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Rhonda Zurn, College of Science and Engineering, firstname.lastname@example.org, (612) 626-7959
Matt Hodson, University News Service, email@example.com, (612) 625-0552
MINNEAPOLIS / ST. PAUL (08/24/2012) —A team of University of Minnesota biomedical engineers and researchers from Mayo Clinic published a groundbreaking study today that outlines how a new type of non-invasive brain scan taken immediately after a seizure gives additional insight into possible causes and treatments for epilepsy patients. The new findings could specifically benefit millions of people who are unable to control their epilepsy with medication.
The research was published online today in Brain, a leading international journal of neurology.
The study’s findings include:
“This is the first-ever study where new non-invasive methods were used to study patients after a seizure instead of during a seizure,” said Bin He, a biomedical engineering professor in the University of Minnesota’s College of Science and Engineering and senior author of the study. “It’s really a paradigm shift for research in epilepsy.”
Epilepsy affects nearly 3 million Americans and 50 million people worldwide. While medications and other treatments help many people of all ages who live with epilepsy, about 1 million people in the U.S. and 17 million people worldwide continue to have seizures that can severely limit their lives.
The biggest challenge for medical researchers is to locate the part of the brain responsible for the seizures to determine possible treatments. In the past, most research has focused on studying patients while they were having a seizure, or what is technically known as the “ictal” phase of a seizure. Some of these studies involved invasive methods such as surgery to collect data.
In the new study, researchers from the University of Minnesota and Mayo Clinic used a novel approach by studying the brains of 28 patients immediately after seizures, or what is technically know as the “postictal” phase of a seizure. They used a specialized type of non-invasive EEG with 76 electrodes attached to the scalp for gathering data in contrast to most previous research that used 32 electrodes. The researchers used specialized imaging technology to gather data about the patient. The findings may lead to innovative means of locating the brain regions responsible for seizures in individual patients using non-invasive strategies.
“The imaging technology that we developed here at the University of Minnesota allowed us to tackle this research and gather several thousand data points that helped us determine our findings,” He said. “The technical innovation was a big part of what helped us make this discovery.”
He, who was recently appointed the director of the University of Minnesota’s Institute for Engineering in Medicine, said this study was also a good example of a true partnership between engineering and medicine to further medical research.
“The innovations in engineering combined with collaborations with clinicians at Mayo Clinic made this research a reality,” He said.
In addition to He, members of the research team included University of Minnesota biomedical engineering Ph.D. student Lin Yang; Gregory A. Worrell, Mayo Clinic, Neurology and Division of Epilepsy; Cindy Nelson, Mayo Clinic, Neurology; and Benjamin Brinkmann, Mayo Clinic, Neurology. The research was funded by the National Institutes of Health.
Read the full research paper published in Brain.