BOB体育

GAINESVILLE, Fla. 鈥� It is a detailed view of the brain like never seen before.

In a significant technological leap, University of Florida researchers have created a powerful new computational and artificial intelligence tool that can generate a high-resolution 3D map of the brain in mice, allowing users to zoom in and out 鈥� from all angles, like a Google Earth map 鈥� and peer into the full set of molecules that produce energy for brain functions.

This new AI-driven tool, funded by research grants from the National Institutes of Health, brings scientists one step closer to a more comprehensive understanding of the role of metabolism in Alzheimer鈥檚 disease and other neurodegenerative disorders. It could open a new array of possibilities to discover targeted treatments.

, a research team led by , Ph.D., detailed how they developed their groundbreaking MetaVision3D tool using UF鈥檚 . As a proof of principle, they generated a 3D interactive atlas of the brain in both normal mice and mouse models of Alzheimer鈥檚 and Pompe disease, a rare genetic disorder. Sun鈥檚 lab has made its to support the growing field of scientists studying links between metabolism and the mind.

鈥淯sing our methodology, we can map thousands of molecules in the brain and precisely where they are located inside each brain region. It is unprecedented,鈥� said Sun, director of the and associate director for innovation of UF鈥檚 . 鈥淲e couldn鈥檛 have done it without NIH funding. This funding fuels our efforts to uncover metabolic drivers of Alzheimer鈥檚 and pave the way for new interventions to prevent and treat this devastating disease.鈥�

Online users may explore each section of tissue in the 3D reconstruction, which illuminates nuanced complexities not visible in conventional 2D maps, providing new insights into cellular metabolism 鈥� influenced by diet, exercise and genetics 鈥� as well as into disease mechanisms.

鈥淥n Google Earth, I can zoom in on a city and see what a house looks like, what the street looks like, what cars are there. That鈥檚 the level of resolution we provided for the mouse brain in this three-dimensional space, and how they change during diseases,鈥� said Sun, also an associate professor in the in the UF College of Medicine, part of BOB体育. 鈥淵ou can explore and examine molecules that influence thinking, memory and brain health, including those involved in neurodegenerative diseases. You can map all the different molecules and how they are organized and distributed in fine brain structures.鈥�

To achieve the jump from 2D representations to 3D 鈥� which Sun likened to the technological jump from a flip phone to a smartphone 鈥� his lab scanned 79 brain sections one thin layer at a time using a high-tech imaging machine that identifies and counts molecules such as fats and carbohydrates, essential nutrients for brain function.

鈥淭hen we used AI to align those images and stack them together to reconstruct the whole brain metabolome,鈥� said , a first author of the paper and doctoral student in biostatistics who is mentored by Sun and , Ph.D., M.S. The metabolome is the collection of thousands of molecules that make energy for the brain to function.

As the next step, with , Ph.D., director of UF鈥檚 , they mapped the anatomy to correlate with the molecules and used mathematical methods to verify accuracy from 95 to 99%, Sun said.

Going forward, researchers could integrate the map-making tool with established MRI imaging and genetic analyses to work toward developing treatments that target precise areas of the brain, in contrast to current treatments that can also affect nondiseased parts of the brain.

鈥淔or disease prevention and treatment, we have opened a new angle for biologists to study,鈥� said Chen, a co-corresponding author of the paper and an associate professor in the .