UW News

November 9, 2010

Undergraduates’ low-cost ultrasound system wins Gates Foundation grant

UW News

The UW system uses an ultrasound wand that connects via a USB port to a touchscreen computer.

The UW system uses an ultrasound wand that connects via a USB port to a touchscreen computer.

This is the fifth round of Grand Challenges Explorations, an initiative to help scientists around the world explore bold and largely unproven ways to improve health in developing countries. To receive funding, applicants show in a two-page application how their idea falls outside current scientific paradigms and might lead to significant advances in global health.

Grantees, chosen from more than 2,400 proposals, represent 16 countries on five continents.

“I am a huge believer in the creativity of undergraduates,” said faculty adviser Beth Kolko, a UW professor of human centered design and engineering. “This grant really validates that belief.”

Some members of the netbook ultrasound team, with the system they built. Back row: Beth Kolko, Waylon Brunette and Ruth Anderson. Front row: Alexis Hope, Pratik Prasad and Wayne Gerard. Watch a video of their work online here.

Some members of the netbook ultrasound team, with the system they built. Back row: Beth Kolko, Waylon Brunette and Ruth Anderson. Front row: Alexis Hope, Pratik Prasad and Wayne Gerard. Watch a video of their work online here.

The UW device consists of an ultrasound probe that connects via a USB port to a netbook with a touch-sensitive screen. It is designed to be cheap, portable, durable and easy to use.

Receiving the Gates Foundation grant “was very relieving,” said team member Wayne Gerard, a senior in computer engineering. “We were not sure where we were going to get funding to travel to Uganda. We’re also very honored to have such a great foundation backing us, but mostly it is great to know that we have some funds to test our device.”

Right now students estimate their whole system, including the free software, costs about $3,500. The most expensive part is the roughly $3,000 ultrasound probe, which the group has on loan from a UW anesthesiologist. Parts could be swapped out if cheaper models become available.

“We’re relying on older technology,” said Alexis Hope, a master’s student in human centered design and engineering. “With time, our system will naturally get cheaper.”

The effort began in the summer of 2009, when Rob Nathan, a UW assistant professor of radiology, approached Kolko. Nathan was part of a pilot project testing portable ultrasound in Uganda. He began wondering if it was the right approach.

“Portable ultrasound units currently available from manufacturers range from $15,000 to $60,000, far too expensive for ministries of health or donors to consider purchasing in large numbers,” Nathan said. The devices were also too complex for most midwives to use.

Last winter, Kolko’s Concepts in Human-Computer Interaction class teamed up with computer science lecturer Ruth Anderson’s course, Designing Technologies for Resource-Constrained Environments. Five students set out to design a low-cost maternal ultrasound for use in the developing world.

“We got thrown into it after hearing a brief presentation by Dr. Nathan about what he was looking for,” Hope said. “We sort of jumped at the challenge.”

At first, students thoroughly researched the medical needs, the existing technology and other groups’ attempts to deliver low-cost ultrasound. They spoke with their professors and with ultrasound practitioners at the UW Medical Center. They also drew up a survey for the Ugandan midwives working with Nathan.

Their eventual concept was a modular device with a simple interface and off-the-shelf parts. It would focus on detecting three things: multiple births; breech births, when the fetus’ head is pointing upward; and when the placenta is blocking the birth canal. Midwives seeing these high-risk cases could advise the mother to deliver at a medical center rather than at home.

Last spring, the concept became reality. The project evolved into a senior-level research project in computer science and engineering working with Kolko’s team. Doctoral student Waylon Brunette and professor Gaetano Borriello joined Anderson as advisers. Initial funding came from a $2,500 undergraduate research award from the College of Engineering.

The students and faculty in the departments of computer science and engineering, human centered design and engineering and the information school are part of an interdisciplinary campus group, Change, that focuses on technology applications for the developing world.

“We came after this not just as a technology problem but as a human problem. We were really able to innovate that way. And I think that’s been the missing piece in other low-cost ultrasound projects,” Kolko said.

More graduate students in the human centered design and engineering department have joined the group this fall, many using the project to earn research credits. This month’s preliminary tests in Seattle will be the first time the device is used to image a fetus. The students also are writing a help system and preparing for the field test in Uganda.

The group will present its research next month in London, England at the Symposium on Computing for Development, which focuses on computing applications for the developing world.

“This started as a class project,” Hope said. “To find out that we had gotten the money was very exciting. It really drove home that this project is going to push forward.”

Other members of the core team are Matthew Hicks, a senior in informatics; Pratik Prasad, a junior in computer science and mathematics; and Nicole Goldsmith, a clinical ultrasound instructor at UW radiology.

Recipients of these first-phase Grand Challenge grants have a later opportunity to apply for larger, follow-up grants of about $1 million. Last month the UW’s Keith Jerome, associate professor of microbiology, and Pradipsinh Rathod, chemistry professor, were each awarded one of these second-phase grants. Learn more online here.