CS’s Suchi Saria named to ‘Popular Science’ Brilliant 10

September 7, 2016

Suchi Saria of the Department of Computer Science

Suchi Saria, a computer scientist at Johns Hopkins University, has been named to Popular Science‘s Brilliant 10, the magazine’s annual list of the “brightest young minds in science and engineering.”

Saria was chosen for her work on computer-based approaches to develop diagnoses and treatments more specific to individual patients, including for septic shock, identified as the cause of 20 to 30 percent of all U.S. hospital deaths.

By creating algorithms to analyze existing medical information, Saria’s work “suggests that the best answers might already be out there; they just need to be decoded,” Popular Science writes in the 15th annual Brilliant 10, posted online Tuesday. In order to select its Brilliant 10, Popular Science pores over hundreds of nominations from around the country and vets the most promising candidates with experts working in those fields.

“PROFESSOR SARIA IS AT THE FOREFRONT OF EXCITING NEW AREAS OF INVESTIGATION THAT ARE CHANGING THE WAYS WE APPROACH PATIENT CARE.”

Ed Schesinger, Whiting School Dean

“I feel lucky to be at a place like Johns Hopkins where I have the privilege of working with some of the brightest students and collaborators,” says Saria, 33, an assistant professor in the Whiting School of Engineering’s Department of Computer Science. She also holds a joint appointment in the Department of Health Policy and Management at the Bloomberg School of Public Health, and in the Department of Applied Math and Statistics at the Whiting School.

“Professor Saria is at the forefront of exciting new areas of investigation that are changing the ways we approach patient care,” says Ed Schlesinger, dean of the Whiting School of Engineering. “Her vision, combined with her incredible talent and a deep understanding of where engineering, medicine, and health care are going, make her a worthy recipient of this honor.”

Describing her work, Saria says, “we’re at a unique time when the adoption of electronic health records has grown to nearly 80 percent in hospitals and over 50 percent in outpatient clinics. Further, we’re continually collecting more health and behavioral data through devices. By combing through this vast array of data, algorithms can often help us find patterns that pinpoint early signs of declining health and how a patient might respond to specific therapies.”

For instance, she says, in sepsis—a syndrome that develops as a reaction to infection—fluids are often given to stabilize a patient. While some patients are helped by fluids, others respond negatively and develop complications. If computer algorithms can predict this, it can help doctors refine their treatment strategy. They can ask “what-if” questions—for example, what would the likely outcome be if the patient were given more fluids versus more drugs to constrict blood vessels, another treatment for sepsis.

Saria’s algorithms have proven effective in spotting health risks in premature newborns. She is also using this strategy to create more precise prognosis tools for autoimmune diseases such as scleroderma and lupus.

Excerpted from The Hub.

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