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Combining MRI and Optical Microscopy Promising for Brain Research

June 8, 2017 By Emil Venere

Meng Cui, at left, a Purdue University assistant professor of electrical and computer engineering, and graduate student Yifeng Zhou, display part of a system that allows the simultaneous use of both a functional MRI and “two-photon microscopy” to study the brain. (Credit: Purdue University image/Meng Cui)

Functional magnetic resonance imaging reveals changes in blood-oxygen levels in different parts of the brain, but the data show nothing about what is actually happening in and between brain cells, information needed to better understand brain circuitry and function.

“We really have no clear understanding of what cellular processes cause the MRI signal and are left only with hypotheses,” says Meng Cui, an assistant professor in Purdue University’s School of Electrical and Computer Engineering and the Department of Biological Sciences. “We know there is a change in oxygen carried by hemoglobin in the brain, but microscopically nobody knows the details.”

The powerful magnetic fields generated inside MRI machines are detrimental to the delicate electronics needed for sophisticated optical microscopy. Now researchers have solved the problem by designing a system that allows the simultaneous study of brain function with both a functional MRI and a technology called two-photon microscopy. The innovation makes it possible to correlate the MRI signal with microscopic cellular dynamics, which could lead to a better understanding of brain function and the fine neural circuitry, or connectivity.

Researchers from Purdue and the University of Minnesota have demonstrated a proof of concept for the system using a powerful MRI machine.

Findings, appearing Friday (June 2) in the journal Scientific Reports, showed the optical and MRI systems do not interfere with each other, a step toward using the approach for research.

“Understanding human brain function and dysfunction is the key challenge in neuroscience research, and is also essential for the diagnosis and treatment of brain disorders,” Cui says. “However, gaining precise knowledge of neural circuits, the neuronal signaling process and functional connectivity within and among various circuits in the brain relies on innovative and transformative neuroimaging tools.”

Whereas typical MRIs used in clinical medicine have a magnetic field strength of about 3 tesla, the machine at the University of Minnesota’s Center for Magnetic Resonance Research has a field strength of 16.4 tesla.

“This pilot study paved the way for simultaneous ultrahigh-field MRI and high-resolution two-photon microscopy,” Cui says. “This imaging capability will open new opportunities to study and understand the comprehensive relationships between brain structure and connectivity, neuronal activity and dynamics, brain function and cellular energy metabolism in supporting brain function.”

The new system works by relocating the optoelectronics components and laser far from the MRI machine and remotely delivering light to and from the specimen being studied. The research was carried out with a mouse brain, not a living research animal.

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