye Center in Champaign, Welch Allyn (the global leader in office-based diagnostic instruments), Texas Instruments, AdvancedMEMS, and Kyungpook National University in Korea.

The goal of the partnership is to create and test handheld devices capable of 3D optical coherence tomography (OCT) for primary care physicians to image the ear, eye, skin, oral tissue or cervix.

An early prototype of the handheld scanner has both OCT and video imaging capabilities and interchangeable tips for the eyes, ears, skin and oral tissue. As one example, the device images the retina and the anterior eye structures (bottom right).
An early prototype of the handheld scanner has both OCT and video imaging capabilities and interchangeable tips for the eyes, ears, skin and oral tissue. As one example, the device images the retina and the anterior eye structures (bottom right).

The partnership will develop a new imaging system to integrate OCT imaging with the otoscope and ophthalmoscope, which currently only magnify and light the surface of tissue.

“We are trying to build a small, handheld unit that has multiple tips,” Boppart said. “What’s collected is 3D digital data that can image several millimeters into tissue and at micron-scale resolution.” These images could replace biopsies in some cases, providing a noninvasive diagnostic tool.

“The primary care physician is the best person to screen the general population for disease,” Boppart said.

Better imaging and diagnostic tools will empower primary care physicians and will allow for earlier detection of diseases, quantitative measurements, ongoing monitoring of diseases and better referrals.

Tests using the new technology will focus on two common patient problems – middle ear infections and diabetic retinopathy. More specifically, the system will allow physicians to detect and quantify bacterial biofilms in the middle ear that are associated with chronic ear infections.

“We think that it’s going to completely change the way we treat ear infections,” Boppart said.

The system will also allow for earlier detection of diabetic retinopathy and to quantify changes during treatment for that disease. These are just two examples of how the system could be used.

Boppart said the project will fund the research partnership for five years and potentially can be renewed for an additional five years. The goal for the next five years of the partnership is to demonstrate the technology and create a standardized prototype. Then larger clinical trials can begin, he said.  

The project has already been underway for three years, and imaging of patients has been occurring for the past year and a half.

Editor's note: media inquiries should be directed to Brad Petersen, Director of Communications, at bradp@illinois.edu or (217) 244-6376.

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