BioQuakes

AP Biology class blog for discussing current research in Biology

Tag: brain model

Can Scientists Create a Brain?

 

attributed to hawkexpress

attributed to hawkexpress

The brain is one of the few things that scientists struggle to understand. For now, the only brain models you could find is one made of plastic or rubber. In a recent study, Viennese scientists Madeline Lancaster and Jürgen Knoblich have created “cerebral organoids”. These “cerebral organoids” are neural balls, about the size of a BB pellet. It is the most complex brain structure that has been created in a lab.

The scientists that created this placed cells in a nutrient broth for two months. After this time, the cells specialized into neurons that can be found in distinct parts of a developing brain such as  hippocampus, retina and choroid plexus, which produces cerebrospinal fluid in the brain. Although they look like clumps of tissue, the “cerebral organoids” had “discrete parts of the cerebral cortex, the outer sheet of the human brain that’s responsible for advanced thought processes.” The organoids also sent electrical messages and some groups of young neutrons moved from one place to another, an activity necessary to populate a brain with neurons. Also found abundantly in this tissue was a stem cell called radial glial stem cells, which is important to keep the number of neurons growing.

In order to create the organoids, the scientist must take human stem cells either from an embryo or from adult skin samples altered to an embryo-like state. The cells grow for a few days in a dish and medium and then moved to a nutrient broth to grow neuroectoderm tissue, the tissue that makes the beginnings of a brain. Then, the researchers inject the cells into a gel that gives a strict,”scaffold” to grow on. The final and most important step was to place the gel droplets into spinning flasks with nutrients. This was important because the “spinning motion distributed oxygen and nutrients to all of the cells in the organoid”  After two months, the cells stopped growing. Although they are still alive, they stop dividing and reach maximum size.

This research gives a very important window into the study of the brain, especially the study of brain development.  Although this information is groundbreaking, the organoids lack many important systems that the brain has.

Helpful links

http://www.ninds.nih.gov/disorders/brain_basics/ninds_neuron.htm

http://www.ncbi.nlm.nih.gov/pubmed/23995685

http://www.sciencenews.org/view/generic/id/352830/description/Tiny_human_almost-brains_made_in_lab

 

The Brain that Looked like Jello

Scientists at Stanford University made an entire mouse brain and part of a human brain that is the same consistency as Jell-O. The brain model is transparent so that neurons sending and receiving information can be highlighted and in in the same complexity as 3-D, but without having to slice the model. This new process, called Clarity, preserves the biochemistry of the brain so well researchers can reuse the same model over and over again.

Why Now?

The Obama Administration recently announced it’s interest in discovering the secrets of the brain. While this project was not part of the Obama Administration’s new initiative, Dr. Thomas Insel, director of the National Institute of Mental Health said that Clarity will help build the foundation of the Obama administration’s brain initiative.

The Clarity technique also works with brains that have been preserved for years.

One of the challenges of studying a preserved brain is making it clear enough to see into it. Unlike previous methods, Clarity makes the brain clear enough to see its inner workings.

Imagine if you could see through this brain!

 

How it Happened 

There are many was to make a tissue transparent. Clarity uses hydrogel, a substance of water held together by other molecules to give it solidity. The hydrogel forms a mesh that permeates the brain and connects to most molecules other than lipids. The hydrogel brain is then put in a soapy electrical solution, where a current is applied, driving the solution to the brain and getting rid of the lipids. The brain is then transparent with its biochemistry still in tact, so it can be infused with chemicals that will show the details of its structure.

The hardest part of the procedure is obtaining the correct ratio of temperature, electricity and solution. More work is needed to be done before this method can be applied to an entire human brain.

The Benefits 

The Clarity technique gives scientists a more exact image of what’s going on in people’s brains. This process may discover physical reasons for debilitating mental disorders, such as PTDS, schizophrenia, and autism.

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