Here's how scientists are building a better understanding of our brains

The BrainScope is pictured at a news conference in New York January 23, 2014. The NFL and General Electric announced the first round of winners, which included the company BrainScope, in the "Head Health Challenge", which awards funding for advancing research on speeding up diagnosis and improving treatment for mild traumatic brain injury. REUTERS/Eric Thayer (UNITED STATES - Tags: BUSINESS SPORT FOOTBALL HEALTH) - RTX17RH4

With better brain models, scientists are better equipped to find ways to prevent or even cure neurological diseases like Alzheimer's or schizophrenia. Image: REUTERS/Eric Thayer

Dom Galeon
Writer, Futurism
Kristin Houser
Writer, Futurism
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Better brain models

When it comes to building model organs, perhaps none requires as much precision and exactness in detail as the human brain. In an effort to improve upon existing models, scientists at the Salk Institute studied a 3D “mini-brain” model grown from human stem cells. They concluded that it was more similar to human brains, both structurally and functionally, than the 2D models currently in use.

Just three years ago, European researchers came up with a method of growing embryonic brain cells in 3D gels, which allowed the cells to differentiate into realistic layers similar to those of a real human brain. These 3D models are called cerebral organoids (CO), and according to Joseph Ecker, director of Salk’s Genomic Analysis Laboratory, “Being able to grow human brain cells as miniature three-dimensional organs was a real breakthrough.”

However, until Ecker and his colleagues conducted their recent study, published in the December 20 issue of Cell Reports, no one knew just how accurately these COs mimicked real brains.

Better brain research

To figure out just how realistic these 3D brains were, Ecker’s team studied COs in early stages of brain development and compared them to actual human brains in similar developmental stages. The COs Ecker and his team used were from a human embryonic cell line called H9. With the right chemicals, H9 was induced down a neurodevelopmental pathway for 60 days.

Image: Madeline Lancaster/MRC-LMB

They studied the COs epigenomes — basically, the chemical compounds that tell a genome what to do — because these have been increasingly associated with the development of brain diseases such as schizophrenia. After comparing their results with age-matched real tissues from the National Institutes of Health NeuroBioBank and with 2D brain-model data from other researchers, they saw that COs were more like authentic brains than their 2D counterparts and seemed to grow following the same early-developmental timelines as real brains.

“No one has done epigenome sequencing for cerebral organoids before,” said author Chongyuan Luo, research associate at Salk. “This kind of assessment is so important for understanding brain development, especially if we’re eventually going to use these tissues for neurological therapies.”

With a model that’s closer to a real brain, scientists will be better equipped to study brain development and its role in the emergence of neurological diseases such as Alzheimer’s or schizophrenia, putting us one step closer to improved treatment options or even cures.

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